593 lines
18 KiB
C
593 lines
18 KiB
C
/* Malloc implementation for multiple threads without lock contention.
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Copyright (C) 2001-2013 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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Contributed by Wolfram Gloger <wg@malloc.de>, 2001.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public License as
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published by the Free Software Foundation; either version 2.1 of the
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License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; see the file COPYING.LIB. If
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not, see <http://www.gnu.org/licenses/>. */
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/* What to do if the standard debugging hooks are in place and a
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corrupt pointer is detected: do nothing (0), print an error message
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(1), or call abort() (2). */
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/* Hooks for debugging versions. The initial hooks just call the
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initialization routine, then do the normal work. */
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static void*
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malloc_hook_ini(size_t sz, const void *caller)
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{
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__malloc_hook = NULL;
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ptmalloc_init();
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return __libc_malloc(sz);
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}
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static void*
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realloc_hook_ini(void* ptr, size_t sz, const void *caller)
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{
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__malloc_hook = NULL;
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__realloc_hook = NULL;
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ptmalloc_init();
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return __libc_realloc(ptr, sz);
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}
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static void*
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memalign_hook_ini(size_t alignment, size_t sz, const void *caller)
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{
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__memalign_hook = NULL;
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ptmalloc_init();
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return __libc_memalign(alignment, sz);
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}
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/* Whether we are using malloc checking. */
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static int using_malloc_checking;
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/* A flag that is set by malloc_set_state, to signal that malloc checking
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must not be enabled on the request from the user (via the MALLOC_CHECK_
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environment variable). It is reset by __malloc_check_init to tell
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malloc_set_state that the user has requested malloc checking.
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The purpose of this flag is to make sure that malloc checking is not
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enabled when the heap to be restored was constructed without malloc
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checking, and thus does not contain the required magic bytes.
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Otherwise the heap would be corrupted by calls to free and realloc. If
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it turns out that the heap was created with malloc checking and the
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user has requested it malloc_set_state just calls __malloc_check_init
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again to enable it. On the other hand, reusing such a heap without
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further malloc checking is safe. */
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static int disallow_malloc_check;
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/* Activate a standard set of debugging hooks. */
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void
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__malloc_check_init (void)
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{
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if (disallow_malloc_check) {
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disallow_malloc_check = 0;
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return;
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}
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using_malloc_checking = 1;
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__malloc_hook = malloc_check;
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__free_hook = free_check;
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__realloc_hook = realloc_check;
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__memalign_hook = memalign_check;
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}
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/* A simple, standard set of debugging hooks. Overhead is `only' one
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byte per chunk; still this will catch most cases of double frees or
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overruns. The goal here is to avoid obscure crashes due to invalid
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usage, unlike in the MALLOC_DEBUG code. */
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#define MAGICBYTE(p) ( ( ((size_t)p >> 3) ^ ((size_t)p >> 11)) & 0xFF )
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/* Visualize the chunk as being partitioned into blocks of 256 bytes from the
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highest address of the chunk, downwards. The beginning of each block tells
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us the size of the previous block, up to the actual size of the requested
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memory. Our magic byte is right at the end of the requested size, so we
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must reach it with this iteration, otherwise we have witnessed a memory
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corruption. */
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static size_t
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malloc_check_get_size(mchunkptr p)
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{
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size_t size;
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unsigned char c;
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unsigned char magic = MAGICBYTE(p);
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assert(using_malloc_checking == 1);
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for (size = chunksize(p) - 1 + (chunk_is_mmapped(p) ? 0 : SIZE_SZ);
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(c = ((unsigned char*)p)[size]) != magic;
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size -= c) {
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if(c<=0 || size<(c+2*SIZE_SZ)) {
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malloc_printerr(check_action, "malloc_check_get_size: memory corruption",
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chunk2mem(p));
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return 0;
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}
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}
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/* chunk2mem size. */
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return size - 2*SIZE_SZ;
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}
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/* Instrument a chunk with overrun detector byte(s) and convert it
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into a user pointer with requested size sz. */
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static void*
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internal_function
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mem2mem_check(void *ptr, size_t sz)
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{
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mchunkptr p;
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unsigned char* m_ptr = ptr;
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size_t i;
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if (!ptr)
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return ptr;
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p = mem2chunk(ptr);
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for(i = chunksize(p) - (chunk_is_mmapped(p) ? 2*SIZE_SZ+1 : SIZE_SZ+1);
