mirror of
https://github.com/autc04/Retro68.git
synced 2024-11-28 05:51:04 +00:00
629 lines
18 KiB
C
629 lines
18 KiB
C
/*
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* Copyright (c) 2012, 2013 ARM Ltd
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. The name of the company may not be used to endorse or promote
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* products derived from this software without specific prior written
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* permission.
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*
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* THIS SOFTWARE IS PROVIDED BY ARM LTD ``AS IS'' AND ANY EXPRESS OR IMPLIED
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* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL ARM LTD BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
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* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/* Implementation of <<malloc>> <<free>> <<calloc>> <<realloc>>, optional
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* as to be reenterable.
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*
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* Interface documentation refer to malloc.c.
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*/
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#include <stdio.h>
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#include <string.h>
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#include <errno.h>
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#if DEBUG
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#include <assert.h>
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#else
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#define assert(x) ((void)0)
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#endif
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#ifndef MAX
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#define MAX(a,b) ((a) >= (b) ? (a) : (b))
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#endif
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#define _SBRK_R(X) _sbrk_r(X)
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#ifdef INTERNAL_NEWLIB
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#include <sys/config.h>
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#include <reent.h>
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#define RARG struct _reent *reent_ptr,
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#define RONEARG struct _reent *reent_ptr
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#define RCALL reent_ptr,
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#define RONECALL reent_ptr
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#define MALLOC_LOCK __malloc_lock(reent_ptr)
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#define MALLOC_UNLOCK __malloc_unlock(reent_ptr)
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#define RERRNO reent_ptr->_errno
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#define nano_malloc _malloc_r
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#define nano_free _free_r
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#define nano_realloc _realloc_r
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#define nano_memalign _memalign_r
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#define nano_valloc _valloc_r
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#define nano_pvalloc _pvalloc_r
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#define nano_calloc _calloc_r
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#define nano_cfree _cfree_r
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#define nano_malloc_usable_size _malloc_usable_size_r
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#define nano_malloc_stats _malloc_stats_r
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#define nano_mallinfo _mallinfo_r
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#define nano_mallopt _mallopt_r
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#else /* ! INTERNAL_NEWLIB */
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#define RARG
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#define RONEARG
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#define RCALL
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#define RONECALL
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#define MALLOC_LOCK
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#define MALLOC_UNLOCK
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#define RERRNO errno
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#define nano_malloc malloc
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#define nano_free free
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#define nano_realloc realloc
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#define nano_memalign memalign
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#define nano_valloc valloc
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#define nano_pvalloc pvalloc
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#define nano_calloc calloc
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#define nano_cfree cfree
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#define nano_malloc_usable_size malloc_usable_size
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#define nano_malloc_stats malloc_stats
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#define nano_mallinfo mallinfo
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#define nano_mallopt mallopt
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#endif /* ! INTERNAL_NEWLIB */
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/* Redefine names to avoid conflict with user names */
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#define free_list __malloc_free_list
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#define sbrk_start __malloc_sbrk_start
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#define current_mallinfo __malloc_current_mallinfo
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#define ALIGN_TO(size, align) \
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(((size) + (align) -1L) & ~((align) -1L))
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/* Alignment of allocated block */
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#define MALLOC_ALIGN (8U)
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#define CHUNK_ALIGN (sizeof(void*))
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#define MALLOC_PADDING ((MAX(MALLOC_ALIGN, CHUNK_ALIGN)) - CHUNK_ALIGN)
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/* as well as the minimal allocation size
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* to hold a free pointer */
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#define MALLOC_MINSIZE (sizeof(void *))
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#define MALLOC_PAGE_ALIGN (0x1000)
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#define MAX_ALLOC_SIZE (0x80000000U)
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typedef size_t malloc_size_t;
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typedef struct malloc_chunk
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{
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/* ------------------
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* chunk->| size (4 bytes) |
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* ------------------
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* | Padding for |
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* | alignment |
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* | holding neg |
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* | offset to size |
