From 7f3caba522f4d24764f29d83aa2de9198bb7f01c Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Fri, 24 May 2024 06:52:22 +0200
Subject: Adding upstream version 6.8.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
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diff --git a/man3/malloc.3 b/man3/malloc.3
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-'\" t
-.\" Copyright (c) 1993 by Thomas Koenig (ig25@rz.uni-karlsruhe.de)
-.\" and Copyright 2007, 2012, 2018, Michael Kerrisk <mtk.manpages@gmail.com>
-.\"
-.\" SPDX-License-Identifier: Linux-man-pages-copyleft
-.\"
-.\" Modified Sat Jul 24 19:00:59 1993 by Rik Faith (faith@cs.unc.edu)
-.\" Clarification concerning realloc, iwj10@cus.cam.ac.uk (Ian Jackson), 950701
-.\" Documented MALLOC_CHECK_, Wolfram Gloger (wmglo@dent.med.uni-muenchen.de)
-.\" 2007-09-15 mtk: added notes on malloc()'s use of sbrk() and mmap().
-.\"
-.\" FIXME . Review http://austingroupbugs.net/view.php?id=374
-.\" to see what changes are required on this page.
-.\"
-.TH malloc 3 2023-10-31 "Linux man-pages 6.7"
-.SH NAME
-malloc, free, calloc, realloc, reallocarray \- allocate and free dynamic memory
-.SH LIBRARY
-Standard C library
-.RI ( libc ", " \-lc )
-.SH SYNOPSIS
-.nf
-.B #include <stdlib.h>
-.P
-.BI "void *malloc(size_t " size );
-.BI "void free(void *_Nullable " ptr );
-.BI "void *calloc(size_t " nmemb ", size_t " size );
-.BI "void *realloc(void *_Nullable " ptr ", size_t "  size );
-.BI "void *reallocarray(void *_Nullable " ptr ", size_t " nmemb ", size_t " size );
-.fi
-.P
-.RS -4
-Feature Test Macro Requirements for glibc (see
-.BR feature_test_macros (7)):
-.RE
-.P
-.BR reallocarray ():
-.nf
-    Since glibc 2.29:
-        _DEFAULT_SOURCE
-    glibc 2.28 and earlier:
-        _GNU_SOURCE
-.fi
-.SH DESCRIPTION
-.SS malloc()
-The
-.BR malloc ()
-function allocates
-.I size
-bytes and returns a pointer to the allocated memory.
-.IR "The memory is not initialized" .
-If
-.I size
-is 0, then
-.BR malloc ()
-returns a unique pointer value that can later be successfully passed to
-.BR free ().
-(See "Nonportable behavior" for portability issues.)
-.SS free()
-The
-.BR free ()
-function frees the memory space pointed to by
-.IR ptr ,
-which must have been returned by a previous call to
-.BR malloc ()
-or related functions.
-Otherwise, or if
-.I ptr
-has already been freed, undefined behavior occurs.
-If
-.I ptr
-is NULL, no operation is performed.
-.SS calloc()
-The
-.BR calloc ()
-function allocates memory for an array of
-.I nmemb
-elements of
-.I size
-bytes each and returns a pointer to the allocated memory.
-The memory is set to zero.
-If
-.I nmemb
-or
-.I size
-is 0, then
-.BR calloc ()
-returns a unique pointer value that can later be successfully passed to
-.BR free ().
-.P
-If the multiplication of
-.I nmemb
-and
-.I size
-would result in integer overflow, then
-.BR calloc ()
-returns an error.
-By contrast,
-an integer overflow would not be detected in the following call to
-.BR malloc (),
-with the result that an incorrectly sized block of memory would be allocated:
-.P
-.in +4n
-.EX
-malloc(nmemb * size);
-.EE
-.in
-.SS realloc()
-The
-.BR realloc ()
-function changes the size of the memory block pointed to by
-.I ptr
-to
-.I size
-bytes.
-The contents of the memory
-will be unchanged in the range from the start of the region
-up to the minimum of the old and new sizes.
-If the new size is larger than the old size, the added memory will
-.I not
-be initialized.
-.P
-If
-.I ptr
-is NULL, then the call is equivalent to
-.IR malloc(size) ,
-for all values of
-.IR size .
-.P
-If
-.I size
-is equal to zero,
-and
-.I ptr
-is not NULL, then the call is equivalent to
-.I free(ptr)
-(but see "Nonportable behavior" for portability issues).
