Remove duplicate U0C7B definition.
[glibc/history.git] / malloc / hooks.c
blob1e01b73afde89be6edf35e18182c5f31149e9da7
1 /* Malloc implementation for multiple threads without lock contention.
2 Copyright (C) 2001-2006, 2007 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
4 Contributed by Wolfram Gloger <wg@malloc.de>, 2001.
6 The GNU C Library is free software; you can redistribute it and/or
7 modify it under the terms of the GNU Lesser General Public License as
8 published by the Free Software Foundation; either version 2.1 of the
9 License, or (at your option) any later version.
11 The GNU C Library is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 Lesser General Public License for more details.
16 You should have received a copy of the GNU Lesser General Public
17 License along with the GNU C Library; see the file COPYING.LIB. If not,
18 write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
21 /* What to do if the standard debugging hooks are in place and a
22 corrupt pointer is detected: do nothing (0), print an error message
23 (1), or call abort() (2). */
25 /* Hooks for debugging versions. The initial hooks just call the
26 initialization routine, then do the normal work. */
28 static Void_t*
29 #if __STD_C
30 malloc_hook_ini(size_t sz, const __malloc_ptr_t caller)
31 #else
32 malloc_hook_ini(sz, caller)
33 size_t sz; const __malloc_ptr_t caller;
34 #endif
36 __malloc_hook = NULL;
37 ptmalloc_init();
38 return public_mALLOc(sz);
41 static Void_t*
42 #if __STD_C
43 realloc_hook_ini(Void_t* ptr, size_t sz, const __malloc_ptr_t caller)
44 #else
45 realloc_hook_ini(ptr, sz, caller)
46 Void_t* ptr; size_t sz; const __malloc_ptr_t caller;
47 #endif
49 __malloc_hook = NULL;
50 __realloc_hook = NULL;
51 ptmalloc_init();
52 return public_rEALLOc(ptr, sz);
55 static Void_t*
56 #if __STD_C
57 memalign_hook_ini(size_t alignment, size_t sz, const __malloc_ptr_t caller)
58 #else
59 memalign_hook_ini(alignment, sz, caller)
60 size_t alignment; size_t sz; const __malloc_ptr_t caller;
61 #endif
63 __memalign_hook = NULL;
64 ptmalloc_init();
65 return public_mEMALIGn(alignment, sz);
68 /* Whether we are using malloc checking. */
69 static int using_malloc_checking;
71 /* A flag that is set by malloc_set_state, to signal that malloc checking
72 must not be enabled on the request from the user (via the MALLOC_CHECK_
73 environment variable). It is reset by __malloc_check_init to tell
74 malloc_set_state that the user has requested malloc checking.
76 The purpose of this flag is to make sure that malloc checking is not
77 enabled when the heap to be restored was constructed without malloc
78 checking, and thus does not contain the required magic bytes.
79 Otherwise the heap would be corrupted by calls to free and realloc. If
80 it turns out that the heap was created with malloc checking and the
81 user has requested it malloc_set_state just calls __malloc_check_init
82 again to enable it. On the other hand, reusing such a heap without
83 further malloc checking is safe. */
84 static int disallow_malloc_check;
86 /* Activate a standard set of debugging hooks. */
87 void
88 __malloc_check_init()
90 if (disallow_malloc_check) {
91 disallow_malloc_check = 0;
92 return;
94 using_malloc_checking = 1;
95 __malloc_hook = malloc_check;
96 __free_hook = free_check;
97 __realloc_hook = realloc_check;
98 __memalign_hook = memalign_check;
99 if(check_action & 1)
100 malloc_printerr (5, "malloc: using debugging hooks", NULL);
103 /* A simple, standard set of debugging hooks. Overhead is `only' one
104 byte per chunk; still this will catch most cases of double frees or
105 overruns. The goal here is to avoid obscure crashes due to invalid
106 usage, unlike in the MALLOC_DEBUG code. */
