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/* Getter for RLIMIT_DATA.
Copyright (C) 2011-2012 Free Software Foundation, Inc.
Written by Bruno Haible <bruno@clisp.org>, 2011.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
#include <config.h>
/* Specification. */
#include "resource-ext.h"
/* The "data segment size" is defined as the virtual memory area of the
current process that contains malloc()ed memory.
There are two ways of retrieving the current data segment size:
a) by trying setrlimit with various values and observing whether the
kernel allows additional sbrk() calls,
b) by using system dependent APIs that allow to iterate over the list
of virtual memory areas.
We define two functions
get_rusage_data_via_setrlimit(),
get_rusage_data_via_iterator().
The variant
a') by trying setrlimit with various values and observing whether
additional malloc() calls succeed
is not as good as a), because a malloc() call can be served by already
allocated memory or through mmap(), and because a malloc() of 1 page may
require 2 pages.
Discussion per platform:
Linux:
a) setrlimit with RLIMIT_DATA works.
b) The /proc/self/maps file contains a list of the virtual memory areas.
get_rusage_data_via_setrlimit() returns the sum of the length of the
executable's data segment plus the heap VMA (an anonymous memory area),
whereas get_rusage_data_via_iterator() returns only the latter.
Note that malloc() falls back on mmap() for large allocations and also
for small allocations if there is not enough room in the data segment.
MacOS X:
a) setrlimit with RLIMIT_DATA succeeds but does not really work: The OS
ignores RLIMIT_DATA. Therefore get_rusage_data_via_setrlimit() is
always 0.
b) The Mach based API works.
Note that malloc() falls back on mmap() for large allocations.
FreeBSD:
a) setrlimit with RLIMIT_DATA works.
b) The /proc/self/maps file contains a list of the virtual memory areas.
NetBSD:
a) setrlimit with RLIMIT_DATA works.
b) The /proc/self/maps file contains a list of the virtual memory areas.
Both methods agree.
Note that malloc() uses mmap() for large allocations.
OpenBSD:
a) setrlimit with RLIMIT_DATA works.
b) mquery() can be used to find out about the virtual memory areas.
get_rusage_data_via_setrlimit() works much better than
get_rusage_data_via_iterator().
Note that malloc() appears to use mmap() for both large and small
allocations.
AIX:
a) setrlimit with RLIMIT_DATA works.
b) No VMA iteration API exists.
HP-UX:
a) setrlimit with RLIMIT_DATA works, except on HP-UX 11.00, where it
cannot restore the previous limits, and except on HP-UX 11.11, where
it sometimes has no effect.
b) No VMA iteration API exists.
IRIX:
a) setrlimit with RLIMIT_DATA works.
b) The /proc/$pid file supports ioctls PIOCNMAP and PIOCMAP.
get_rusage_data_via_setrlimit() works slightly better than
get_rusage_data_via_iterator() before the first malloc() call.
OSF/1:
a) setrlimit with RLIMIT_DATA works.
b) The /proc/$pid file supports ioctls PIOCNMAP and PIOCMAP.
Both methods agree.
Solaris:
a) setrlimit with RLIMIT_DATA works.
b) No VMA iteration API exists.
Cygwin:
a) setrlimit with RLIMIT_DATA always fails.
get_rusage_data_via_setrlimit() therefore produces a wrong value.
b) The /proc/$pid/maps file lists only the memory areas belonging to
the executable and shared libraries, not the anonymous memory.
But the native Windows API works.
Note that malloc() apparently falls back on mmap() for large allocations.
mingw:
a) There is no setrlimit function.
b) There is no sbrk() function.
Note that malloc() falls back on VirtualAlloc() for large allocations.
BeOS, Haiku:
a) On BeOS, there is no setrlimit function.
On Haiku, setrlimit exists. RLIMIT_DATA is defined but unsupported:
getrlimit of RLIMIT_DATA always fails with errno = EINVAL.
b) There is a specific BeOS API: get_next_area_info().
