1
2
3 :(scenario check_bitfield_sizes)
4 % Hide_errors = true;
5 == 0x1
6 01/add 4/mod 3/rm32 1/r32
7 +error: '4/mod' too large to fit in bitfield mod
8
9 :(before "End Globals")
10 map<string, uint32_t> Operand_bound;
11 :(before "End One-time Setup")
12 put_new(Operand_bound, "subop", 1<<3);
13 put_new(Operand_bound, "mod", 1<<2);
14 put_new(Operand_bound, "rm32", 1<<3);
15 put_new(Operand_bound, "base", 1<<3);
16 put_new(Operand_bound, "index", 1<<3);
17 put_new(Operand_bound, "scale", 1<<2);
18 put_new(Operand_bound, "r32", 1<<3);
19 put_new(Operand_bound, "disp8", 1<<8);
20 put_new(Operand_bound, "disp16", 1<<16);
21
22 put_new(Operand_bound, "imm8", 1<<8);
23
24
25 :(before "Pack Operands(segment code)")
26 check_operand_bounds(code);
27 if (trace_contains_errors()) return;
28 :(code)
29 void check_operand_bounds(const segment& code) {
30 trace(99, "transform") << "-- check operand bounds" << end();
31 for (int i = 0; i < SIZE(code.lines); ++i) {
32 const line& inst = code.lines.at(i);
33 for (int j = first_operand(inst); j < SIZE(inst.words); ++j)
34 check_operand_bounds(inst.words.at(j));
35 if (trace_contains_errors()) return;
36 }
37 }
38
39 void check_operand_bounds(const word& w) {
40 for (map<string, uint32_t>::iterator p = Operand_bound.begin(); p != Operand_bound.end(); ++p) {
41 if (!has_operand_metadata(w, p->first)) continue;
42 if (!looks_like_hex_int(w.data)) continue;
43 int32_t x = parse_int(w.data);
44 if (x >= 0) {
45 if (static_cast<uint32_t>(x) >= p->second)
46 raise << "'" << w.original << "' too large to fit in bitfield " << p->first << '\n' << end();
47 }
48 else {
49
50 if (x < -1*static_cast<int32_t>(p->second/2))
51 raise << "'" << w.original << "' too large to fit in bitfield " << p->first << '\n' << end();
52 }
53 }
54 }