gcc/testsuite/gcc.dg/attr-alloc_size-4.c


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203

/* PR c/77531 - __attribute__((alloc_size(1,2))) could also warn on
   multiplication overflow
   PR c/78284 - warn on malloc with very large arguments
   Test exercising the ability to detect and diagnose calls to allocation
   functions decorated with attribute alloc_size that either overflow or
   exceed the maximum object size specified by -Walloc-size-larger-than.  */
/* { dg-do compile } */
/* { dg-options "-O2 -Wall -Walloc-size-larger-than=1234" } */

#define INT_MAX    __INT_MAX__
#define INT_MIN    (-INT_MAX - 1)
#define UINT_MAX   (INT_MAX * 2U + 1)

#define SIZE_MAX   __SIZE_MAX__

typedef __SIZE_TYPE__ size_t;

#define ALLOC_SIZE(...) __attribute__ ((alloc_size (__VA_ARGS__)))

void* f_uint_1 (unsigned) ALLOC_SIZE (1);
void* f_uint_2 (unsigned, unsigned) ALLOC_SIZE (1, 2);
void* f_int_1 (int) ALLOC_SIZE (1);
void* f_int_2 (int, int) ALLOC_SIZE (1, 2);

void* f_size_1 (size_t) ALLOC_SIZE (1);
void* f_size_2 (size_t, size_t) ALLOC_SIZE (1, 2);

static size_t
unsigned_range (size_t min, size_t max)
{
  extern size_t random_unsigned_value (void);
  size_t val = random_unsigned_value ();
  if (val < min || max < val) val = min;
  return val;
}

static int
signed_range (int min, int max)
{
  extern int random_signed_value (void);
  int val = random_signed_value ();
  if (val < min || max < val) val = min;
  return val;
}

static size_t
unsigned_anti_range (size_t min, size_t max)
{
  extern size_t random_unsigned_value (void);
  size_t val = random_unsigned_value ();
  if (min <= val && val <= max)
    val = min - 1;
  return val;
}

static int
signed_anti_range (int min, int max)
{
  extern int random_signed_value (void);
  int val = random_signed_value ();
  if (min <= val && val <= max)
    val = min - 1;
  return val;
}

#define UR(min, max) unsigned_range (min, max)
#define SR(min, max) signed_range (min, max)

#define UAR(min, max) unsigned_anti_range (min, max)
#define SAR(min, max) signed_anti_range (min, max)


void sink (void*);

void
test_uint_cst (void)
{
  const unsigned max = UINT_MAX;

  sink (f_uint_1 (0));
  sink (f_uint_1 (1));
  sink (f_uint_1 (1233));
  sink (f_uint_1 (1234));
  sink (f_uint_1 (1235));       /* { dg-warning "argument 1 value .1235u?. exceeds maximum object size 1234" } */
  sink (f_uint_1 (max - 1));    /* { dg-warning "argument 1 value .\[0-9\]+u?. exceeds maximum object size 1234" } */
  sink (f_uint_1 (max));        /* { dg-warning "argument 1 value .\[0-9\]+u?. exceeds maximum object size 1234" } */
}

void
test_uint_range (unsigned n)
{
  const unsigned max = UINT_MAX;

  sink (f_uint_1 (n));
  sink (f_uint_1 (UR (0, 1)));
  sink (f_uint_1 (UR (0, 1233)));
  sink (f_uint_1 (UR (0, 1234)));
  sink (f_uint_1 (UR (0, 1235)));
  sink (f_uint_1 (UR (1, 1235)));
  sink (f_uint_1 (UR (1234, 1235)));
  sink (f_uint_1 (UR (1235, 1236)));   /* { dg-warning "argument 1 range \\\[\[0-9\]+u?, \[0-9\]+u?\\\] exceeds maximum object size 1234" } */
  sink (f_uint_1 (UR (1, max - 1)));
  sink (f_uint_1 (UR (1, max)));
}

void
test_int_cst (void)
{
  const int min = INT_MIN;
  const int max = INT_MAX;

  sink (f_int_1 (min));   /* { dg-warning "argument 1 value .-\[0-9\]+. is negative" } */
  sink (f_int_1 (-1));    /* { dg-warning "argument 1 value .-1. is negative" } */
  sink (f_int_1 (0));
  sink (f_int_1 (1));
  sink (f_int_1 (1233));
  sink (f_int_1 (1234));
  sink (f_int_1 (max));   /* { dg-warning "argument 1 value .\[0-9\]+u?. exceeds maximum object size 1234" } */
}

void
test_int_range (int n)
{
  const int min = INT_MIN;
  const int max = INT_MAX;

  sink (f_int_1 (n));