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i > sz;
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i -= 0xFF) {
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if(i-sz < 0x100) {
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m_ptr[i] = (unsigned char)(i-sz);
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break;
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}
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m_ptr[i] = 0xFF;
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}
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m_ptr[sz] = MAGICBYTE(p);
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return (void*)m_ptr;
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}
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/* Convert a pointer to be free()d or realloc()ed to a valid chunk
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pointer. If the provided pointer is not valid, return NULL. */
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static mchunkptr
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internal_function
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mem2chunk_check(void* mem, unsigned char **magic_p)
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{
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mchunkptr p;
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INTERNAL_SIZE_T sz, c;
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unsigned char magic;
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if(!aligned_OK(mem)) return NULL;
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p = mem2chunk(mem);
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if (!chunk_is_mmapped(p)) {
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/* Must be a chunk in conventional heap memory. */
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int contig = contiguous(&main_arena);
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sz = chunksize(p);
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if((contig &&
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((char*)p<mp_.sbrk_base ||
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((char*)p + sz)>=(mp_.sbrk_base+main_arena.system_mem) )) ||
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sz<MINSIZE || sz&MALLOC_ALIGN_MASK || !inuse(p) ||
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( !prev_inuse(p) && (p->prev_size&MALLOC_ALIGN_MASK ||
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(contig && (char*)prev_chunk(p)<mp_.sbrk_base) ||
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next_chunk(prev_chunk(p))!=p) ))
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return NULL;
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magic = MAGICBYTE(p);
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for(sz += SIZE_SZ-1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) {
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if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL;
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}
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} else {
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unsigned long offset, page_mask = GLRO(dl_pagesize)-1;
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/* mmap()ed chunks have MALLOC_ALIGNMENT or higher power-of-two
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alignment relative to the beginning of a page. Check this
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first. */
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offset = (unsigned long)mem & page_mask;
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if((offset!=MALLOC_ALIGNMENT && offset!=0 && offset!=0x10 &&
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offset!=0x20 && offset!=0x40 && offset!=0x80 && offset!=0x100 &&
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offset!=0x200 && offset!=0x400 && offset!=0x800 && offset!=0x1000 &&
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offset<0x2000) ||
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!chunk_is_mmapped(p) || (p->size & PREV_INUSE) ||
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( (((unsigned long)p - p->prev_size) & page_mask) != 0 ) ||
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( (sz = chunksize(p)), ((p->prev_size + sz) & page_mask) != 0 ) )
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return NULL;
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magic = MAGICBYTE(p);
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for(sz -= 1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) {
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if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL;
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}
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}
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((unsigned char*)p)[sz] ^= 0xFF;
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if (magic_p)
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*magic_p = (unsigned char *)p + sz;
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return p;
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}
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/* Check for corruption of the top chunk, and try to recover if
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necessary. */
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static int
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internal_function
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top_check(void)
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{
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mchunkptr t = top(&main_arena);
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char* brk, * new_brk;
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INTERNAL_SIZE_T front_misalign, sbrk_size;
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unsigned long pagesz = GLRO(dl_pagesize);
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if (t == initial_top(&main_arena) ||
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(!chunk_is_mmapped(t) &&
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chunksize(t)>=MINSIZE &&
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prev_inuse(t) &&
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(!contiguous(&main_arena) ||
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(char*)t + chunksize(t) == mp_.sbrk_base + main_arena.system_mem)))
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return 0;
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malloc_printerr (check_action, "malloc: top chunk is corrupt", t);
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/* Try to set up a new top chunk. */
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brk = MORECORE(0);
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front_misalign = (unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK;
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if (front_misalign > 0)
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front_misalign = MALLOC_ALIGNMENT - front_misalign;
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sbrk_size = front_misalign + mp_.top_pad + MINSIZE;
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sbrk_size += pagesz - ((unsigned long)(brk + sbrk_size) & (pagesz - 1));
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new_brk = (char*)(MORECORE (sbrk_size));
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if (new_brk == (char*)(MORECORE_FAILURE))
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{
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__set_errno (ENOMEM);
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return -1;
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}
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/* Call the `morecore' hook if necessary. */
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void (*hook) (void) = atomic_forced_read (__after_morecore_hook);
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if (hook)
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(*hook) ();
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main_arena.system_mem = (new_brk - mp_.sbrk_base) + sbrk_size;
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top(&main_arena) = (mchunkptr)(brk + front_misalign);
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set_head(top(&main_arena), (sbrk_size - front_misalign) | PREV_INUSE);
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return 0;
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}
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static void*
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malloc_check(size_t sz, const void *caller)
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{
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void *victim;
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if (sz+1 == 0) {
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__set_errno (ENOMEM);
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return NULL;
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}
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(void)mutex_lock(&main_arena.mutex);
