Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonev5/arch/BPF/BPFInstPrinter.c
Line
Count
Source
1
/* Capstone Disassembly Engine */
2
/* BPF Backend by david942j <david942j@gmail.com>, 2019 */
3
4
#include <capstone/platform.h>
5
6
#include "BPFConstants.h"
7
#include "BPFInstPrinter.h"
8
#include "BPFMapping.h"
9
10
static cs_bpf_op *expand_bpf_operands(cs_bpf *bpf)
11
21.0k
{
12
  /* assert(bpf->op_count < 3); */
13
21.0k
  return &bpf->operands[bpf->op_count++];
14
21.0k
}
15
16
static void push_op_reg(cs_bpf *bpf, bpf_op_type val, uint8_t ac_mode)
17
8.16k
{
18
8.16k
  cs_bpf_op *op = expand_bpf_operands(bpf);
19
20
8.16k
  op->type = BPF_OP_REG;
21
8.16k
  op->reg = val;
22
8.16k
  op->access = ac_mode;
23
8.16k
}
24
25
static void push_op_imm(cs_bpf *bpf, uint64_t val)
26
5.31k
{
27
5.31k
  cs_bpf_op *op = expand_bpf_operands(bpf);
28
29
5.31k
  op->type = BPF_OP_IMM;
30
5.31k
  op->imm = val;
31
5.31k
}
32
33
static void push_op_off(cs_bpf *bpf, uint32_t val)
34
2.36k
{
35
2.36k
  cs_bpf_op *op = expand_bpf_operands(bpf);
36
37
2.36k
  op->type = BPF_OP_OFF;
38
2.36k
  op->off = val;
39
2.36k
}
40
41
static void push_op_mem(cs_bpf *bpf, bpf_reg reg, uint32_t val)
42
4.40k
{
43
4.40k
  cs_bpf_op *op = expand_bpf_operands(bpf);
44
45
4.40k
  op->type = BPF_OP_MEM;
46
4.40k
  op->mem.base = reg;
47
4.40k
  op->mem.disp = val;
48
4.40k
}
49
50
static void push_op_mmem(cs_bpf *bpf, uint32_t val)
51
527
{
52
527
  cs_bpf_op *op = expand_bpf_operands(bpf);
53
54
527
  op->type = BPF_OP_MMEM;
55
527
  op->mmem = val;
56
527
}
57
58
static void push_op_msh(cs_bpf *bpf, uint32_t val)
59
244
{
60
244
  cs_bpf_op *op = expand_bpf_operands(bpf);
61
62
244
  op->type = BPF_OP_MSH;
63
244
  op->msh = val;
64
244
}
65
66
static void push_op_ext(cs_bpf *bpf, bpf_ext_type val)
67
15
{
68
15
  cs_bpf_op *op = expand_bpf_operands(bpf);
69
70
15
  op->type = BPF_OP_EXT;
71
15
  op->ext = val;
72
15
}
73
74
static void convert_operands(MCInst *MI, cs_bpf *bpf)
75
13.1k
{
76
13.1k
  unsigned opcode = MCInst_getOpcode(MI);
77
13.1k
  unsigned mc_op_count = MCInst_getNumOperands(MI);
78
13.1k
  MCOperand *op;
79
13.1k
  MCOperand *op2;
80
13.1k
  unsigned i;
81
82
13.1k
  bpf->op_count = 0;
83
13.1k
  if (BPF_CLASS(opcode) == BPF_CLASS_LD || BPF_CLASS(opcode) == BPF_CLASS_LDX) {
84
2.83k
    switch (BPF_MODE(opcode)) {
85
537
    case BPF_MODE_IMM:
86
537
      if (EBPF_MODE(MI->csh)) {
87
335
        push_op_reg(bpf, MCOperand_getReg(MCInst_getOperand(MI, 0)), CS_AC_WRITE);
88
335
        push_op_imm(bpf, MCOperand_getImm(MCInst_getOperand(MI, 1)));
89
335
      } else {
90
202
        push_op_imm(bpf, MCOperand_getImm(MCInst_getOperand(MI, 0)));
91
202
      }
92
537
      break;
93
402
    case BPF_MODE_ABS:
94
402
      op = MCInst_getOperand(MI, 0);
95
402
      push_op_mem(bpf, BPF_REG_INVALID, (uint32_t)MCOperand_getImm(op));
96
402
      break;
97
638
    case BPF_MODE_IND:
98
638
      op = MCInst_getOperand(MI, 0);
99
638
      op2 = MCInst_getOperand(MI, 1);
100
638
      push_op_mem(bpf, MCOperand_getReg(op), (uint32_t)MCOperand_getImm(op2));
101
638
      break;
102
997
    case BPF_MODE_MEM:
103
997
      if (EBPF_MODE(MI->csh)) {
104
        /* ldx{w,h,b,dw} dst, [src+off] */
105
783
        push_op_reg(bpf, MCOperand_getReg(MCInst_getOperand(MI, 0)), CS_AC_WRITE);
106
783
        op = MCInst_getOperand(MI, 1);
107
783
        op2 = MCInst_getOperand(MI, 2);
108
783