-.P
-Unless
-.I ptr
-is NULL, it must have been returned by an earlier call to
-.B malloc
-or related functions.
-If the area pointed to was moved, a
-.I free(ptr)
-is done.
-.SS reallocarray()
-The
-.BR reallocarray ()
-function changes the size of (and possibly moves)
-the memory block pointed to by
-.I ptr
-to be large enough for an array of
-.I nmemb
-elements, each of which is
-.I size
-bytes.
-It is equivalent to the call
-.P
-.in +4n
-.EX
-realloc(ptr, nmemb * size);
-.EE
-.in
-.P
-However, unlike that
-.BR realloc ()
-call,
-.BR reallocarray ()
-fails safely in the case where the multiplication would overflow.
-If such an overflow occurs,
-.BR reallocarray ()
-returns an error.
-.SH RETURN VALUE
-The
-.BR malloc (),
-.BR calloc (),
-.BR realloc (),
-and
-.BR reallocarray ()
-functions return a pointer to the allocated memory,
-which is suitably aligned for any type that fits into
-the requested size or less.
-On error, these functions return NULL and set
-.IR errno .
-Attempting to allocate more than
-.B PTRDIFF_MAX
-bytes is considered an error, as an object that large
-could cause later pointer subtraction to overflow.
-.P
-The
-.BR free ()
-function returns no value, and preserves
-.IR errno .
-.P
-The
-.BR realloc ()
-and
-.BR reallocarray ()
-functions return NULL if
-.I ptr
-is not NULL and the requested size is zero;
-this is not considered an error.
-(See "Nonportable behavior" for portability issues.)
-Otherwise, the returned pointer may be the same as
-.I ptr
-if the allocation was not moved
-(e.g., there was room to expand the allocation in-place), or different from
-.I ptr
-if the allocation was moved to a new address.
-If these functions fail,
-the original block is left untouched; it is not freed or moved.
-.SH ERRORS
-.BR calloc (),
-.BR malloc (),
-.BR realloc (),
-and
-.BR reallocarray ()
-can fail with the following error:
-.TP
-.B ENOMEM
-Out of memory.
-Possibly, the application hit the
-.B RLIMIT_AS
-or
-.B RLIMIT_DATA
-limit described in
-.BR getrlimit (2).
-Another reason could be that
-the number of mappings created by the caller process
-exceeded the limit specified by
-.IR /proc/sys/vm/max_map_count .
-.SH ATTRIBUTES
-For an explanation of the terms used in this section, see
-.BR attributes (7).
-.TS
-allbox;
-lbx lb lb
-l l l.
-Interface	Attribute	Value
-T{
-.na
-.nh
-.BR malloc (),
-.BR free (),
-.BR calloc (),
-.BR realloc ()
-T}	Thread safety	MT-Safe
-.TE
-.SH STANDARDS
-.TP
-.BR malloc ()
-.TQ
-.BR free ()
-.TQ
-.BR calloc ()
-.TQ
-.BR realloc ()
-C11, POSIX.1-2008.
-.TP
-.BR reallocarray ()
-None.
-.SH HISTORY
-.TP
-.BR malloc ()
-.TQ
-.BR free ()
-.TQ
-.BR calloc ()
-.TQ
-.BR realloc ()
-POSIX.1-2001, C89.
-.TP
-.BR reallocarray ()
-glibc 2.26.
-OpenBSD 5.6, FreeBSD 11.0.
-.P
-.BR malloc ()
-and related functions rejected sizes greater than
-.B PTRDIFF_MAX
-starting in glibc 2.30.
-.P
-.BR free ()
-preserved
-.I errno
-starting in glibc 2.33.
-.SH NOTES
-By default, Linux follows an optimistic memory allocation strategy.
-This means that when
-.BR malloc ()
-returns non-NULL there is no guarantee that the memory really
-is available.
-In case it turns out that the system is out of memory,
-one or more processes will be killed by the OOM killer.
-For more information, see the description of
-.I /proc/sys/vm/overcommit_memory
-and
-.I /proc/sys/vm/oom_adj
-in
-.BR proc (5),
-and the Linux kernel source file
-.IR Documentation/vm/overcommit\-accounting.rst .
-.P
-Normally,
-.BR malloc ()
-allocates memory from the heap, and adjusts the size of the heap
-as required, using
-.BR sbrk (2).
-When allocating blocks of memory larger than
-.B MMAP_THRESHOLD
-bytes, the glibc
-.BR malloc ()
-implementation allocates the memory as a private anonymous mapping using
-.BR mmap (2).