108 #define MAGICBYTE(p) ( ( ((size_t)p >> 3) ^ ((size_t)p >> 11)) & 0xFF )
110 /* Instrument a chunk with overrun detector byte(s) and convert it
111 into a user pointer with requested size sz. */
113 static Void_t*
114 internal_function
115 #if __STD_C
116 mem2mem_check(Void_t *ptr, size_t sz)
117 #else
118 mem2mem_check(ptr, sz) Void_t *ptr; size_t sz;
119 #endif
121 mchunkptr p;
122 unsigned char* m_ptr = (unsigned char*)BOUNDED_N(ptr, sz);
123 size_t i;
125 if (!ptr)
126 return ptr;
127 p = mem2chunk(ptr);
128 for(i = chunksize(p) - (chunk_is_mmapped(p) ? 2*SIZE_SZ+1 : SIZE_SZ+1);
129 i > sz;
130 i -= 0xFF) {
131 if(i-sz < 0x100) {
132 m_ptr[i] = (unsigned char)(i-sz);
133 break;
135 m_ptr[i] = 0xFF;
137 m_ptr[sz] = MAGICBYTE(p);
138 return (Void_t*)m_ptr;
141 /* Convert a pointer to be free()d or realloc()ed to a valid chunk
142 pointer. If the provided pointer is not valid, return NULL. */
144 static mchunkptr
145 internal_function
146 #if __STD_C
147 mem2chunk_check(Void_t* mem, unsigned char **magic_p)
148 #else
149 mem2chunk_check(mem, magic_p) Void_t* mem; unsigned char **magic_p;
150 #endif
152 mchunkptr p;
153 INTERNAL_SIZE_T sz, c;
154 unsigned char magic;
156 if(!aligned_OK(mem)) return NULL;
157 p = mem2chunk(mem);
158 if (!chunk_is_mmapped(p)) {
159 /* Must be a chunk in conventional heap memory. */
160 int contig = contiguous(&main_arena);
161 sz = chunksize(p);
162 if((contig &&
163 ((char*)p<mp_.sbrk_base ||
164 ((char*)p + sz)>=(mp_.sbrk_base+main_arena.system_mem) )) ||
165 sz<MINSIZE || sz&MALLOC_ALIGN_MASK || !inuse(p) ||
166 ( !prev_inuse(p) && (p->prev_size&MALLOC_ALIGN_MASK ||
167 (contig && (char*)prev_chunk(p)<mp_.sbrk_base) ||
168 next_chunk(prev_chunk(p))!=p) ))
169 return NULL;
170 magic = MAGICBYTE(p);
171 for(sz += SIZE_SZ-1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) {
172 if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL;
174 } else {
175 unsigned long offset, page_mask = malloc_getpagesize-1;
177 /* mmap()ed chunks have MALLOC_ALIGNMENT or higher power-of-two
178 alignment relative to the beginning of a page. Check this
179 first. */
180 offset = (unsigned long)mem & page_mask;
181 if((offset!=MALLOC_ALIGNMENT && offset!=0 && offset!=0x10 &&
182 offset!=0x20 && offset!=0x40 && offset!=0x80 && offset!=0x100 &&
183 offset!=0x200 && offset!=0x400 && offset!=0x800 && offset!=0x1000 &&
184 offset<0x2000) ||
185 !chunk_is_mmapped(p) || (p->size & PREV_INUSE) ||
186 ( (((unsigned long)p - p->prev_size) & page_mask) != 0 ) ||
187 ( (sz = chunksize(p)), ((p->prev_size + sz) & page_mask) != 0 ) )
188 return NULL;
189 magic = MAGICBYTE(p);
190 for(sz -= 1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) {
191 if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL;
194 ((unsigned char*)p)[sz] ^= 0xFF;
195 if (magic_p)
196 *magic_p = (unsigned char *)p + sz;
197 return p;
200 /* Check for corruption of the top chunk, and try to recover if
201 necessary. */
203 static int
204 internal_function
205 #if __STD_C
206 top_check(void)
207 #else
208 top_check()
209 #endif
211 mchunkptr t = top(&main_arena);
212 char* brk, * new_brk;
213 INTERNAL_SIZE_T front_misalign, sbrk_size;
214 unsigned long pagesz = malloc_getpagesize;
216 if (t == initial_top(&main_arena) ||
217 (!chunk_is_mmapped(t) &&
218 chunksize(t)>=MINSIZE &&
219 prev_inuse(t) &&
220 (!contiguous(&main_arena) ||
221 (char*)t + chunksize(t) == mp_.sbrk_base + main_arena.system_mem)))
222 return 0;
224 malloc_printerr (check_action, "malloc: top chunk is corrupt", t);
226 /* Try to set up a new top chunk. */
227 brk = MORECORE(0);
228 front_misalign = (unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK;
229 if (front_misalign > 0)
230 front_misalign = MALLOC_ALIGNMENT - front_misalign;
231 sbrk_size = front_misalign + mp_.top_pad + MINSIZE;