        push_op_mem(bpf, MCOperand_getReg(op), (uint32_t)MCOperand_getImm(op2));
109
783
      }
110
214
      else {
111
214
        push_op_mmem(bpf, (uint32_t)MCOperand_getImm(MCInst_getOperand(MI, 0)));
112
214
      }
113
997
      break;
114
15
    case BPF_MODE_LEN:
115
15
      push_op_ext(bpf, BPF_EXT_LEN);
116
15
      break;
117
244
    case BPF_MODE_MSH:
118
244
      op = MCInst_getOperand(MI, 0);
119
244
      push_op_msh(bpf, (uint32_t)MCOperand_getImm(op));
120
244
      break;
121
    /* case BPF_MODE_XADD: // not exists */
122
2.83k
    }
123
2.83k
    return;
124
2.83k
  }
125
10.3k
  if (BPF_CLASS(opcode) == BPF_CLASS_ST || BPF_CLASS(opcode) == BPF_CLASS_STX) {
126
2.89k
    if (!EBPF_MODE(MI->csh)) {
127
      // cBPF has only one case - st* M[k]
128
313
      push_op_mmem(bpf, (uint32_t)MCOperand_getImm(MCInst_getOperand(MI, 0)));
129
313
      return;
130
313
    }
131
    /* eBPF has two cases:
132
     * - st [dst + off], src
133
     * - xadd [dst + off], src
134
     * they have same form of operands.
135
     */
136
2.58k
    op = MCInst_getOperand(MI, 0);
137
2.58k
    op2 = MCInst_getOperand(MI, 1);
138
2.58k
    push_op_mem(bpf, MCOperand_getReg(op), (uint32_t)MCOperand_getImm(op2));
139
2.58k
    op = MCInst_getOperand(MI, 2);
140
2.58k
    if (MCOperand_isImm(op))
141
829
      push_op_imm(bpf, MCOperand_getImm(op));
142
1.75k
    else if (MCOperand_isReg(op))
143
1.75k
      push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ);
144
2.58k
    return;
145
2.89k
  }
146
147
7.45k
  if (BPF_CLASS(opcode) == BPF_CLASS_JMP) {
148
7.80k
    for (i = 0; i < mc_op_count; i++) {
149
5.27k
      op = MCInst_getOperand(MI, i);
150
5.27k
      if (MCOperand_isImm(op)) {
151
        /* decide the imm is BPF_OP_IMM or BPF_OP_OFF type here */
152
        /*
153
         * 1. ja +off
154
         * 2. j {x,k}, +jt, +jf // cBPF
155
         * 3. j dst_reg, {src_reg, k}, +off // eBPF
156
         */
157
3.78k
        if (BPF_OP(opcode) == BPF_JUMP_JA ||
158
3.47k
            (!EBPF_MODE(MI->csh) && i >= 1) ||
159
2.39k
            (EBPF_MODE(MI->csh) && i == 2))
160
2.36k
          push_op_off(bpf, (uint32_t)MCOperand_getImm(op));
161
1.42k
        else
162
1.42k
          push_op_imm(bpf, MCOperand_getImm(op));
163
3.78k
      }
164
1.48k
      else if (MCOperand_isReg(op)) {
165
1.48k
        push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ);
166
1.48k
      }
167
5.27k
    }
168
2.53k
    return;
169
2.53k
  }
170
171
4.92k
  if (!EBPF_MODE(MI->csh)) {
172
    /* In cBPF mode, all registers in operands are accessed as read */
173
3.63k
    for (i = 0; i < mc_op_count; i++) {
174
1.55k
      op = MCInst_getOperand(MI, i);
175
1.55k
      if (MCOperand_isImm(op))
176
656
        push_op_imm(bpf, MCOperand_getImm(op));
177
896
      else if (MCOperand_isReg(op))
178
896
        push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ);
179
1.55k
    }
180
2.08k
    return;
181
2.08k
  }
182
183
  /* remain cases are: eBPF mode && ALU */
184
  /* if (BPF_CLASS(opcode) == BPF_CLASS_ALU || BPF_CLASS(opcode) == BPF_CLASS_ALU64) */
185
186
  /* We have three types:
187
   * 1. {l,b}e dst               // dst = byteswap(dst)
188
   * 2. neg dst                  // dst = -dst
189
   * 3. <op> dst, {src_reg, imm} // dst = dst <op> src
190
   * so we can simply check the number of operands,
191
   * exactly one operand means we are in case 1. and 2.,
192
   * otherwise in case 3.
