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[glibc.git] / string / test-strncmp.c

/* Test strncmp and wcsncmp functions.
   Copyright (C) 1999-2024 Free Software Foundation, Inc.
   This file is part of the GNU C Library.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, see
   <https://www.gnu.org/licenses/>.  */

#define TEST_LEN (getpagesize () * 3)
#define MIN_PAGE_SIZE (TEST_LEN + 2 * getpagesize ())

#define TEST_MAIN
#ifdef WIDE
# define TEST_NAME "wcsncmp"
#else
# define TEST_NAME "strncmp"
#endif
#define TIMEOUT (5 * 60)
#include "test-string.h"

#ifdef WIDE
# include <wchar.h>

# define L(str) L##str
# define STRNCMP wcsncmp
# define STRCPY wcscpy
# define STRDUP wcsdup
# define MEMCPY wmemcpy
# define SIMPLE_STRNCMP simple_wcsncmp
# define CHAR wchar_t
# define UCHAR wchar_t
# define CHARBYTES 4
# define CHAR__MAX WCHAR_MAX
# define CHAR__MIN WCHAR_MIN

/* Wcsncmp uses signed semantics for comparison, not unsigned.
   Avoid using subtraction since possible overflow */
int
simple_wcsncmp (const CHAR *s1, const CHAR *s2, size_t n)
{
  wchar_t c1, c2;

  while (n--)
    {
      c1 = *s1++;
      c2 = *s2++;
      if (c1 == L('\0') || c1 != c2)
        return c1 > c2 ? 1 : (c1 < c2 ? -1 : 0);
    }
  return 0;
}

#else
# define L(str) str
# define STRNCMP strncmp
# define STRCPY strcpy
# define STRDUP strdup
# define MEMCPY memcpy
# define SIMPLE_STRNCMP simple_strncmp
# define CHAR char
# define UCHAR unsigned char
# define CHARBYTES 1
# define CHAR__MAX CHAR_MAX
# define CHAR__MIN CHAR_MIN

/* Strncmp uses unsigned semantics for comparison. */
int
simple_strncmp (const char *s1, const char *s2, size_t n)
{
  int ret = 0;

  while (n-- && (ret = *(unsigned char *) s1 - * (unsigned char *) s2++) == 0
         && *s1++);
  return ret;
}

#endif

typedef int (*proto_t) (const CHAR *, const CHAR *, size_t);

IMPL (STRNCMP, 1)

/* Also check the default implementation.  */
#undef STRNCMP
#undef libc_hidden_builtin_def
#define libc_hidden_builtin_def(a)
#undef attribute_hidden
#define attribute_hidden
#ifndef WIDE
# define STRNCMP __strncmp_default
# include "string/strncmp.c"
# define STRNCMP_DEFAULT STRNCMP
#else
# define WCSNCMP __wcsncmp_default
# include "wcsmbs/wcsncmp.c"
# define STRNCMP_DEFAULT WCSNCMP
#endif
IMPL (STRNCMP_DEFAULT, 1)

static int
check_result (impl_t *impl, const CHAR *s1, const CHAR *s2, size_t n,
             int exp_result)
{
  int result = CALL (impl, s1, s2, n);
  if ((exp_result == 0 && result != 0)
      || (exp_result < 0 && result >= 0)
      || (exp_result > 0 && result <= 0))
    {
      error (0, 0, "Wrong result in function %s %d %d", impl->name,
             result, exp_result);
      ret = 1;
      return -1;
    }

  return 0;
}

static void
do_one_test (impl_t *impl, const CHAR *s1, const CHAR *s2, size_t n,
             int exp_result)
{
  if (check_result (impl, s1, s2, n, exp_result) < 0)
    return;
}

static void
do_test_limit (size_t align1, size_t align2, size_t len, size_t n, int max_char,
         int exp_result)
{
  size_t i, align_n;
  CHAR *s1, *s2;

  align1 &= ~(CHARBYTES - 1);
  align2 &= ~(CHARBYTES - 1);

  if (n == 0)
    {
      s1 = (CHAR *) (buf1 + page_size);
      s2 = (CHAR *) (buf2 + page_size);

