gcc/testsuite/gcc.dg/builtin-stringop-chk-5.c - gcc - Git at Google

 /* Test exercising -Wstringop-overflow warnings.  */
 /* { dg-do compile } */
 /* { dg-options "-O2 -Wstringop-overflow=1 -Wno-array-bounds" } */

 #define offsetof(type, mem)   __builtin_offsetof (type, mem)

 /* Return the number of bytes from member MEM of TYPE to the end
    of object OBJ.  */
 #define offsetfrom(type, obj, mem) (sizeof (obj) - offsetof (type, mem))


 typedef __SIZE_TYPE__ size_t;
 extern void* memcpy (void*, const void*, size_t);
 extern void* memset (void*, int, __SIZE_TYPE__);


 struct A { char a, b; };
 struct B { struct A a; char c, d; };

 /* Function to call to "escape" pointers from tests below to prevent
    GCC from assuming the values of the objects they point to stay
    the unchanged.  */
 void escape (void*, ...);

 /* Function to "generate" a random number each time it's called.  Declared
    (but not defined) and used to prevent GCC from making assumptions about
    their values based on the variables uses in the tested expressions.  */
 size_t random_unsigned_value (void);

 /* Return a random unsigned value between MIN and MAX.  */

 static inline size_t
 range (size_t min, size_t max)
 {
   const size_t val = random_unsigned_value ();
   return val < min || max < val ? min : val;
 }

 /* Verify that writing past the end of a local array is diagnosed.  */

 void test_memop_warn_local (const void *src)
 {
   size_t n;

   n = range (8, 32);

   struct A a[2];

   memcpy (a, src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
   escape (a, src);

   /* At -Wstringop-overflow=1 the destination is considered to be
      the whole array and its size is therefore sizeof a.  */
   memcpy (&a[0], src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
   escape (a, src);

   /* Verify the same as above but by writing into the first mmeber
      of the first element of the array.  */
   memcpy (&a[0].a, src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
   escape (a, src);

   n = range (12, 32);

   struct B b[2];

   memcpy (&b[0], src, n);   /* { dg-warning "writing between 12 and 32 bytes into a region of size 8 overflows the destination" } */
   escape (b);

   /* The following idiom of clearing multiple members of a struct is
      used in a few places in the Linux kernel.  Verify that a warning
      is issued for it when it writes past the end of the array object.  */
   memset (&b[0].a.b, 0, offsetfrom (struct B, b, a.b) + 1);   /* { dg-warning "writing 8 bytes into a region of size 7" } */
   escape (b);

   memset (&b->a.b, 0, offsetfrom (struct B, b, a.b) + 1);   /* { dg-warning "writing 8 bytes into a region of size 7" } */
   escape (b);

   memset (&b[0].c, 0, offsetfrom (struct B, b, c) + 1);   /* { dg-warning "writing 7 bytes into a region of size 6" } */
   escape (b);

   memset (&b->c, 0, offsetfrom (struct B, b, c) + 1);   /* { dg-warning "writing 7 bytes into a region of size 6" } */
   escape (b);

   memset (&b[0].d, 0, offsetfrom (struct B, b, d) + 1);   /* { dg-warning "writing 6 bytes into a region of size 5" } */
   escape (b);

   memset (&b->d, 0, offsetfrom (struct B, b, d) + 1);   /* { dg-warning "writing 6 bytes into a region of size 5" } */
   escape (b);

   /* Same as above but clearing just members of the second element
      of the array.  */
   memset (&b[1].a.b, 0, offsetfrom (struct B, b[1], a.b) + 1);   /* { dg-warning "writing 4 bytes into a region of size 3" } */
   escape (b);

   memset (&b[1].c, 0, offsetfrom (struct B, b[1], c) + 1);   /* { dg-warning "writing 3 bytes into a region of size 2" } */
   escape (b);

   memset (&b[1].d, 0, offsetfrom (struct B, b[1], d) + 1);   /* { dg-warning "writing 2 bytes into a region of size 1" } */
   escape (b);
 }

 /* Verify that writing past the end of a dynamically allocated array
    of known size is diagnosed.  */

 void test_memop_warn_alloc (const void *src)
 {
   size_t n;

   n = range (8, 32);

   struct A *a = __builtin_malloc (sizeof *a * 2);

   memcpy (a, src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 " "memcpy into allocated" } */
   escape (a, src);

   /* At -Wstringop-overflow=1 the destination is considered to be
      the whole array and its size is therefore sizeof a.  */
   memcpy (&a[0], src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" "memcpy into allocated" } */
   escape (a, src);