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* ------------------
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* mem_ptr->| point to next |
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* | free when freed|
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* | or data load |
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* | when allocated |
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* ------------------
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*/
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/* size of the allocated payload area, including size before
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CHUNK_OFFSET */
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long size;
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/* since here, the memory is either the next free block, or data load */
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struct malloc_chunk * next;
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}chunk;
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/* Copied from malloc.h */
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struct mallinfo
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{
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size_t arena; /* total space allocated from system */
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size_t ordblks; /* number of non-inuse chunks */
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size_t smblks; /* unused -- always zero */
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size_t hblks; /* number of mmapped regions */
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size_t hblkhd; /* total space in mmapped regions */
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size_t usmblks; /* unused -- always zero */
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size_t fsmblks; /* unused -- always zero */
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size_t uordblks; /* total allocated space */
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size_t fordblks; /* total non-inuse space */
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size_t keepcost; /* top-most, releasable (via malloc_trim) space */
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};
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#define CHUNK_OFFSET ((malloc_size_t)(&(((struct malloc_chunk *)0)->next)))
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/* size of smallest possible chunk. A memory piece smaller than this size
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* won't be able to create a chunk */
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#define MALLOC_MINCHUNK (CHUNK_OFFSET + MALLOC_PADDING + MALLOC_MINSIZE)
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/* Forward data declarations */
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extern chunk * free_list;
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extern char * sbrk_start;
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extern struct mallinfo current_mallinfo;
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/* Forward function declarations */
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extern void * nano_malloc(RARG malloc_size_t);
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extern void nano_free (RARG void * free_p);
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extern void nano_cfree(RARG void * ptr);
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extern void * nano_calloc(RARG malloc_size_t n, malloc_size_t elem);
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extern struct mallinfo nano_mallinfo(RONEARG);
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extern void nano_malloc_stats(RONEARG);
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extern malloc_size_t nano_malloc_usable_size(RARG void * ptr);
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extern void * nano_realloc(RARG void * ptr, malloc_size_t size);
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extern void * nano_memalign(RARG size_t align, size_t s);
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extern int nano_mallopt(RARG int parameter_number, int parameter_value);
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extern void * nano_valloc(RARG size_t s);
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extern void * nano_pvalloc(RARG size_t s);
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static inline chunk * get_chunk_from_ptr(void * ptr)
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{
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chunk * c = (chunk *)((char *)ptr - CHUNK_OFFSET);
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/* Skip the padding area */
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if (c->size < 0) c = (chunk *)((char *)c + c->size);
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return c;
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}
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#ifdef DEFINE_MALLOC
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/* List list header of free blocks */
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chunk * free_list = NULL;
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/* Starting point of memory allocated from system */
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char * sbrk_start = NULL;
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/** Function sbrk_aligned
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* Algorithm:
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* Use sbrk() to obtain more memory and ensure it is CHUNK_ALIGN aligned
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* Optimise for the case that it is already aligned - only ask for extra
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* padding after we know we need it
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*/
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static void* sbrk_aligned(RARG malloc_size_t s)
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{
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char *p, *align_p;
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if (sbrk_start == NULL) sbrk_start = _SBRK_R(RCALL 0);
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p = _SBRK_R(RCALL s);
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/* sbrk returns -1 if fail to allocate */
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if (p == (void *)-1)
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return p;
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align_p = (char*)ALIGN_TO((unsigned long)p, CHUNK_ALIGN);
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if (align_p != p)
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{
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/* p is not aligned, ask for a few more bytes so that we have s
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* bytes reserved from align_p. */
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p = _SBRK_R(RCALL align_p - p);
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if (p == (void *)-1)
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return p;
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}
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return align_p;
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}
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/** Function nano_malloc
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* Algorithm:
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* Walk through the free list to find the first match. If fails to find
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* one, call sbrk to allocate a new chunk.