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victim = (top_check() >= 0) ? _int_malloc(&main_arena, sz+1) : NULL;
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(void)mutex_unlock(&main_arena.mutex);
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return mem2mem_check(victim, sz);
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}
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static void
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free_check(void* mem, const void *caller)
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{
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mchunkptr p;
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if(!mem) return;
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(void)mutex_lock(&main_arena.mutex);
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p = mem2chunk_check(mem, NULL);
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if(!p) {
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(void)mutex_unlock(&main_arena.mutex);
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malloc_printerr(check_action, "free(): invalid pointer", mem);
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return;
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}
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if (chunk_is_mmapped(p)) {
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(void)mutex_unlock(&main_arena.mutex);
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munmap_chunk(p);
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return;
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}
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_int_free(&main_arena, p, 1);
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(void)mutex_unlock(&main_arena.mutex);
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}
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static void*
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realloc_check(void* oldmem, size_t bytes, const void *caller)
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{
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INTERNAL_SIZE_T nb;
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void* newmem = 0;
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unsigned char *magic_p;
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if (bytes+1 == 0) {
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__set_errno (ENOMEM);
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return NULL;
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}
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if (oldmem == 0) return malloc_check(bytes, NULL);
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if (bytes == 0) {
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free_check (oldmem, NULL);
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return NULL;
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}
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(void)mutex_lock(&main_arena.mutex);
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const mchunkptr oldp = mem2chunk_check(oldmem, &magic_p);
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(void)mutex_unlock(&main_arena.mutex);
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if(!oldp) {
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malloc_printerr(check_action, "realloc(): invalid pointer", oldmem);
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return malloc_check(bytes, NULL);
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}
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const INTERNAL_SIZE_T oldsize = chunksize(oldp);
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checked_request2size(bytes+1, nb);
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(void)mutex_lock(&main_arena.mutex);
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if (chunk_is_mmapped(oldp)) {
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#if HAVE_MREMAP
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mchunkptr newp = mremap_chunk(oldp, nb);
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if(newp)
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newmem = chunk2mem(newp);
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else
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#endif
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{
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/* Note the extra SIZE_SZ overhead. */
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if(oldsize - SIZE_SZ >= nb)
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newmem = oldmem; /* do nothing */
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else {
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/* Must alloc, copy, free. */
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if (top_check() >= 0)
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newmem = _int_malloc(&main_arena, bytes+1);
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if (newmem) {
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memcpy(newmem, oldmem, oldsize - 2*SIZE_SZ);
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munmap_chunk(oldp);
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}
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}
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}
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} else {
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if (top_check() >= 0) {
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INTERNAL_SIZE_T nb;
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checked_request2size(bytes + 1, nb);
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newmem = _int_realloc(&main_arena, oldp, oldsize, nb);
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}
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}
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/* mem2chunk_check changed the magic byte in the old chunk.
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If newmem is NULL, then the old chunk will still be used though,
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so we need to invert that change here. */
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if (newmem == NULL) *magic_p ^= 0xFF;
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(void)mutex_unlock(&main_arena.mutex);
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return mem2mem_check(newmem, bytes);
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}
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static void*
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memalign_check(size_t alignment, size_t bytes, const void *caller)
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{
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void* mem;
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if (alignment <= MALLOC_ALIGNMENT) return malloc_check(bytes, NULL);
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if (alignment < MINSIZE) alignment = MINSIZE;
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/* If the alignment is greater than SIZE_MAX / 2 + 1 it cannot be a
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power of 2 and will cause overflow in the check below. */
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if (alignment > SIZE_MAX / 2 + 1)
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{
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__set_errno (EINVAL);
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return 0;
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}
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/* Check for overflow. */
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if (bytes > SIZE_MAX - alignment - MINSIZE)
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{
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__set_errno (ENOMEM);
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return 0;
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}
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/* Make sure alignment is power of 2. */
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if (!powerof2(alignment)) {
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size_t a = MALLOC_ALIGNMENT * 2;
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while (a < alignment) a <<= 1;
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alignment = a;
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}
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(void)mutex_lock(&main_arena.mutex);
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mem = (top_check() >= 0) ? _int_memalign(&main_arena, alignment, bytes+1) :
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NULL;
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(void)mutex_unlock(&main_arena.mutex);
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return mem2mem_check(mem, bytes);
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}
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/* Get/set state: malloc_get_state() records the current state of all
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malloc variables (_except_ for the actual heap contents and `hook'
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function pointers) in a system dependent, opaque data structure.