      FOR_EACH_IMPL (impl, 0)
        do_one_test (impl, s1, s2, n, 0);

      return;
    }

  align1 &= 15;
  align2 &= 15;
  align_n = (page_size - n * CHARBYTES) & 15;

  s1 = (CHAR *) (buf1 + page_size - n * CHARBYTES);
  s2 = (CHAR *) (buf2 + page_size - n * CHARBYTES);

  if (align1 < align_n)
    s1 = (CHAR *) ((char *) s1 - (align_n - align1));

  if (align2 < align_n)
    s2 = (CHAR *) ((char *) s2 - (align_n - align2));

  for (i = 0; i < n; i++)
    s1[i] = s2[i] = 1 + 23 * i % max_char;

  if (len < n)
    {
      s1[len] = 0;
      s2[len] = 0;
      if (exp_result < 0)
        s2[len] = 32;
      else if (exp_result > 0)
        s1[len] = 64;
    }

  FOR_EACH_IMPL (impl, 0)
    do_one_test (impl, s1, s2, n, exp_result);
}

static void
do_test_n (size_t align1, size_t align2, size_t len, size_t n, int n_in_bounds,
           int max_char, int exp_result)
{
  size_t i, buf_bound;
  CHAR *s1, *s2, *s1_end, *s2_end;

  align1 &= ~(CHARBYTES - 1);
  align2 &= ~(CHARBYTES - 1);

  if (n == 0)
    return;

  buf_bound = n_in_bounds ? n : len;

  align1 &= getpagesize () - 1;
  if (align1 + (buf_bound + 2) * CHARBYTES >= page_size)
    return;

  align2 &= getpagesize () - 1;
  if (align2 + (buf_bound + 2) * CHARBYTES >= page_size)
    return;

  s1 = (CHAR *)(buf1 + align1);
  s2 = (CHAR *)(buf2 + align2);

  if (n_in_bounds)
    {
      s1[n] = 24 + exp_result;
      s2[n] = 23;
    }

  for (i = 0; i < buf_bound; i++)
    s1[i] = s2[i] = 1 + (23 << ((CHARBYTES - 1) * 8)) * i % max_char;

  s1[len] = 0;
  s2[len] = 0;
  if (exp_result < 0)
    s2[len] = 32;
  else if (exp_result > 0)
    s1[len] = 64;
  if (len >= n)
    s2[n - 1] -= exp_result;

  /* Ensure that both s1 and s2 are valid null terminated strings. This is
   * required by the standard. */
  s1_end = (CHAR *)(buf1 + MIN_PAGE_SIZE - CHARBYTES);
  s2_end = (CHAR *)(buf2 + MIN_PAGE_SIZE - CHARBYTES);
  *s1_end = 0;
  *s2_end = 0;

  FOR_EACH_IMPL (impl, 0)
    do_one_test (impl, s1, s2, n, exp_result);
}

static void
do_test (size_t align1, size_t align2, size_t len, size_t n, int max_char,
         int exp_result)
{
  do_test_n (align1, align2, len, n, 1, max_char, exp_result);
}

static void
do_page_test (size_t offset1, size_t offset2, CHAR *s2)
{
  CHAR *s1;
  int exp_result;

  if (offset1 * CHARBYTES  >= page_size || offset2 * CHARBYTES >= page_size)
    return;

  s1 = (CHAR *) buf1;
  s1 += offset1;
  s2 += offset2;

  exp_result= *s1;

  FOR_EACH_IMPL (impl, 0)
    {
      check_result (impl, s1, s2, page_size, -exp_result);
      check_result (impl, s2, s1, page_size, exp_result);
    }
}

static void
do_random_tests (void)
{
  size_t i, j, n, align1, align2, pos, len1, len2, size;
  int result;
  long r;
  UCHAR *p1 = (UCHAR *) (buf1 + page_size - 512 * CHARBYTES);
  UCHAR *p2 = (UCHAR *) (buf2 + page_size - 512 * CHARBYTES);

  for (n = 0; n < ITERATIONS; n++)
    {
      align1 = random () & 31;
      if (random () & 1)
        align2 = random () & 31;
      else
        align2 = align1 + (random () & 24);
      pos = random () & 511;
      size = random () & 511;
      j = align1 > align2 ? align1 : align2;
      if (pos + j >= 511)
        pos = 510 - j - (random () & 7);
      len1 = random () & 511;
      if (pos >= len1 && (random () & 1))
        len1 = pos + (random () & 7);
      if (len1 + j >= 512)
        len1 = 511 - j - (random () & 7);
      if (pos >= len1)
        len2 = len1;
      else
        len2 = len1 + (len1 != 511 - j ? random () % (511 - j - len1) : 0);
      j = (pos > len2 ? pos : len2) + align1 + 64;
      if (j > 512)
        j = 512;
      for (i = 0; i < j; ++i)
        {
          p1[i] = random () & 255;
          if (i < len1 + align1 && !p1[i])
            {
              p1[i] = random () & 255;
              if (!p1[i])
                p1[i] = 1 + (random () & 127);
            }
        }
      for (i = 0; i < j; ++i)
        {
          p2[i] = random () & 255;
          if (i < len2 + align2 && !p2[i])
            {
              p2[i] = random () & 255;
              if (!p2[i])
                p2[i] = 1 + (random () & 127);
            }
        }