  sink (f_int_1 (SR (min, 1234)));
  sink (f_int_1 (SR (-2, -1)));   /* { dg-warning "argument 1 range \\\[-2, -1\\\] is negative" } */

  sink (f_int_1 (SR (1235, 2345)));  /* { dg-warning "argument 1 range \\\[1235, 2345\\\] exceeds maximum object size 1234" } */
  sink (f_int_1 (SR (max - 1, max)));   /* { dg-warning "argument 1 range \\\[\[0-9\]+, \[0-9\]+\\\] exceeds maximum object size 1234" } */

  sink (f_int_1 (SAR (-1, 1)));
  sink (f_int_1 (SAR (-2, 12)));
  sink (f_int_1 (SAR (-3, 123)));
  sink (f_int_1 (SAR (-4, 1234)));   /* { dg-warning "argument 1 range \\\[1235, \[0-9\]+\\\] exceeds maximum object size 1234" } */
  sink (f_int_1 (SAR (min + 1, 1233)));

#if __i386__ || __x86_64__
  /* Avoid failures described in bug 79051.  */
  sink (f_int_1 (SAR (min + 2, 1235)));   /* { dg-warning "argument 1 range \\\[1236, \[0-9\]+\\\] exceeds maximum object size 1234" "" { target { i?86-*-* x86_64-*-* } } } */
#endif

  sink (f_int_1 (SAR (0, max)));   /* { dg-warning "argument 1 range \\\[-\[0-9\]*, -1\\\] is negative" } */
  /* The range below includes zero which would be diagnosed by
     -Walloc-size-zero but since all other values are negative it
     is diagnosed by -Walloc-size-larger-than.  */
  sink (f_int_1 (SAR (1, max)));   /* { dg-warning "argument 1 range \\\[-\[0-9\]*, 0\\\] is negative" } */
  sink (f_int_1 (SAR (2, max)));
}

void
test_size_cst (void)
{
  const size_t max = __SIZE_MAX__;

  sink (f_size_1 (0));
  sink (f_size_1 (1));

  sink (f_size_2 (   0, 1234));
  sink (f_size_2 (   1, 1234));
  sink (f_size_2 (   2, 1234));  /* { dg-warning "product .2 \\* 1234. of arguments 1 and 2 exceeds maximum object size \[0-9\]+" } */
  sink (f_size_2 (1234, 1234));  /* { dg-warning "product .1234 \\* 1234. of arguments 1 and 2 exceeds (.SIZE_MAX.|maximum object size 1234)" } */
  sink (f_size_2 (1235, 1234));  /* { dg-warning "argument 1 value .1235. exceeds maximum object size 1234" } */
  sink (f_size_2 (1234, 1235));  /* { dg-warning "argument 2 value .1235. exceeds maximum object size 1234" } */
  sink (f_size_2 (1234, max));  /* { dg-warning "argument 2 value .\[0-9\]+. exceeds maximum object size 1234" } */
  sink (f_size_2 (max, 1234));  /* { dg-warning "argument 1 value .\[0-9\]+. exceeds maximum object size 1234" } */
}

void
test_size_range (size_t n)
{
  const size_t max = __SIZE_MAX__;

  sink (f_size_1 (n));

  sink (f_size_1 (UR (0, 1)));
  sink (f_size_1 (UR (0, max - 1)));
  sink (f_size_1 (UR (1, max - 1)));
  sink (f_size_1 (UR (1, max)));

  sink (f_size_1 (UAR (1, 1)));
  /* Since the only valid argument in the anti-range below is zero
     a warning is expected even though -Walloc-zero is not specified.  */
  sink (f_size_1 (UAR (1, 1234)));   /* { dg-warning "argument 1 range \\\[\[0-9\]+, \[0-9\]+\\\] exceeds maximum object size " } */
  /* The only valid argument in this range is 1.  */
  sink (f_size_1 (UAR (2, max / 2)));

  sink (f_size_2 (n, n));
  sink (f_size_2 (n, 1234));
  sink (f_size_2 (1234, n));

  sink (f_size_2 (UR (0, 1), 1234));
  sink (f_size_2 (UR (0, 1), 1235));   /* { dg-warning "argument 2 value .1235. exceeds maximum object size 1234" } */

  sink (f_size_2 (UR (1235, 1236), n));  /* { dg-warning "argument 1 range \\\[1235, 1236\\\] exceeds maximum object size 1234" } */

  sink (f_size_2 (UR (1235, 1236), UR (max / 2, max)));  /* { dg-warning "argument 1 range \\\[\[0-9\]+, \[0-9\]+\\\] exceeds maximum object size " } */
/* { dg-warning "argument 2 range \\\[\[0-9\]+, \[0-9\]+\\\] exceeds maximum object size " "argument 2" { target *-*-* } .-1 } */

}