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*/
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void * nano_malloc(RARG malloc_size_t s)
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{
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chunk *p, *r;
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char * ptr, * align_ptr;
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int offset;
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malloc_size_t alloc_size;
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alloc_size = ALIGN_TO(s, CHUNK_ALIGN); /* size of aligned data load */
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alloc_size += MALLOC_PADDING; /* padding */
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alloc_size += CHUNK_OFFSET; /* size of chunk head */
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alloc_size = MAX(alloc_size, MALLOC_MINCHUNK);
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if (alloc_size >= MAX_ALLOC_SIZE || alloc_size < s)
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{
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RERRNO = ENOMEM;
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return NULL;
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}
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MALLOC_LOCK;
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p = free_list;
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r = p;
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while (r)
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{
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int rem = r->size - alloc_size;
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if (rem >= 0)
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{
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if (rem >= MALLOC_MINCHUNK)
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{
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/* Find a chunk that much larger than required size, break
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* it into two chunks and return the second one */
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r->size = rem;
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r = (chunk *)((char *)r + rem);
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r->size = alloc_size;
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}
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/* Find a chunk that is exactly the size or slightly bigger
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* than requested size, just return this chunk */
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else if (p == r)
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{
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/* Now it implies p==r==free_list. Move the free_list
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* to next chunk */
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free_list = r->next;
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}
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else
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{
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/* Normal case. Remove it from free_list */
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p->next = r->next;
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}
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break;
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}
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p=r;
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r=r->next;
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}
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/* Failed to find a appropriate chunk. Ask for more memory */
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if (r == NULL)
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{
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r = sbrk_aligned(RCALL alloc_size);
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/* sbrk returns -1 if fail to allocate */
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if (r == (void *)-1)
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{
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RERRNO = ENOMEM;
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MALLOC_UNLOCK;
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return NULL;
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}
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r->size = alloc_size;
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}
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MALLOC_UNLOCK;
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ptr = (char *)r + CHUNK_OFFSET;
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align_ptr = (char *)ALIGN_TO((unsigned long)ptr, MALLOC_ALIGN);
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offset = align_ptr - ptr;
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if (offset)
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{
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*(int *)((char *)r + offset) = -offset;
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}
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assert(align_ptr + size <= (char *)r + alloc_size);
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return align_ptr;
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}
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#endif /* DEFINE_MALLOC */
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#ifdef DEFINE_FREE
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#define MALLOC_CHECK_DOUBLE_FREE
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/** Function nano_free
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* Implementation of libc free.
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* Algorithm:
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* Maintain a global free chunk single link list, headed by global
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* variable free_list.
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* When free, insert the to-be-freed chunk into free list. The place to
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* insert should make sure all chunks are sorted by address from low to
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* high. Then merge with neighbor chunks if adjacent.
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*/
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void nano_free (RARG void * free_p)
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{
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chunk * p_to_free;
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chunk * p, * q;
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if (free_p == NULL) return;
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p_to_free = get_chunk_from_ptr(free_p);
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MALLOC_LOCK;
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if (free_list == NULL)
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{
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/* Set first free list element */
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p_to_free->next = free_list;
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free_list = p_to_free;
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MALLOC_UNLOCK;
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return;
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}
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if (p_to_free < free_list)
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{
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if ((char *)p_to_free + p_to_free->size == (char *)free_list)
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{
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/* Chunk to free is just before the first element of
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* free list */
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p_to_free->size += free_list->size;
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p_to_free->next = free_list->next;
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}
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else
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{
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/* Insert before current free_list */
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p_to_free->next = free_list;
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}
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free_list = p_to_free;
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MALLOC_UNLOCK;
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return;
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}
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q = free_list;
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/* Walk through the free list to find the place for insert. */
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do
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{
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p = q;
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q = q->next;
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} while (q && q <= p_to_free);
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/* Now p <= p_to_free and either q == NULL or q > p_to_free
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* Try to merge with chunks immediately before/after it. */
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if ((char *)p + p->size == (char *)p_to_free)
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{