193
   */
194
2.84k
  if (mc_op_count == 1) {
195
901
    op = MCInst_getOperand(MI, 0);
196
901
    push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ | CS_AC_WRITE);
197
901
  }
198
1.94k
  else { // if (mc_op_count == 2)
199
1.94k
    op = MCInst_getOperand(MI, 0);
200
1.94k
    push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ | CS_AC_WRITE);
201
202
1.94k
    op = MCInst_getOperand(MI, 1);
203
1.94k
    if (MCOperand_isImm(op))
204
1.86k
      push_op_imm(bpf, MCOperand_getImm(op));
205
71
    else if (MCOperand_isReg(op))
206
71
      push_op_reg(bpf, MCOperand_getReg(op), CS_AC_READ);
207
1.94k
  }
208
2.84k
}
209
210
static void print_operand(MCInst *MI, struct SStream *O, const cs_bpf_op *op)
211
21.0k
{
212
21.0k
  switch (op->type) {
213
0
  case BPF_OP_INVALID:
214
0
    SStream_concat(O, "invalid");
215
0
    break;
216
8.16k
  case BPF_OP_REG:
217
8.16k
    SStream_concat(O, BPF_reg_name((csh)MI->csh, op->reg));
218
8.16k
    break;
219
5.31k
  case BPF_OP_IMM:
220
5.31k
    SStream_concat(O, "0x%" PRIx64, op->imm);
221
5.31k
    break;
222
2.36k
  case BPF_OP_OFF:
223
2.36k
    SStream_concat(O, "+0x%x", op->off);
224
2.36k
    break;
225
4.40k
  case BPF_OP_MEM:
226
4.40k
    SStream_concat(O, "[");
227
4.40k
    if (op->mem.base != BPF_REG_INVALID)
228
4.00k
      SStream_concat(O, BPF_reg_name((csh)MI->csh, op->mem.base));
229
4.40k
    if (op->mem.disp != 0) {
230
4.36k
      if (op->mem.base != BPF_REG_INVALID)
231
3.99k
        SStream_concat(O, "+");
232
4.36k
      SStream_concat(O, "0x%x", op->mem.disp);
233
4.36k
    }
234
4.40k
    if (op->mem.base == BPF_REG_INVALID && op->mem.disp == 0) // special case
235
29
      SStream_concat(O, "0x0");
236
4.40k
    SStream_concat(O, "]");
237
4.40k
    break;
238
527
  case BPF_OP_MMEM:
239
527
    SStream_concat(O, "m[0x%x]", op->mmem);
240
527
    break;
241
244
  case BPF_OP_MSH:
242
244
    SStream_concat(O, "4*([0x%x]&0xf)", op->msh);
243
244
    break;
244
15
  case BPF_OP_EXT:
245
15
    switch (op->ext) {
246
15
    case BPF_EXT_LEN:
247
15
      SStream_concat(O, "#len");
248
15
      break;
249
15
    }
250
15
    break;
251
21.0k
  }
252
21.0k
}
253
254
/*
255
 * 1. human readable mnemonic
256
 * 2. set pubOpcode (BPF_INSN_*)
257
 * 3. set detail->bpf.operands
258
 * */
259
void BPF_printInst(MCInst *MI, struct SStream *O, void *PrinterInfo)
260
13.1k
{
261
13.1k
  int i;
262
13.1k
  cs_insn insn;
263
13.1k
  cs_bpf bpf;
264
265
13.1k
  insn.detail = NULL;
266
  /* set pubOpcode as instruction id */
267
13.1k
  BPF_get_insn_id((cs_struct*)MI->csh, &insn, MCInst_getOpcode(MI));
268
13.1k
  MCInst_setOpcodePub(MI, insn.id);
269
270
13.1k
  SStream_concat(O, BPF_insn_name((csh)MI->csh, insn.id));
271
13.1k
  convert_operands(MI, &bpf);
272
34.2k
  for (i = 0; i < bpf.op_count; i++) {
273
21.0k
    if (i == 0)
274
12.3k
      SStream_concat(O, "\t");
275
8.67k
    else
276
8.67k
      SStream_concat(O, ", ");
277
21.0k
    print_operand(MI, O, &bpf.operands[i]);
278
21.0k
  }
279
280
13.1k
#ifndef CAPSTONE_DIET
281
13.1k
  if (MI->flat_insn->detail) {
282
13.1k
    MI->flat_insn->detail->bpf = bpf;
283
13.1k
  }
284
13.1k
#endif
285
13.1k
}