be kept as longs, the reported values may wrap around zero and
thus be inaccurate.
*/
+struct mallinfo2 __libc_mallinfo2(void);
+
struct mallinfo __libc_mallinfo(void);
*/
static void
-int_mallinfo (mstate av, struct mallinfo *m)
+int_mallinfo (mstate av, struct mallinfo2 *m)
{
size_t i;
mbinptr b;
}
-struct mallinfo
-__libc_mallinfo (void)
+struct mallinfo2
+__libc_mallinfo2 (void)
{
- struct mallinfo m;
+ struct mallinfo2 m;
mstate ar_ptr;
if (__malloc_initialized < 0)
return m;
}
+struct mallinfo
+__libc_mallinfo (void)
+{
+ struct mallinfo m;
+ struct mallinfo2 m2 = __libc_mallinfo2 ();
+
+ m.arena = m2.arena;
+ m.ordblks = m2.ordblks;
+ m.smblks = m2.smblks;
+ m.hblks = m2.hblks;
+ m.hblkhd = m2.hblkhd;
+ m.usmblks = m2.usmblks;
+ m.fsmblks = m2.fsmblks;
+ m.uordblks = m2.uordblks;
+ m.fordblks = m2.fordblks;
+ m.keepcost = m2.keepcost;
+
+ return m;
+}
+
+
/*
------------------------------ malloc_stats ------------------------------
*/
stderr->_flags2 |= _IO_FLAGS2_NOTCANCEL;
for (i = 0, ar_ptr = &main_arena;; i++)
{
- struct mallinfo mi;
+ struct mallinfo2 mi;
memset (&mi, 0, sizeof (mi));
__libc_lock_lock (ar_ptr->mutex);
strong_alias (__libc_pvalloc, __pvalloc) weak_alias (__libc_pvalloc, pvalloc)
strong_alias (__libc_mallinfo, __mallinfo)
weak_alias (__libc_mallinfo, mallinfo)
+strong_alias (__libc_mallinfo2, __mallinfo2)
+weak_alias (__libc_mallinfo2, mallinfo2)
strong_alias (__libc_mallopt, __mallopt) weak_alias (__libc_mallopt, mallopt)
weak_alias (__malloc_stats, malloc_stats)
int keepcost; /* top-most, releasable (via malloc_trim) space */
};
+/* SVID2/XPG mallinfo2 structure which can handle allocations
+ bigger than 4GB. */
+
+struct mallinfo2
+{
+ size_t arena; /* non-mmapped space allocated from system */
+ size_t ordblks; /* number of free chunks */
+ size_t smblks; /* number of fastbin blocks */
+ size_t hblks; /* number of mmapped regions */
+ size_t hblkhd; /* space in mmapped regions */
+ size_t usmblks; /* always 0, preserved for backwards compatibility */
+ size_t fsmblks; /* space available in freed fastbin blocks */
+ size_t uordblks; /* total allocated space */
+ size_t fordblks; /* total free space */
+ size_t keepcost; /* top-most, releasable (via malloc_trim) space */
+};
+
/* Returns a copy of the updated current mallinfo. */
+__MALLOC_DEPRECATED;
extern struct mallinfo mallinfo (void) __THROW;
+/* Returns a copy of the updated current mallinfo. */
+extern struct mallinfo2 mallinfo2 (void) __THROW;
+
/* SVID2/XPG mallopt options */
#ifndef M_MXFAST
# define M_MXFAST 1 /* maximum request size for "fastbins" */
@cindex allocation statistics
You can get information about dynamic memory allocation by calling the
-@code{mallinfo} function. This function and its associated data type
+@code{mallinfo2} function. This function and its associated data type
are declared in @file{malloc.h}; they are an extension of the standard
SVID/XPG version.
@pindex malloc.h
-@deftp {Data Type} {struct mallinfo}
+@deftp {Data Type} {struct mallinfo2}
@standards{GNU, malloc.h}
This structure type is used to return information about the dynamic
memory allocator. It contains the following members:
@table @code
-@item int arena
+@item size_t arena
This is the total size of memory allocated with @code{sbrk} by
@code{malloc}, in bytes.
-@item int ordblks
+@item size_t ordblks
This is the number of chunks not in use. (The memory allocator
-internally gets chunks of memory from the operating system, and then
+size_ternally gets chunks of memory from the operating system, and then
carves them up to satisfy individual @code{malloc} requests;
@pxref{The GNU Allocator}.)
-@item int smblks
+@item size_t smblks
This field is unused.
-@item int hblks
+@item size_t hblks
This is the total number of chunks allocated with @code{mmap}.
-@item int hblkhd
+@item size_t hblkhd
This is the total size of memory allocated with @code{mmap}, in bytes.
-@item int usmblks
+@item size_t usmblks
This field is unused and always 0.
-@item int fsmblks
+@item size_t fsmblks
This field is unused.
-@item int uordblks
+@item size_t uordblks
This is the total size of memory occupied by chunks handed out by
@code{malloc}.
-@item int fordblks
+@item size_t fordblks
This is the total size of memory occupied by free (not in use) chunks.
-@item int keepcost
+@item size_t keepcost
This is the size of the top-most releasable chunk that normally
borders the end of the heap (i.e., the high end of the virtual address
space's data segment).
@end table
@end deftp
-@deftypefun {struct mallinfo} mallinfo (void)
+@deftypefun {struct mallinfo2} mallinfo2 (void)
@standards{SVID, malloc.h}
@safety{@prelim{}@mtunsafe{@mtuinit{} @mtasuconst{:mallopt}}@asunsafe{@asuinit{} @asulock{}}@acunsafe{@acuinit{} @aculock{}}}
@c Accessing mp_.n_mmaps and mp_.max_mmapped_mem, modified with atomics
@c mark the statistics as unsafe, rather than the fast-path functions
@c that collect the possibly inconsistent data.
-@c __libc_mallinfo @mtuinit @mtasuconst:mallopt @asuinit @asulock @aculock
+@c __libc_mallinfo2 @mtuinit @mtasuconst:mallopt @asuinit @asulock @aculock
@c ptmalloc_init (once) dup @mtsenv @asulock @aculock @acsfd @acsmem
@c mutex_lock dup @asulock @aculock
@c int_mallinfo @mtasuconst:mallopt [mp_ access on main_arena]
@c mutex_unlock @aculock
This function returns information about the current dynamic memory usage
-in a structure of type @code{struct mallinfo}.
+in a structure of type @code{struct mallinfo2}.
@end deftypefun
@node Summary of Malloc
A pointer to a function that @code{aligned_alloc}, @code{memalign},
@code{posix_memalign} and @code{valloc} use whenever they are called.
-@item struct mallinfo mallinfo (void)
+@item struct mallinfo2 mallinfo2 (void)
Return information about the current dynamic memory usage.
@xref{Statistics of Malloc}.
@end table
function.
Further @code{malloc}-related functions such as @code{mallopt} or
-@code{mallinfo} will not have any effect or return incorrect statistics
+@code{mallinfo2} will not have any effect or return incorrect statistics
when a replacement @code{malloc} is in use. However, failure to replace
these functions typically does not result in crashes or other incorrect
application behavior, but may result in static linking failures.