*/
#include <errno.h> /* errno */
#include <stdlib.h> /* size_t, abort, malloc, free, sbrk */
#include <fcntl.h> /* open, O_RDONLY */
#include <unistd.h> /* getpagesize, read, close */
/* System support for get_rusage_data_via_setrlimit(). */
#if HAVE_SETRLIMIT
# include <sys/time.h>
# include <sys/resource.h> /* getrlimit, setrlimit */
# include <sys/utsname.h>
# include <string.h> /* strlen, strcmp */
#endif
/* System support for get_rusage_data_via_iterator(). */
#include "vma-iter.h"
#if HAVE_SETRLIMIT && defined RLIMIT_DATA
# ifdef _AIX
# define errno_expected() (errno == EINVAL || errno == EFAULT)
# else
# define errno_expected() (errno == EINVAL)
# endif
static inline uintptr_t
get_rusage_data_via_setrlimit (void)
{
uintptr_t result;
struct rlimit orig_limit;
# ifdef __hpux
/* On HP-UX 11.00, setrlimit() RLIMIT_DATA of does not work: It cannot
restore the previous limits.
On HP-UX 11.11, setrlimit() RLIMIT_DATA of does not work: It sometimes
has no effect on the next sbrk() call. */
{
struct utsname buf;
if (uname (&buf) == 0
&& strlen (buf.release) >= 5
&& (strcmp (buf.release + strlen (buf.release) - 5, "11.00") == 0
|| strcmp (buf.release + strlen (buf.release) - 5, "11.11") == 0))
return 0;
}
# endif
/* Record the original limit. */
if (getrlimit (RLIMIT_DATA, &orig_limit) < 0)
return 0;
if (orig_limit.rlim_max != RLIM_INFINITY
&& (orig_limit.rlim_cur == RLIM_INFINITY
|| orig_limit.rlim_cur > orig_limit.rlim_max))
/* We may not be able to restore the current rlim_cur value.
So bail out. */
return 0;
{
/* The granularity is a single page. */
const intptr_t pagesize = getpagesize ();
uintptr_t low_bound = 0;
uintptr_t high_bound;
for (;;)
{
/* Here we know that the data segment size is >= low_bound. */
struct rlimit try_limit;
uintptr_t try_next = 2 * low_bound + pagesize;
if (try_next < low_bound)
/* Overflow. */
try_next = ((uintptr_t) (~ 0) / pagesize) * pagesize;
/* There's no point in trying a value > orig_limit.rlim_max, as
setrlimit would fail anyway. */
if (orig_limit.rlim_max != RLIM_INFINITY
&& orig_limit.rlim_max < try_next)
try_next = orig_limit.rlim_max;
/* Avoid endless loop. */
if (try_next == low_bound)
{
/* try_next could not be increased. */
result = low_bound;
goto done;
}
try_limit.rlim_max = orig_limit.rlim_max;
try_limit.rlim_cur = try_next;
if (setrlimit (RLIMIT_DATA, &try_limit) == 0)
{
/* Allocate a page of memory, to compare the current data segment
size with try_limit.rlim_cur. */
void *new_page = sbrk (pagesize);
if (new_page != (void *)(-1))
{
/* The page could be added successfully. Free it. */
sbrk (- pagesize);
/* We know that the data segment size is
< try_limit.rlim_cur. */
high_bound = try_next;
break;
}
else
{
/* We know that the data segment size is
>= try_limit.rlim_cur. */
low_bound = try_next;
}
}
else
{
/* Here we expect only EINVAL or (on AIX) EFAULT, not EPERM. */
if (! errno_expected ())
abort ();
/* We know that the data segment size is
>= try_limit.rlim_cur. */
low_bound = try_next;
}
}
/* Here we know that the data segment size is
>= low_bound and < high_bound. */
while (high_bound - low_bound > pagesize)
{
struct rlimit try_limit;
uintptr_t try_next =
low_bound + (((high_bound - low_bound) / 2) / pagesize) * pagesize;
/* Here low_bound <= try_next < high_bound. */
try_limit.rlim_max = orig_limit.rlim_max;
try_limit.rlim_cur = try_next;
if (setrlimit (RLIMIT_DATA, &try_limit) == 0)
{
/* Allocate a page of memory, to compare the current data segment