232 sbrk_size += pagesz - ((unsigned long)(brk + sbrk_size) & (pagesz - 1));
233 new_brk = (char*)(MORECORE (sbrk_size));
234 if (new_brk == (char*)(MORECORE_FAILURE))
236 MALLOC_FAILURE_ACTION;
237 return -1;
239 /* Call the `morecore' hook if necessary. */
240 if (__after_morecore_hook)
241 (*__after_morecore_hook) ();
242 main_arena.system_mem = (new_brk - mp_.sbrk_base) + sbrk_size;
244 top(&main_arena) = (mchunkptr)(brk + front_misalign);
245 set_head(top(&main_arena), (sbrk_size - front_misalign) | PREV_INUSE);
247 return 0;
250 static Void_t*
251 #if __STD_C
252 malloc_check(size_t sz, const Void_t *caller)
253 #else
254 malloc_check(sz, caller) size_t sz; const Void_t *caller;
255 #endif
257 Void_t *victim;
259 if (sz+1 == 0) {
260 MALLOC_FAILURE_ACTION;
261 return NULL;
264 (void)mutex_lock(&main_arena.mutex);
265 victim = (top_check() >= 0) ? _int_malloc(&main_arena, sz+1) : NULL;
266 (void)mutex_unlock(&main_arena.mutex);
267 return mem2mem_check(victim, sz);
270 static void
271 #if __STD_C
272 free_check(Void_t* mem, const Void_t *caller)
273 #else
274 free_check(mem, caller) Void_t* mem; const Void_t *caller;
275 #endif
277 mchunkptr p;
279 if(!mem) return;
280 (void)mutex_lock(&main_arena.mutex);
281 p = mem2chunk_check(mem, NULL);
282 if(!p) {
283 (void)mutex_unlock(&main_arena.mutex);
285 malloc_printerr(check_action, "free(): invalid pointer", mem);
286 return;
288 #if HAVE_MMAP
289 if (chunk_is_mmapped(p)) {
290 (void)mutex_unlock(&main_arena.mutex);
291 munmap_chunk(p);
292 return;
294 #endif
295 #if 0 /* Erase freed memory. */
296 memset(mem, 0, chunksize(p) - (SIZE_SZ+1));
297 #endif
298 _int_free(&main_arena, mem);
299 (void)mutex_unlock(&main_arena.mutex);
302 static Void_t*
303 #if __STD_C
304 realloc_check(Void_t* oldmem, size_t bytes, const Void_t *caller)
305 #else
306 realloc_check(oldmem, bytes, caller)
307 Void_t* oldmem; size_t bytes; const Void_t *caller;
308 #endif
310 mchunkptr oldp;
311 INTERNAL_SIZE_T nb, oldsize;
312 Void_t* newmem = 0;
313 unsigned char *magic_p;
315 if (bytes+1 == 0) {
316 MALLOC_FAILURE_ACTION;
317 return NULL;
319 if (oldmem == 0) return malloc_check(bytes, NULL);
320 if (bytes == 0) {
321 free_check (oldmem, NULL);
322 return NULL;
324 (void)mutex_lock(&main_arena.mutex);
325 oldp = mem2chunk_check(oldmem, &magic_p);
326 (void)mutex_unlock(&main_arena.mutex);
327 if(!oldp) {
328 malloc_printerr(check_action, "realloc(): invalid pointer", oldmem);
329 return malloc_check(bytes, NULL);
331 oldsize = chunksize(oldp);
333 checked_request2size(bytes+1, nb);
334 (void)mutex_lock(&main_arena.mutex);
336 #if HAVE_MMAP
337 if (chunk_is_mmapped(oldp)) {
338 #if HAVE_MREMAP
339 mchunkptr newp = mremap_chunk(oldp, nb);
340 if(newp)
341 newmem = chunk2mem(newp);
342 else
343 #endif
345 /* Note the extra SIZE_SZ overhead. */
346 if(oldsize - SIZE_SZ >= nb)
347 newmem = oldmem; /* do nothing */
348 else {
349 /* Must alloc, copy, free. */
350 if (top_check() >= 0)
351 newmem = _int_malloc(&main_arena, bytes+1);
352 if (newmem) {
353 MALLOC_COPY(BOUNDED_N(newmem, bytes+1), oldmem, oldsize - 2*SIZE_SZ);
354 munmap_chunk(oldp);
358 } else {
359 #endif /* HAVE_MMAP */
360 if (top_check() >= 0)
361 newmem = _int_realloc(&main_arena, oldmem, bytes+1);
362 #if 0 /* Erase freed memory. */
363 if(newmem)
364 newp = mem2chunk(newmem);
365 nb = chunksize(newp);
366 if(oldp<newp || oldp>=chunk_at_offset(newp, nb)) {
367 memset((char*)oldmem + 2*sizeof(mbinptr), 0,
368 oldsize - (2*sizeof(mbinptr)+2*SIZE_SZ+1));
369 } else if(nb > oldsize+SIZE_SZ) {
370 memset((char*)BOUNDED_N(chunk2mem(newp), bytes) + oldsize,
371 0, nb - (oldsize+SIZE_SZ));
373 #endif
374 #if HAVE_MMAP
376 #endif
378 /* mem2chunk_check changed the magic byte in the old chunk.