      result = 0;
      MEMCPY (p2 + align2, p1 + align1, pos);
      if (pos < len1)
        {
          if (p2[align2 + pos] == p1[align1 + pos])
            {
              p2[align2 + pos] = random () & 255;
              if (p2[align2 + pos] == p1[align1 + pos])
                p2[align2 + pos] = p1[align1 + pos] + 3 + (random () & 127);
            }

          if (pos < size)
            {
              if (p1[align1 + pos] < p2[align2 + pos])
                result = -1;
              else
                result = 1;
            }
        }
      p1[len1 + align1] = 0;
      p2[len2 + align2] = 0;

      FOR_EACH_IMPL (impl, 1)
        {
          r = CALL (impl, (CHAR *) (p1 + align1), (CHAR *) (p2 + align2), size);
          /* Test whether on 64-bit architectures where ABI requires
             callee to promote has the promotion been done.  */
          asm ("" : "=g" (r) : "0" (r));
          if ((r == 0 && result)
              || (r < 0 && result >= 0)
              || (r > 0 && result <= 0))
            {
              error (0, 0, "Iteration %zd - wrong result in function %s (%zd, %zd, %zd, %zd, %zd, %zd) %ld != %d, p1 %p p2 %p",
                     n, impl->name, align1, align2, len1, len2, pos, size, r, result, p1, p2);
              ret = 1;
            }
        }
    }
}

static void
check1 (void)
{
  CHAR *s1 = (CHAR *) (buf1 + 0xb2c);
  CHAR *s2 = (CHAR *) (buf1 + 0xfd8);
  size_t i, offset;
  int exp_result;

  STRCPY(s1, L("abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrs"));
  STRCPY(s2, L("abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijkLMNOPQRSTUV"));

  /* Check possible overflow bug for wcsncmp */
  s1[4] = CHAR__MAX;
  s2[4] = CHAR__MIN;

  for (offset = 0; offset < 6; offset++)
    {
      for (i = 0; i < 80; i++)
        {
          exp_result = SIMPLE_STRNCMP (s1 + offset, s2 + offset, i);
          FOR_EACH_IMPL (impl, 0)
            check_result (impl, s1 + offset, s2 + offset, i, exp_result);
        }
    }
}

static void
check2 (void)
{
  size_t i;
  CHAR *s1, *s2;

  s1 = (CHAR *) buf1;
  for (i = 0; i < (page_size / CHARBYTES) - 1; i++)
    s1[i] = 23;
  s1[i] = 0;

  s2 = STRDUP (s1);

  for (i = 0; i < 64; ++i)
    do_page_test ((3988 / CHARBYTES) + i, (2636 / CHARBYTES), s2);

  free (s2);
}

static void
check3 (void)
{
  /* To trigger bug 25933, we need a size that is equal to the vector
     length times 4. In the case of AVX2 for Intel, we need 32 * 4.  We
     make this test generic and run it for all architectures as additional
     boundary testing for such related algorithms.  */
  size_t size = 32 * 4;
  CHAR *s1 = (CHAR *) (buf1 + (BUF1PAGES - 1) * page_size);
  CHAR *s2 = (CHAR *) (buf2 + (BUF1PAGES - 1) * page_size);
  int exp_result;

  memset (s1, 'a', page_size);
  memset (s2, 'a', page_size);
  s1[(page_size / CHARBYTES) - 1] = (CHAR) 0;