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This data structure is dynamically allocated and can be free()d
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after use. malloc_set_state() restores the state of all malloc
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variables to the previously obtained state. This is especially
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useful when using this malloc as part of a shared library, and when
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the heap contents are saved/restored via some other method. The
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primary example for this is GNU Emacs with its `dumping' procedure.
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`Hook' function pointers are never saved or restored by these
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functions, with two exceptions: If malloc checking was in use when
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malloc_get_state() was called, then malloc_set_state() calls
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__malloc_check_init() if possible; if malloc checking was not in
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use in the recorded state but the user requested malloc checking,
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then the hooks are reset to 0. */
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#define MALLOC_STATE_MAGIC 0x444c4541l
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#define MALLOC_STATE_VERSION (0*0x100l + 4l) /* major*0x100 + minor */
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struct malloc_save_state {
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long magic;
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long version;
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mbinptr av[NBINS * 2 + 2];
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char* sbrk_base;
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int sbrked_mem_bytes;
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unsigned long trim_threshold;
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unsigned long top_pad;
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unsigned int n_mmaps_max;
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unsigned long mmap_threshold;
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int check_action;
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unsigned long max_sbrked_mem;
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unsigned long max_total_mem;
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unsigned int n_mmaps;
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unsigned int max_n_mmaps;
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unsigned long mmapped_mem;
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unsigned long max_mmapped_mem;
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int using_malloc_checking;
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unsigned long max_fast;
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unsigned long arena_test;
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unsigned long arena_max;
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unsigned long narenas;
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};
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void*
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__malloc_get_state(void)
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{
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struct malloc_save_state* ms;
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int i;
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mbinptr b;
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ms = (struct malloc_save_state*)__libc_malloc(sizeof(*ms));
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if (!ms)
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return 0;
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(void)mutex_lock(&main_arena.mutex);
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malloc_consolidate(&main_arena);
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ms->magic = MALLOC_STATE_MAGIC;
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ms->version = MALLOC_STATE_VERSION;
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ms->av[0] = 0;
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ms->av[1] = 0; /* used to be binblocks, now no longer used */
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ms->av[2] = top(&main_arena);
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ms->av[3] = 0; /* used to be undefined */
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for(i=1; i<NBINS; i++) {
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b = bin_at(&main_arena, i);
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if(first(b) == b)
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ms->av[2*i+2] = ms->av[2*i+3] = 0; /* empty bin */
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else {
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ms->av[2*i+2] = first(b);
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ms->av[2*i+3] = last(b);
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}
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}
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ms->sbrk_base = mp_.sbrk_base;
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ms->sbrked_mem_bytes = main_arena.system_mem;
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ms->trim_threshold = mp_.trim_threshold;
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ms->top_pad = mp_.top_pad;
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ms->n_mmaps_max = mp_.n_mmaps_max;
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ms->mmap_threshold = mp_.mmap_threshold;
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ms->check_action = check_action;
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ms->max_sbrked_mem = main_arena.max_system_mem;
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ms->max_total_mem = 0;
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ms->n_mmaps = mp_.n_mmaps;
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ms->max_n_mmaps = mp_.max_n_mmaps;
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ms->mmapped_mem = mp_.mmapped_mem;
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ms->max_mmapped_mem = mp_.max_mmapped_mem;
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ms->using_malloc_checking = using_malloc_checking;
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ms->max_fast = get_max_fast();
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ms->arena_test = mp_.arena_test;
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ms->arena_max = mp_.arena_max;
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ms->narenas = narenas;
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(void)mutex_unlock(&main_arena.mutex);
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return (void*)ms;
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}
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int
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__malloc_set_state(void* msptr)
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{