   /* Verify the same as above but by writing into the first mmeber
      of the first element of the array.  */
   memcpy (&a[0].a, src, n);   /* { dg-warning "writing between 8 and 32 bytes into a region of size " "memcpy into allocated" } */
   escape (a, src);

   n = range (12, 32);

   struct B *b = __builtin_malloc (sizeof (struct B[2]));

   memcpy (&b[0], src, n);   /* { dg-warning "writing between 12 and 32 bytes into a region of size 8 " "memcpy into allocated" } */
   escape (b);

   /* The following idiom of clearing multiple members of a struct is
      used in a few places in the Linux kernel.  Verify that a warning
      is issued for it when it writes past the end of the array object.  */
   memset (&b[0].a.b, 0, offsetfrom (struct B, struct B[2], a.b) + 1);   /* { dg-warning "writing 8 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b->a.b, 0, offsetfrom (struct B, struct B[2], a.b) + 1);   /* { dg-warning "writing 8 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b[0].c, 0, offsetfrom (struct B, struct B[2], c) + 1);   /* { dg-warning "writing 7 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b->c, 0, offsetfrom (struct B, struct B[2], c) + 1);   /* { dg-warning "writing 7 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b[0].d, 0, offsetfrom (struct B, struct B[2], d) + 1);   /* { dg-warning "writing 6 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b->d, 0, offsetfrom (struct B, struct B[2], d) + 1);   /* { dg-warning "writing 6 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   /* Same as above but clearing just elements of the second element
      of the array.  */
   memset (&b[1].a.b, 0, offsetfrom (struct B, b[1], a.b) + 1);   /* { dg-warning "writing 4 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b[1].c, 0, offsetfrom (struct B, b[1], c) + 1);   /* { dg-warning "writing 3 bytes into a region of size " "memcpy into allocated" } */
   escape (b);

   memset (&b[1].d, 0, offsetfrom (struct B, b[1], d) + 1);   /* { dg-warning "writing 2 bytes into a region of size 1" "memcpy into allocated" } */
   escape (b);
 }


 void test_memop_nowarn (const void *src)
 {
   struct B b[2];

   size_t n = range (sizeof b, 32);

   /* Verify that clearing the whole array is not diagnosed regardless
      of whether the expression pointing to its beginning is obtained
      from the array itself or its first member(s).  */
   memcpy (b, src, n);
   escape (b);

   memcpy (&b[0], src, n);
   escape (b);

   memcpy (&b[0].a, src, n);
   escape (b, src);

   memcpy (&b[0].a.a, src, n);
   escape (b, src);

   /* Clearing multiple elements of an array of structs.  */
   memset (&b[0].a.b, 0, sizeof b - offsetof (struct B, a.b));
   escape (b);

   memset (&b->a.b, 0, sizeof b - offsetof (struct B, a.b));
   escape (b);

   memset (&b[0].c, 0, sizeof b - offsetof (struct B, c));
   escape (b);

   memset (&b->c, 0, sizeof b - offsetof (struct B, c));
   escape (b);

   memset (&b[0].d, 0, sizeof b - offsetof (struct B, d));
   escape (b);

   memset (&b->d, 0, sizeof b - offsetof (struct B, d));
   escape (b);

   /* Same as above but clearing just elements of the second element
      of the array.  */
   memset (&b[1].a.b, 0, sizeof b[1] - offsetof (struct B, a.b));
   escape (b);

   memset (&b[1].c, 0, sizeof b[1] - offsetof (struct B, c));
   escape (b);

   memset (&b[1].d, 0, sizeof b[1] - offsetof (struct B, d));
   escape (b);
 }


 /* The foollowing function could specify in its API that it takes
    an array of exactly two elements, as shown below.  Verify that
    writing into both elements is not diagnosed.  */
 void test_memop_nowarn_arg (struct A[2], const void*);

 void test_memop_nowarn_arg (struct A *a, const void *src)
 {
   memcpy (a, src, 2 * sizeof *a);
   escape (a, src);

   memcpy (a, src, range (2 * sizeof *a, 123));
   escape (a, src);
 }


 struct C { char a[3], b; };
 struct D { struct C c; char d, e; };

 extern char* strncpy (char*, const char*, __SIZE_TYPE__);

 void test_stringop_warn (void)
 {
   size_t n = range (2 * sizeof (struct D) + 1, 33);

   struct C c[2];

   /* Similarly, at -Wstringop-overflow=1 the destination is considered
      to be the whole array and its size is therefore sizeof c.  */
   strncpy (c[0].a, "123", n);   /* { dg-warning "writing between 13 and 33 bytes into a region of size 8 overflows the destination" } */

   escape (c);
 }


 void test_stringop_nowarn (void)
 {
   struct D d[2];

   strncpy (d[0].c.a, "123", range (sizeof d, 32));
   escape (d);
 }
	/* Test exercising -Wstringop-overflow warnings. */
	/* { dg-do compile } */
	/* { dg-options "-O2 -Wstringop-overflow=1 -Wno-array-bounds" } */