  /* Iterate over a size that is just below where we expect the bug to
     trigger up to the size we expect will trigger the bug e.g. [99-128].
     Likewise iterate the start of two strings between 30 and 31 bytes
     away from the boundary to simulate alignment changes.  */
  for (size_t s = 99; s <= size; s++)
    for (size_t s1a = 30; s1a < 32; s1a++)
      for (size_t s2a = 30; s2a < 32; s2a++)
        {
          CHAR *s1p = s1 + (page_size / CHARBYTES - s) - s1a;
          CHAR *s2p = s2 + (page_size / CHARBYTES - s) - s2a;
          exp_result = SIMPLE_STRNCMP (s1p, s2p, s);
          FOR_EACH_IMPL (impl, 0)
            check_result (impl, s1p, s2p, s, exp_result);
        }
}

static void
check4 (void)
{
  /* To trigger bug 28895; We need 1) both s1 and s2 to be within 32 bytes of
     the end of the page. 2) For there to be no mismatch/null byte before the
     first page cross. 3) For length (`n`) to be large enough for one string to
     cross the page. And 4) for there to be either mismatch/null bytes before
     the start of the strings.  */

  size_t size = 10;
  size_t addr_mask = (getpagesize () - 1) ^ (sizeof (CHAR) - 1);
  CHAR *s1 = (CHAR *)(buf1 + (addr_mask & 0xffa));
  CHAR *s2 = (CHAR *)(buf2 + (addr_mask & 0xfed));
  int exp_result;

  STRCPY (s1, L ("tst-tlsmod%"));
  STRCPY (s2, L ("tst-tls-manydynamic73mod"));
  exp_result = SIMPLE_STRNCMP (s1, s2, size);
  FOR_EACH_IMPL (impl, 0)
  check_result (impl, s1, s2, size, exp_result);
}

static void
check5 (void)
{
  const CHAR *s1 = L ("abc");
  CHAR *s2 = STRDUP (s1);

  FOR_EACH_IMPL (impl, 0)
    check_result (impl, s1, s2, SIZE_MAX, 0);

  free (s2);
}

static void
check_overflow (void)
{
  size_t i, j, of_mask, of_idx;
  const size_t of_masks[]
      = { ULONG_MAX, LONG_MIN, ULONG_MAX - (ULONG_MAX >> 2),
          ((size_t)LONG_MAX) >> 1 };
  const size_t test_len = MIN(TEST_LEN, 3 * 4096);
  for (of_idx = 0; of_idx < sizeof (of_masks) / sizeof (of_masks[0]); ++of_idx)
    {
      of_mask = of_masks[of_idx];
      for (j = 0; j < 160; ++j)
        {
          for (i = 1; i <= 161; i += (32 / sizeof (CHAR)))
            {
              do_test_n (j, 0, i, of_mask, 0, 127, 0);
              do_test_n (j, 0, i, of_mask, 0, 127, 1);
              do_test_n (j, 0, i, of_mask, 0, 127, -1);

              do_test_n (j, 0, i, of_mask - j / 2, 0, 127, 0);
              do_test_n (j, 0, i, of_mask - j * 2, 0, 127, 1);
              do_test_n (j, 0, i, of_mask - j, 0, 127, -1);

              do_test_n (j / 2, j, i, of_mask, 0, 127, 0);
              do_test_n (j / 2, j, i, of_mask, 0, 127, 1);
              do_test_n (j / 2, j, i, of_mask, 0, 127, -1);

              do_test_n (j / 2, j, i, of_mask - j, 0, 127, 0);
              do_test_n (j / 2, j, i, of_mask - j / 2, 0, 127, 1);
              do_test_n (j / 2, j, i, of_mask - j * 2, 0, 127, -1);

              do_test_n (0, j, i, of_mask - j * 2, 0, 127, 0);
              do_test_n (0, j, i, of_mask - j, 0, 127, 1);
              do_test_n (0, j, i, of_mask - j / 2, 0, 127, -1);

              do_test_n (getpagesize () - j - 1, 0, i, of_mask, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, 0, i, of_mask, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, 0, i, of_mask, 0, 127, -1);

              do_test_n (getpagesize () - j - 1, 0, i, of_mask - j / 2, 0, 127,
                         0);
              do_test_n (getpagesize () - j - 1, 0, i, of_mask - j * 2, 0, 127,
                         1);
              do_test_n (getpagesize () - j - 1, 0, i, of_mask - j, 0, 127,
                         -1);

              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask, 0, 127, -1);