size with try_limit.rlim_cur. */
void *new_page = sbrk (pagesize);
if (new_page != (void *)(-1))
{
/* The page could be added successfully. Free it. */
sbrk (- pagesize);
/* We know that the data segment size is
< try_limit.rlim_cur. */
high_bound = try_next;
}
else
{
/* We know that the data segment size is
>= try_limit.rlim_cur. */
low_bound = try_next;
}
}
else
{
/* Here we expect only EINVAL or (on AIX) EFAULT, not EPERM. */
if (! errno_expected ())
abort ();
/* We know that the data segment size is
>= try_limit.rlim_cur. */
low_bound = try_next;
}
}
result = low_bound;
}
done:
/* Restore the original rlim_cur value. */
if (setrlimit (RLIMIT_DATA, &orig_limit) < 0)
abort ();
return result;
}
#else
static inline uintptr_t
get_rusage_data_via_setrlimit (void)
{
return 0;
}
#endif
#if VMA_ITERATE_SUPPORTED
struct locals
{
uintptr_t brk_value;
uintptr_t data_segment_size;
};
static int
vma_iterate_callback (void *data, uintptr_t start, uintptr_t end,
unsigned int flags)
{
struct locals *lp = (struct locals *) data;
if (start <= lp->brk_value && lp->brk_value - 1 <= end - 1)
{
lp->data_segment_size = end - start;
return 1;
}
return 0;
}
static inline uintptr_t
get_rusage_data_via_iterator (void)
{
# if ((defined _WIN32 || defined __WIN32__) && !defined __CYGWIN__) || defined __BEOS__ || defined __HAIKU__
/* On native Windows, there is no sbrk() function.
On Haiku, sbrk(0) always returns 0. */
static void *brk_value;
if (brk_value == NULL)
{
brk_value = malloc (1);
if (brk_value == NULL)
return 0;
}
# else
void *brk_value;
brk_value = sbrk (0);
if (brk_value == (void *)-1)
return 0;
# endif
{
struct locals l;
l.brk_value = (uintptr_t) brk_value;
l.data_segment_size = 0;
vma_iterate (vma_iterate_callback, &l);
return l.data_segment_size;
}
}
#else
static inline uintptr_t
get_rusage_data_via_iterator (void)
{
return 0;
}
#endif
uintptr_t
get_rusage_data (void)
{
#if (defined __APPLE__ && defined __MACH__) || defined __CYGWIN__ /* MacOS X, Cygwin */
/* get_rusage_data_via_setrlimit() does not work.
Prefer get_rusage_data_via_iterator(). */
return get_rusage_data_via_iterator ();
#elif HAVE_SETRLIMIT && defined RLIMIT_DATA
# if defined __linux__ || defined __FreeBSD__ || defined __NetBSD__ || defined __OpenBSD__ || defined _AIX || defined __sgi || defined __osf__ || defined __sun /* Linux, FreeBSD, NetBSD, OpenBSD, AIX, IRIX, OSF/1, Solaris */
/* get_rusage_data_via_setrlimit() works. */
return get_rusage_data_via_setrlimit ();
# else
/* Prefer get_rusage_data_via_setrlimit() if it succeeds,
because the caller may want to use the result with setrlimit(). */
uintptr_t result;
result = get_rusage_data_via_setrlimit ();
if (result == 0)
result = get_rusage_data_via_iterator ();
return result;
# endif
#else
return get_rusage_data_via_iterator ();
#endif
}
#ifdef TEST
#include <stdio.h>
int
main ()
{
printf ("Initially: 0x%08lX 0x%08lX 0x%08lX\n",
get_rusage_data_via_setrlimit (), get_rusage_data_via_iterator (),
get_rusage_data ());
malloc (0x88);
printf ("After small malloc: 0x%08lX 0x%08lX 0x%08lX\n",
get_rusage_data_via_setrlimit (), get_rusage_data_via_iterator (),
get_rusage_data ());
malloc (0x8812);
printf ("After medium malloc: 0x%08lX 0x%08lX 0x%08lX\n",
get_rusage_data_via_setrlimit (), get_rusage_data_via_iterator (),
get_rusage_data ());
malloc (0x281237);
printf ("After large malloc: 0x%08lX 0x%08lX 0x%08lX\n",
get_rusage_data_via_setrlimit (), get_rusage_data_via_iterator (),
get_rusage_data ());
return 0;
}
#endif /* TEST */
|