	#define offsetof(type, mem) __builtin_offsetof (type, mem)

	/* Return the number of bytes from member MEM of TYPE to the end
	of object OBJ. */
	#define offsetfrom(type, obj, mem) (sizeof (obj) - offsetof (type, mem))


	typedef __SIZE_TYPE__ size_t;
	extern void* memcpy (void, const void, size_t);
	extern void* memset (void*, int, __SIZE_TYPE__);


	struct A { char a, b; };
	struct B { struct A a; char c, d; };

	/* Function to call to "escape" pointers from tests below to prevent
	GCC from assuming the values of the objects they point to stay
	the unchanged. */
	void escape (void*, ...);

	/* Function to "generate" a random number each time it's called. Declared
	(but not defined) and used to prevent GCC from making assumptions about
	their values based on the variables uses in the tested expressions. */
	size_t random_unsigned_value (void);

	/* Return a random unsigned value between MIN and MAX. */

	static inline size_t
	range (size_t min, size_t max)
	{
	const size_t val = random_unsigned_value ();
	return val < min \|\| max < val ? min : val;
	}

	/* Verify that writing past the end of a local array is diagnosed. */

	void test_memop_warn_local (const void *src)
	{
	size_t n;

	n = range (8, 32);

	struct A a[2];

	memcpy (a, src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
	escape (a, src);

	/* At -Wstringop-overflow=1 the destination is considered to be
	the whole array and its size is therefore sizeof a. */
	memcpy (&a[0], src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
	escape (a, src);

	/* Verify the same as above but by writing into the first mmeber
	of the first element of the array. */
	memcpy (&a[0].a, src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" } */
	escape (a, src);

	n = range (12, 32);

	struct B b[2];

	memcpy (&b[0], src, n); /* { dg-warning "writing between 12 and 32 bytes into a region of size 8 overflows the destination" } */
	escape (b);

	/* The following idiom of clearing multiple members of a struct is
	used in a few places in the Linux kernel. Verify that a warning
	is issued for it when it writes past the end of the array object. */
	memset (&b[0].a.b, 0, offsetfrom (struct B, b, a.b) + 1); /* { dg-warning "writing 8 bytes into a region of size 7" } */
	escape (b);

	memset (&b->a.b, 0, offsetfrom (struct B, b, a.b) + 1); /* { dg-warning "writing 8 bytes into a region of size 7" } */
	escape (b);

	memset (&b[0].c, 0, offsetfrom (struct B, b, c) + 1); /* { dg-warning "writing 7 bytes into a region of size 6" } */
	escape (b);

	memset (&b->c, 0, offsetfrom (struct B, b, c) + 1); /* { dg-warning "writing 7 bytes into a region of size 6" } */
	escape (b);

	memset (&b[0].d, 0, offsetfrom (struct B, b, d) + 1); /* { dg-warning "writing 6 bytes into a region of size 5" } */
	escape (b);

	memset (&b->d, 0, offsetfrom (struct B, b, d) + 1); /* { dg-warning "writing 6 bytes into a region of size 5" } */
	escape (b);

	/* Same as above but clearing just members of the second element
	of the array. */
	memset (&b[1].a.b, 0, offsetfrom (struct B, b[1], a.b) + 1); /* { dg-warning "writing 4 bytes into a region of size 3" } */
	escape (b);

	memset (&b[1].c, 0, offsetfrom (struct B, b[1], c) + 1); /* { dg-warning "writing 3 bytes into a region of size 2" } */
	escape (b);

	memset (&b[1].d, 0, offsetfrom (struct B, b[1], d) + 1); /* { dg-warning "writing 2 bytes into a region of size 1" } */
	escape (b);
	}

	/* Verify that writing past the end of a dynamically allocated array
	of known size is diagnosed. */

	void test_memop_warn_alloc (const void *src)
	{
	size_t n;

	n = range (8, 32);

	struct A a = __builtin_malloc (sizeof a * 2);

	memcpy (a, src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 " "memcpy into allocated" } */
	escape (a, src);

	/* At -Wstringop-overflow=1 the destination is considered to be
	the whole array and its size is therefore sizeof a. */
	memcpy (&a[0], src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size 4 overflows the destination" "memcpy into allocated" } */
	escape (a, src);

