memcheck/tests/memalign2.c

// These #defines attempt to ensure that posix_memalign() is declared, and
// so no spurious warning is given about using it.

// Advertise compliance of the code to the XSI (a POSIX superset that
// defines what a system must be like to be called "UNIX")
#undef _XOPEN_SOURCE
#define _XOPEN_SOURCE 600

// Advertise compliance to POSIX
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 200112L

#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include "tests/malloc.h"
#include <errno.h>

int main ( void )
{
#  if defined(VGO_darwin)
   // Mac OS X has neither memalign() nor posix_memalign();  do nothing.
   // Still true for 10.6 / 10.7 ?

#  else
   // Nb: assuming VG_MIN_MALLOC_SZB is 8 or more...
   int* p;
   int* piece;
   int  res;
   assert(sizeof(long int) == sizeof(void*));

   // Check behaviour of memalign/free for big alignment.
   // In particular, the below aims at checking that a
   // superblock with a big size is not marked as reclaimable
   // if the superblock is used to provide a big aligned block
   // (see bug 250101, comment #14).
   // Valgrind m_mallocfree.c will allocate a big superblock for the memalign
   // call and will split it in two. This splitted superblock was
   // wrongly marked as reclaimable, which was then causing
   // assert failures (as reclaimable blocks cannot be splitted).
   p = memalign(1024 * 1024, 4 * 1024 * 1024 + 1);   assert(0 == (long)p % (1024 * 1024));
   // We allocate (and then free) a piece of memory smaller than
   // the hole created in the big superblock.
   // If the superblock is marked as reclaimable, the below free(s) will cause
   // an assert. Note that the test has to be run with a --free-list-vol
   // parameter smaller than the released blocks size to ensure the free is directly
   // executed (otherwise memcheck does not really release the memory and so
   // the bug is not properly tested).
   piece = malloc(1024 * 1000); assert (piece);
   free (piece);
   free (p);

   // Same as above but do the free in the reverse order.
   p = memalign(1024 * 1024, 4 * 1024 * 1024 + 1);   assert(0 == (long)p % (1024 * 1024));
   piece = malloc(1024 * 100); assert (piece);
   free (p);
   free (piece);

   p = memalign(0, 100);      assert(0 == (long)p % 8);
   p = memalign(1, 100);      assert(0 == (long)p % 8);
   p = memalign(2, 100);      assert(0 == (long)p % 8);
   p = memalign(3, 100);      assert(0 == (long)p % 8);
   p = memalign(4, 100);      assert(0 == (long)p % 8);
   p = memalign(5, 100);      assert(0 == (long)p % 8);

   p = memalign(7, 100);      assert(0 == (long)p % 8);
   p = memalign(8, 100);      assert(0 == (long)p % 8);
   p = memalign(9, 100);      assert(0 == (long)p % 16);

   p = memalign(31, 100);     assert(0 == (long)p % 32);
   p = memalign(32, 100);     assert(0 == (long)p % 32);
   p = memalign(33, 100);     assert(0 == (long)p % 64);

   p = memalign(4095, 100);   assert(0 == (long)p % 4096);
   p = memalign(4096, 100);   assert(0 == (long)p % 4096);
   p = memalign(4097, 100);   assert(0 == (long)p % 8192);

   p = memalign(4 * 1024 * 1024, 100);   assert(0 == (long)p % (4 * 1024 * 1024));
   p = memalign(16 * 1024 * 1024, 100);   assert(0 == (long)p % (16 * 1024 * 1024));

#  define PM(a,b,c) posix_memalign((void**)a, b, c)

   res = PM(&p, -1,100);      assert(EINVAL == res);
   res = PM(&p, 0, 100);      assert(0 == res && 0 == (long)p % 8);
   res = PM(&p, 1, 100);      assert(EINVAL == res);
   res = PM(&p, 2, 100);      assert(EINVAL == res);
   res = PM(&p, 3, 100);      assert(EINVAL == res);
   res = PM(&p, sizeof(void*), 100);
                              assert(0 == res && 0 == (long)p % sizeof(void*));

   res = PM(&p, 31, 100);     assert(EINVAL == res);
   res = PM(&p, 32, 100);     assert(0 == res && 0 == (long)p % 32);
   res = PM(&p, 33, 100);     assert(EINVAL == res);

   res = PM(&p, 4095, 100);   assert(EINVAL == res);
   res = PM(&p, 4096, 100);   assert(0 == res && 0 == (long)p % 4096);
   res = PM(&p, 4097, 100);   assert(EINVAL == res);

   res = PM(&p, 4 * 1024 * 1024, 100);   assert(0 == res
                                                && 0 == (long)p % (4 * 1024 * 1024));
   res = PM(&p, 16 * 1024 * 1024, 100);   assert(0 == res
                                                && 0 == (long)p % (16 * 1024 * 1024));
#  endif

   return 0;
}