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/* Chunk to be freed is adjacent
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* to a free chunk before it */
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p->size += p_to_free->size;
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/* If the merged chunk is also adjacent
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* to the chunk after it, merge again */
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if ((char *)p + p->size == (char *) q)
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{
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p->size += q->size;
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p->next = q->next;
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}
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}
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#ifdef MALLOC_CHECK_DOUBLE_FREE
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else if ((char *)p + p->size > (char *)p_to_free)
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{
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/* Report double free fault */
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RERRNO = ENOMEM;
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MALLOC_UNLOCK;
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return;
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}
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#endif
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else if ((char *)p_to_free + p_to_free->size == (char *) q)
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{
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/* Chunk to be freed is adjacent
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* to a free chunk after it */
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p_to_free->size += q->size;
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p_to_free->next = q->next;
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p->next = p_to_free;
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}
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else
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{
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/* Not adjacent to any chunk. Just insert it. Resulting
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* a fragment. */
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p_to_free->next = q;
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p->next = p_to_free;
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}
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MALLOC_UNLOCK;
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}
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#endif /* DEFINE_FREE */
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#ifdef DEFINE_CFREE
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void nano_cfree(RARG void * ptr)
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{
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nano_free(RCALL ptr);
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}
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#endif /* DEFINE_CFREE */
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#ifdef DEFINE_CALLOC
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/* Function nano_calloc
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* Implement calloc simply by calling malloc and set zero */
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void * nano_calloc(RARG malloc_size_t n, malloc_size_t elem)
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{
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void * mem = nano_malloc(RCALL n * elem);
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if (mem != NULL) memset(mem, 0, n * elem);
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return mem;
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}
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#endif /* DEFINE_CALLOC */
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#ifdef DEFINE_REALLOC
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/* Function nano_realloc
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* Implement realloc by malloc + memcpy */
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void * nano_realloc(RARG void * ptr, malloc_size_t size)
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{
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void * mem;
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chunk * p_to_realloc;
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if (ptr == NULL) return nano_malloc(RCALL size);
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if (size == 0)
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{
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nano_free(RCALL ptr);
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return NULL;
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}
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|
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/* TODO: There is chance to shrink the chunk if newly requested
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* size is much small */
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if (nano_malloc_usable_size(RCALL ptr) >= size)
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return ptr;
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mem = nano_malloc(RCALL size);
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if (mem != NULL)
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{
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memcpy(mem, ptr, size);
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nano_free(RCALL ptr);
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}
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return mem;
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}
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#endif /* DEFINE_REALLOC */
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|
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#ifdef DEFINE_MALLINFO
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struct mallinfo current_mallinfo={0,0,0,0,0,0,0,0,0,0};
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struct mallinfo nano_mallinfo(RONEARG)
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{
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char * sbrk_now;
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chunk * pf;
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size_t free_size = 0;
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size_t total_size;
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MALLOC_LOCK;
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if (sbrk_start == NULL) total_size = 0;
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else {
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sbrk_now = _SBRK_R(RCALL 0);
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if (sbrk_now == (void *)-1)
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total_size = (size_t)-1;
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else
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total_size = (size_t) (sbrk_now - sbrk_start);
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}
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for (pf = free_list; pf; pf = pf->next)
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free_size += pf->size;
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current_mallinfo.arena = total_size;
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current_mallinfo.fordblks = free_size;
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current_mallinfo.uordblks = total_size - free_size;
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MALLOC_UNLOCK;
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return current_mallinfo;
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}
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#endif /* DEFINE_MALLINFO */
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#ifdef DEFINE_MALLOC_STATS
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void nano_malloc_stats(RONEARG)
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{
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nano_mallinfo(RONECALL);
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fiprintf(stderr, "max system bytes = %10u\n",
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current_mallinfo.arena);
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fiprintf(stderr, "system bytes = %10u\n",
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current_mallinfo.arena);
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fiprintf(stderr, "in use bytes = %10u\n",
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current_mallinfo.uordblks);
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}
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#endif /* DEFINE_MALLOC_STATS */
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|
|
#ifdef DEFINE_MALLOC_USABLE_SIZE
|
|
malloc_size_t nano_malloc_usable_size(RARG void * ptr)
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|
{
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chunk * c = (chunk *)((char *)ptr - CHUNK_OFFSET);
|
|
int size_or_offset = c->size;
|
|
|
|
if (size_or_offset < 0)
|
|
{
|
|
/* Padding is used. Excluding the padding size */
|
|
c = (chunk *)((char *)c + c->size);
|
|
return c->size - CHUNK_OFFSET + size_or_offset;
|
|
}
|
|
return c->size - CHUNK_OFFSET;
|
|
}
|
|
#endif /* DEFINE_MALLOC_USABLE_SIZE */
|
|
|
|
#ifdef DEFINE_MEMALIGN
|
|
/* Function nano_memalign
|
|
* Allocate memory block aligned at specific boundary.