              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask - j, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask - j / 2, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1, i,
                         of_mask - j * 2, 0, 127, -1);
            }

          for (i = 1; i < test_len; i += i)
            {
              do_test_n (j, 0, i - 1, of_mask, 0, 127, 0);
              do_test_n (j, 0, i - 1, of_mask, 0, 127, 1);
              do_test_n (j, 0, i - 1, of_mask, 0, 127, -1);

              do_test_n (j, 0, i - 1, of_mask - j / 2, 0, 127, 0);
              do_test_n (j, 0, i - 1, of_mask - j * 2, 0, 127, 1);
              do_test_n (j, 0, i - 1, of_mask - j, 0, 127, -1);

              do_test_n (j / 2, j, i - 1, of_mask, 0, 127, 0);
              do_test_n (j / 2, j, i - 1, of_mask, 0, 127, 1);
              do_test_n (j / 2, j, i - 1, of_mask, 0, 127, -1);

              do_test_n (j / 2, j, i - 1, of_mask - j, 0, 127, 0);
              do_test_n (j / 2, j, i - 1, of_mask - j / 2, 0, 127, 1);
              do_test_n (j / 2, j, i - 1, of_mask - j * 2, 0, 127, -1);

              do_test_n (0, j, i - 1, of_mask - j * 2, 0, 127, 0);
              do_test_n (0, j, i - 1, of_mask - j, 0, 127, 1);
              do_test_n (0, j, i - 1, of_mask - j / 2, 0, 127, -1);

              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask, 0, 127,
                         -1);

              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask - j / 2, 0,
                         127, 0);
              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask - j * 2, 0,
                         127, 1);
              do_test_n (getpagesize () - j - 1, 0, i - 1, of_mask - j, 0, 127,
                         -1);

              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask, 0, 127, -1);

              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask - j, 0, 127, 0);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask - j / 2, 0, 127, 1);
              do_test_n (getpagesize () - j - 1, getpagesize () - 2 * j - 1,
                         i - 1, of_mask - j * 2, 0, 127, -1);
            }
        }
    }
}

int
test_main (void)
{
  size_t i, j, k;
  const size_t test_len = MIN(TEST_LEN, 3 * 4096);
  test_init ();

  check1 ();
  check2 ();
  check3 ();
  check4 ();
  check5 ();

  printf ("%23s", "");
  FOR_EACH_IMPL (impl, 0)
    printf ("\t%s", impl->name);
  putchar ('\n');

  for (i =0; i < 16; ++i)
    {
      do_test (0, 0, 8, i, 127, 0);
      do_test (0, 0, 8, i, 127, -1);
      do_test (0, 0, 8, i, 127, 1);
      do_test (i, i, 8, i, 127, 0);
      do_test (i, i, 8, i, 127, 1);
      do_test (i, i, 8, i, 127, -1);
      do_test (i, 2 * i, 8, i, 127, 0);
      do_test (2 * i, i, 8, i, 127, 1);
      do_test (i, 3 * i, 8, i, 127, -1);
      do_test (0, 0, 8, i, 255, 0);
      do_test (0, 0, 8, i, 255, -1);
      do_test (0, 0, 8, i, 255, 1);
      do_test (i, i, 8, i, 255, 0);
      do_test (i, i, 8, i, 255, 1);
      do_test (i, i, 8, i, 255, -1);
      do_test (i, 2 * i, 8, i, 255, 0);
      do_test (2 * i, i, 8, i, 255, 1);
      do_test (i, 3 * i, 8, i, 255, -1);
    }

  for (i = 1; i < 8; ++i)
    {
      do_test (0, 0, 8 << i, 16 << i, 127, 0);
      do_test (0, 0, 8 << i, 16 << i, 127, 1);
      do_test (0, 0, 8 << i, 16 << i, 127, -1);
      do_test (0, 0, 8 << i, 16 << i, 255, 0);
      do_test (0, 0, 8 << i, 16 << i, 255, 1);
      do_test (0, 0, 8 << i, 16 << i, 255, -1);
      do_test (8 - i, 2 * i, 8 << i, 16 << i, 127, 0);
      do_test (8 - i, 2 * i, 8 << i, 16 << i, 127, 1);
      do_test (2 * i, i, 8 << i, 16 << i, 255, 0);
      do_test (2 * i, i, 8 << i, 16 << i, 255, 1);
    }

  do_test_limit (0, 0, 0, 0, 127, 0);
  do_test_limit (4, 0, 21, 20, 127, 0);
  do_test_limit (0, 4, 21, 20, 127, 0);
  do_test_limit (8, 0, 25, 24, 127, 0);
  do_test_limit (0, 8, 25, 24, 127, 0);