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struct malloc_save_state* ms = (struct malloc_save_state*)msptr;
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size_t i;
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mbinptr b;
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disallow_malloc_check = 1;
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ptmalloc_init();
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if(ms->magic != MALLOC_STATE_MAGIC) return -1;
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/* Must fail if the major version is too high. */
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if((ms->version & ~0xffl) > (MALLOC_STATE_VERSION & ~0xffl)) return -2;
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(void)mutex_lock(&main_arena.mutex);
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/* There are no fastchunks. */
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clear_fastchunks(&main_arena);
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if (ms->version >= 4)
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set_max_fast(ms->max_fast);
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else
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set_max_fast(64); /* 64 used to be the value we always used. */
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for (i=0; i<NFASTBINS; ++i)
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fastbin (&main_arena, i) = 0;
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for (i=0; i<BINMAPSIZE; ++i)
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main_arena.binmap[i] = 0;
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top(&main_arena) = ms->av[2];
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main_arena.last_remainder = 0;
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for(i=1; i<NBINS; i++) {
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b = bin_at(&main_arena, i);
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if(ms->av[2*i+2] == 0) {
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assert(ms->av[2*i+3] == 0);
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first(b) = last(b) = b;
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} else {
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if(ms->version >= 3 &&
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(i<NSMALLBINS || (largebin_index(chunksize(ms->av[2*i+2]))==i &&
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largebin_index(chunksize(ms->av[2*i+3]))==i))) {
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first(b) = ms->av[2*i+2];
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last(b) = ms->av[2*i+3];
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/* Make sure the links to the bins within the heap are correct. */
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first(b)->bk = b;
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last(b)->fd = b;
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/* Set bit in binblocks. */
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mark_bin(&main_arena, i);
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} else {
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/* Oops, index computation from chunksize must have changed.
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Link the whole list into unsorted_chunks. */
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first(b) = last(b) = b;
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b = unsorted_chunks(&main_arena);
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ms->av[2*i+2]->bk = b;
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ms->av[2*i+3]->fd = b->fd;
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b->fd->bk = ms->av[2*i+3];
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b->fd = ms->av[2*i+2];
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}
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}
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}
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if (ms->version < 3) {
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/* Clear fd_nextsize and bk_nextsize fields. */
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b = unsorted_chunks(&main_arena)->fd;
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while (b != unsorted_chunks(&main_arena)) {
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if (!in_smallbin_range(chunksize(b))) {
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b->fd_nextsize = NULL;
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b->bk_nextsize = NULL;
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}
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b = b->fd;
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}
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}
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mp_.sbrk_base = ms->sbrk_base;
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main_arena.system_mem = ms->sbrked_mem_bytes;
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mp_.trim_threshold = ms->trim_threshold;
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mp_.top_pad = ms->top_pad;
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mp_.n_mmaps_max = ms->n_mmaps_max;
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mp_.mmap_threshold = ms->mmap_threshold;
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check_action = ms->check_action;
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main_arena.max_system_mem = ms->max_sbrked_mem;
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mp_.n_mmaps = ms->n_mmaps;
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mp_.max_n_mmaps = ms->max_n_mmaps;
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mp_.mmapped_mem = ms->mmapped_mem;
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mp_.max_mmapped_mem = ms->max_mmapped_mem;
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/* add version-dependent code here */
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if (ms->version >= 1) {
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/* Check whether it is safe to enable malloc checking, or whether
|
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it is necessary to disable it. */
|
|
if (ms->using_malloc_checking && !using_malloc_checking &&
|
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!disallow_malloc_check)
|
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__malloc_check_init ();
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else if (!ms->using_malloc_checking && using_malloc_checking) {
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__malloc_hook = NULL;
|
|
__free_hook = NULL;
|
|
__realloc_hook = NULL;
|
|
__memalign_hook = NULL;
|
|
using_malloc_checking = 0;
|
|
}
|
|
}
|
|
if (ms->version >= 4) {
|
|
mp_.arena_test = ms->arena_test;
|
|
mp_.arena_max = ms->arena_max;
|
|
narenas = ms->narenas;
|
|
}
|
|
check_malloc_state(&main_arena);
|
|
|
|
(void)mutex_unlock(&main_arena.mutex);
|
|
return 0;
|
|
}
|
|
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/*
|
|
* Local variables:
|
|
* c-basic-offset: 2
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* End:
|
|
*/
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