|
|
* align: required alignment. Must be power of 2. Return NULL
|
|
* if not power of 2. Undefined behavior is bigger than
|
|
* pointer value range.
|
|
* s: required size.
|
|
* Return: allocated memory pointer aligned to align
|
|
* Algorithm: Malloc a big enough block, padding pointer to aligned
|
|
* address, then truncate and free the tail if too big.
|
|
* Record the offset of align pointer and original pointer
|
|
* in the padding area.
|
|
*/
|
|
void * nano_memalign(RARG size_t align, size_t s)
|
|
{
|
|
chunk * chunk_p;
|
|
malloc_size_t size_allocated, offset, ma_size, size_with_padding;
|
|
char * allocated, * aligned_p;
|
|
|
|
/* Return NULL if align isn't power of 2 */
|
|
if ((align & (align-1)) != 0) return NULL;
|
|
|
|
align = MAX(align, MALLOC_ALIGN);
|
|
ma_size = ALIGN_TO(MAX(s, MALLOC_MINSIZE), CHUNK_ALIGN);
|
|
size_with_padding = ma_size + align - MALLOC_ALIGN;
|
|
|
|
allocated = nano_malloc(RCALL size_with_padding);
|
|
if (allocated == NULL) return NULL;
|
|
|
|
chunk_p = get_chunk_from_ptr(allocated);
|
|
aligned_p = (char *)ALIGN_TO(
|
|
(unsigned long)((char *)chunk_p + CHUNK_OFFSET),
|
|
(unsigned long)align);
|
|
offset = aligned_p - ((char *)chunk_p + CHUNK_OFFSET);
|
|
|
|
if (offset)
|
|
{
|
|
if (offset >= MALLOC_MINCHUNK)
|
|
{
|
|
/* Padding is too large, free it */
|
|
chunk * front_chunk = chunk_p;
|
|
chunk_p = (chunk *)((char *)chunk_p + offset);
|
|
chunk_p->size = front_chunk->size - offset;
|
|
front_chunk->size = offset;
|
|
nano_free(RCALL (char *)front_chunk + CHUNK_OFFSET);
|
|
}
|
|
else
|
|
{
|
|
/* Padding is used. Need to set a jump offset for aligned pointer
|
|
* to get back to chunk head */
|
|
assert(offset >= sizeof(int));
|
|
*(int *)((char *)chunk_p + offset) = -offset;
|
|
}
|
|
}
|
|
|
|
size_allocated = chunk_p->size;
|
|
if ((char *)chunk_p + size_allocated >
|
|
(aligned_p + ma_size + MALLOC_MINCHUNK))
|
|
{
|
|
/* allocated much more than what's required for padding, free
|
|
* tail part */
|
|
chunk * tail_chunk = (chunk *)(aligned_p + ma_size);
|
|
chunk_p->size = aligned_p + ma_size - (char *)chunk_p;
|
|
tail_chunk->size = size_allocated - chunk_p->size;
|
|
nano_free(RCALL (char *)tail_chunk + CHUNK_OFFSET);
|
|
}
|
|
return aligned_p;
|
|
}
|
|
#endif /* DEFINE_MEMALIGN */
|
|
|
|
#ifdef DEFINE_MALLOPT
|
|
int nano_mallopt(RARG int parameter_number, int parameter_value)
|
|
{
|
|
return 0;
|
|
}
|
|
#endif /* DEFINE_MALLOPT */
|
|
|
|
#ifdef DEFINE_VALLOC
|
|
void * nano_valloc(RARG size_t s)
|
|
{
|
|
return nano_memalign(RCALL MALLOC_PAGE_ALIGN, s);
|
|
}
|
|
#endif /* DEFINE_VALLOC */
|
|
|
|
#ifdef DEFINE_PVALLOC
|
|
void * nano_pvalloc(RARG size_t s)
|
|
{
|
|
return nano_valloc(RCALL ALIGN_TO(s, MALLOC_PAGE_ALIGN));
|
|
}
|
|
#endif /* DEFINE_PVALLOC */
|