-.B MMAP_THRESHOLD
-is 128\ kB by default, but is adjustable using
-.BR mallopt (3).
-Prior to Linux 4.7
-allocations performed using
-.BR mmap (2)
-were unaffected by the
-.B RLIMIT_DATA
-resource limit;
-since Linux 4.7, this limit is also enforced for allocations performed using
-.BR mmap (2).
-.P
-To avoid corruption in multithreaded applications,
-mutexes are used internally to protect the memory-management
-data structures employed by these functions.
-In a multithreaded application in which threads simultaneously
-allocate and free memory,
-there could be contention for these mutexes.
-To scalably handle memory allocation in multithreaded applications,
-glibc creates additional
-.I memory allocation arenas
-if mutex contention is detected.
-Each arena is a large region of memory that is internally allocated
-by the system
-(using
-.BR brk (2)
-or
-.BR mmap (2)),
-and managed with its own mutexes.
-.P
-If your program uses a private memory allocator,
-it should do so by replacing
-.BR malloc (),
-.BR free (),
-.BR calloc (),
-and
-.BR realloc ().
-The replacement functions must implement the documented glibc behaviors,
-including
-.I errno
-handling, size-zero allocations, and overflow checking;
-otherwise, other library routines may crash or operate incorrectly.
-For example, if the replacement
-.IR free ()
-does not preserve
-.IR errno ,
-then seemingly unrelated library routines may
-fail without having a valid reason in
-.IR errno .
-Private memory allocators may also need to replace other glibc functions;
-see "Replacing malloc" in the glibc manual for details.
-.P
-Crashes in memory allocators
-are almost always related to heap corruption, such as overflowing
-an allocated chunk or freeing the same pointer twice.
-.P
-The
-.BR malloc ()
-implementation is tunable via environment variables; see
-.BR mallopt (3)
-for details.
-.SS Nonportable behavior
-The behavior of
-these functions when the requested size is zero
-is glibc specific;
-other implementations may return NULL without setting
-.IR errno ,
-and portable POSIX programs should tolerate such behavior.
-See
-.BR realloc (3p).
-.P
-POSIX requires memory allocators
-to set
-.I errno
-upon failure.
-However, the C standard does not require this, and applications
-portable to non-POSIX platforms should not assume this.
-.P
-Portable programs should not use private memory allocators,
-as POSIX and the C standard do not allow replacement of
-.BR malloc (),
-.BR free (),
-.BR calloc (),
-and
-.BR realloc ().
-.SH EXAMPLES
-.EX
-#include <err.h>
-#include <stddef.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-\&
-#define MALLOCARRAY(n, type)  ((type *) my_mallocarray(n, sizeof(type)))
-#define MALLOC(type)          MALLOCARRAY(1, type)
-\&
-static inline void *my_mallocarray(size_t nmemb, size_t size);
-\&
-int
-main(void)
-{
-    char  *p;
-\&
-    p = MALLOCARRAY(32, char);
-    if (p == NULL)
-        err(EXIT_FAILURE, "malloc");
-\&
-    strlcpy(p, "foo", 32);
-    puts(p);
-}
-\&
-static inline void *
-my_mallocarray(size_t nmemb, size_t size)
-{
-    return reallocarray(NULL, nmemb, size);
-}
-.EE
-.SH SEE ALSO
-.\" http://g.oswego.edu/dl/html/malloc.html
-.\" A Memory Allocator - by Doug Lea
-.\"
-.\" http://www.bozemanpass.com/info/linux/malloc/Linux_Heap_Contention.html
-.\" Linux Heap, Contention in free() - David Boreham
-.\"
-.\" http://www.citi.umich.edu/projects/linux-scalability/reports/malloc.html
-.\" malloc() Performance in a Multithreaded Linux Environment -
-.\"     Check Lever, David Boreham
-.\"
-.ad l
-.nh
-.BR valgrind (1),
-.BR brk (2),
-.BR mmap (2),
-.BR alloca (3),
-.BR malloc_get_state (3),
-.BR malloc_info (3),
-.BR malloc_trim (3),
-.BR malloc_usable_size (3),
-.BR mallopt (3),
-.BR mcheck (3),
-.BR mtrace (3),
-.BR posix_memalign (3)
-.P
-For details of the GNU C library implementation, see
-.UR https://sourceware.org/glibc/wiki/MallocInternals
-.UE .
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