	/* Verify the same as above but by writing into the first mmeber
	of the first element of the array. */
	memcpy (&a[0].a, src, n); /* { dg-warning "writing between 8 and 32 bytes into a region of size " "memcpy into allocated" } */
	escape (a, src);

	n = range (12, 32);

	struct B *b = __builtin_malloc (sizeof (struct B[2]));

	memcpy (&b[0], src, n); /* { dg-warning "writing between 12 and 32 bytes into a region of size 8 " "memcpy into allocated" } */
	escape (b);

	/* The following idiom of clearing multiple members of a struct is
	used in a few places in the Linux kernel. Verify that a warning
	is issued for it when it writes past the end of the array object. */
	memset (&b[0].a.b, 0, offsetfrom (struct B, struct B[2], a.b) + 1); /* { dg-warning "writing 8 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b->a.b, 0, offsetfrom (struct B, struct B[2], a.b) + 1); /* { dg-warning "writing 8 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b[0].c, 0, offsetfrom (struct B, struct B[2], c) + 1); /* { dg-warning "writing 7 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b->c, 0, offsetfrom (struct B, struct B[2], c) + 1); /* { dg-warning "writing 7 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b[0].d, 0, offsetfrom (struct B, struct B[2], d) + 1); /* { dg-warning "writing 6 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b->d, 0, offsetfrom (struct B, struct B[2], d) + 1); /* { dg-warning "writing 6 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	/* Same as above but clearing just elements of the second element
	of the array. */
	memset (&b[1].a.b, 0, offsetfrom (struct B, b[1], a.b) + 1); /* { dg-warning "writing 4 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b[1].c, 0, offsetfrom (struct B, b[1], c) + 1); /* { dg-warning "writing 3 bytes into a region of size " "memcpy into allocated" } */
	escape (b);

	memset (&b[1].d, 0, offsetfrom (struct B, b[1], d) + 1); /* { dg-warning "writing 2 bytes into a region of size 1" "memcpy into allocated" } */
	escape (b);
	}


	void test_memop_nowarn (const void *src)
	{
	struct B b[2];

	size_t n = range (sizeof b, 32);

	/* Verify that clearing the whole array is not diagnosed regardless
	of whether the expression pointing to its beginning is obtained
	from the array itself or its first member(s). */
	memcpy (b, src, n);
	escape (b);

	memcpy (&b[0], src, n);
	escape (b);

	memcpy (&b[0].a, src, n);
	escape (b, src);

	memcpy (&b[0].a.a, src, n);
	escape (b, src);

	/* Clearing multiple elements of an array of structs. */
	memset (&b[0].a.b, 0, sizeof b - offsetof (struct B, a.b));
	escape (b);

	memset (&b->a.b, 0, sizeof b - offsetof (struct B, a.b));
	escape (b);

	memset (&b[0].c, 0, sizeof b - offsetof (struct B, c));
	escape (b);

	memset (&b->c, 0, sizeof b - offsetof (struct B, c));
	escape (b);

	memset (&b[0].d, 0, sizeof b - offsetof (struct B, d));
	escape (b);

	memset (&b->d, 0, sizeof b - offsetof (struct B, d));
	escape (b);

	/* Same as above but clearing just elements of the second element
	of the array. */
	memset (&b[1].a.b, 0, sizeof b[1] - offsetof (struct B, a.b));
	escape (b);

	memset (&b[1].c, 0, sizeof b[1] - offsetof (struct B, c));
	escape (b);

	memset (&b[1].d, 0, sizeof b[1] - offsetof (struct B, d));
	escape (b);
	}


	/* The foollowing function could specify in its API that it takes
	an array of exactly two elements, as shown below. Verify that
	writing into both elements is not diagnosed. */
	void test_memop_nowarn_arg (struct A[2], const void*);

	void test_memop_nowarn_arg (struct A a, const void src)
	{
	memcpy (a, src, 2 * sizeof *a);
	escape (a, src);

	memcpy (a, src, range (2 * sizeof *a, 123));
	escape (a, src);
	}


	struct C { char a[3], b; };
	struct D { struct C c; char d, e; };

	extern char* strncpy (char, const char, __SIZE_TYPE__);

	void test_stringop_warn (void)
	{
	size_t n = range (2 * sizeof (struct D) + 1, 33);

	struct C c[2];

	/* Similarly, at -Wstringop-overflow=1 the destination is considered
	to be the whole array and its size is therefore sizeof c. */
	strncpy (c[0].a, "123", n); /* { dg-warning "writing between 13 and 33 bytes into a region of size 8 overflows the destination" } */

	escape (c);
	}


	void test_stringop_nowarn (void)
	{
	struct D d[2];

	strncpy (d[0].c.a, "123", range (sizeof d, 32));
	escape (d);
	}