  for (i = 0; i < 8; ++i)
    {
      do_test_limit (0, 0, 17 - i, 16 - i, 127, 0);
      do_test_limit (0, 0, 17 - i, 16 - i, 255, 0);
      do_test_limit (0, 0, 15 - i, 16 - i, 127, 0);
      do_test_limit (0, 0, 15 - i, 16 - i, 127, 1);
      do_test_limit (0, 0, 15 - i, 16 - i, 127, -1);
      do_test_limit (0, 0, 15 - i, 16 - i, 255, 0);
      do_test_limit (0, 0, 15 - i, 16 - i, 255, 1);
      do_test_limit (0, 0, 15 - i, 16 - i, 255, -1);
    }

  for (j = 0; j < 160; ++j)
    {
      for (i = 0; i < test_len;)
        {
          do_test_n (getpagesize () - j - 1, 0, i, i + 1, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, 0, i, i + 1, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, 0, i, i + 1, 0, 127, -1);

          do_test_n (getpagesize () - j - 1, 0, i, i, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, 0, i, i - 1, 0, 127, 0);

          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX, 0, 127, -1);

          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX - i, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX - i, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, 0, i, ULONG_MAX - i, 0, 127, -1);

          do_test_n (getpagesize () - j - 1, j, i, i + 1, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, j, i, i + 1, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, j, i, i + 1, 0, 127, -1);

          do_test_n (getpagesize () - j - 1, j, i, i, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, j, i, i - 1, 0, 127, 0);

          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX, 0, 127, -1);

          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX - i, 0, 127, 0);
          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX - i, 0, 127, 1);
          do_test_n (getpagesize () - j - 1, j, i, ULONG_MAX - i, 0, 127, -1);

          do_test_n (0, getpagesize () - j - 1, i, i + 1, 0, 127, 0);
          do_test_n (0, getpagesize () - j - 1, i, i + 1, 0, 127, 1);
          do_test_n (0, getpagesize () - j - 1, i, i + 1, 0, 127, -1);

          do_test_n (0, getpagesize () - j - 1, i, i, 0, 127, 0);
          do_test_n (0, getpagesize () - j - 1, i, i - 1, 0, 127, 0);

          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, 0);
          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, 1);
          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, -1);

          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, 0);
          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, 1);
          do_test_n (0, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, -1);

          do_test_n (j, getpagesize () - j - 1, i, i + 1, 0, 127, 0);
          do_test_n (j, getpagesize () - j - 1, i, i + 1, 0, 127, 1);
          do_test_n (j, getpagesize () - j - 1, i, i + 1, 0, 127, -1);

          do_test_n (j, getpagesize () - j - 1, i, i, 0, 127, 0);
          do_test_n (j, getpagesize () - j - 1, i, i - 1, 0, 127, 0);

          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, 0);
          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, 1);
          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX, 0, 127, -1);

          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, 0);
          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, 1);
          do_test_n (j, getpagesize () - j - 1, i, ULONG_MAX - i, 0, 127, -1);

          for (k = 2; k <= 128; k += k)
            {
              do_test (getpagesize () - k, getpagesize () - j - 1, i - 1, i,
                       127, 0);
              do_test (getpagesize () - k - 1, getpagesize () - j - 1, i - 1,
                       i, 127, 0);
              do_test (getpagesize () - k, getpagesize () - j - 1, i + 1, i,
                       127, 0);
              do_test (getpagesize () - k - 1, getpagesize () - j - 1, i + 1,
                       i, 127, 0);
              do_test (getpagesize () - k, getpagesize () - j - 1, i, i, 127,
                       0);
              do_test (getpagesize () - k - 1, getpagesize () - j - 1, i, i,
                       127, 0);
              do_test (getpagesize () - k, getpagesize () - j - 1, i + 1, i,
                       127, -1);
              do_test (getpagesize () - k - 1, getpagesize () - j - 1, i + 1,
                       i, 127, -1);
              do_test (getpagesize () - k, getpagesize () - j - 1, i + 1, i,
                       127, 1);
              do_test (getpagesize () - k - 1, getpagesize () - j - 1, i + 1,
                       i, 127, 1);
            }

          if (i < 32)
            {
              i += 1;
            }
          else if (i < 161)
            {
              i += 7;
            }
          else if (i + 161 < test_len)
            {
              i += 31;
              i *= 17;
              i /= 16;
              if (i + 161 > test_len)
                {
                  i = test_len - 160;
                }
            }
          else if (i + 32 < test_len)
            {
              i += 7;
            }
          else
            {
              i += 1;
            }
        }
    }

  check_overflow ();
  do_random_tests ();
  return ret;
}

#include <support/test-driver.c>