379 If newmem is NULL, then the old chunk will still be used though,
380 so we need to invert that change here. */
381 if (newmem == NULL) *magic_p ^= 0xFF;
383 (void)mutex_unlock(&main_arena.mutex);
385 return mem2mem_check(newmem, bytes);
388 static Void_t*
389 #if __STD_C
390 memalign_check(size_t alignment, size_t bytes, const Void_t *caller)
391 #else
392 memalign_check(alignment, bytes, caller)
393 size_t alignment; size_t bytes; const Void_t *caller;
394 #endif
396 INTERNAL_SIZE_T nb;
397 Void_t* mem;
399 if (alignment <= MALLOC_ALIGNMENT) return malloc_check(bytes, NULL);
400 if (alignment < MINSIZE) alignment = MINSIZE;
402 if (bytes+1 == 0) {
403 MALLOC_FAILURE_ACTION;
404 return NULL;
406 checked_request2size(bytes+1, nb);
407 (void)mutex_lock(&main_arena.mutex);
408 mem = (top_check() >= 0) ? _int_memalign(&main_arena, alignment, bytes+1) :
409 NULL;
410 (void)mutex_unlock(&main_arena.mutex);
411 return mem2mem_check(mem, bytes);
414 #ifndef NO_THREADS
416 # ifdef _LIBC
417 # if USE___THREAD || !defined SHARED
418 /* These routines are never needed in this configuration. */
419 # define NO_STARTER
420 # endif
421 # endif
423 # ifdef NO_STARTER
424 # undef NO_STARTER
425 # else
427 /* The following hooks are used when the global initialization in
428 ptmalloc_init() hasn't completed yet. */
430 static Void_t*
431 #if __STD_C
432 malloc_starter(size_t sz, const Void_t *caller)
433 #else
434 malloc_starter(sz, caller) size_t sz; const Void_t *caller;
435 #endif
437 Void_t* victim;
439 victim = _int_malloc(&main_arena, sz);
441 return victim ? BOUNDED_N(victim, sz) : 0;
444 static Void_t*
445 #if __STD_C
446 memalign_starter(size_t align, size_t sz, const Void_t *caller)
447 #else
448 memalign_starter(align, sz, caller) size_t align, sz; const Void_t *caller;
449 #endif
451 Void_t* victim;
453 victim = _int_memalign(&main_arena, align, sz);
455 return victim ? BOUNDED_N(victim, sz) : 0;
458 static void
459 #if __STD_C
460 free_starter(Void_t* mem, const Void_t *caller)
461 #else
462 free_starter(mem, caller) Void_t* mem; const Void_t *caller;
463 #endif
465 mchunkptr p;
467 if(!mem) return;
468 p = mem2chunk(mem);
469 #if HAVE_MMAP
470 if (chunk_is_mmapped(p)) {
471 munmap_chunk(p);
472 return;
474 #endif
475 _int_free(&main_arena, mem);
478 # endif /* !defiend NO_STARTER */
479 #endif /* NO_THREADS */
482 /* Get/set state: malloc_get_state() records the current state of all
483 malloc variables (_except_ for the actual heap contents and `hook'
484 function pointers) in a system dependent, opaque data structure.
485 This data structure is dynamically allocated and can be free()d
486 after use. malloc_set_state() restores the state of all malloc
487 variables to the previously obtained state. This is especially
488 useful when using this malloc as part of a shared library, and when
489 the heap contents are saved/restored via some other method. The
490 primary example for this is GNU Emacs with its `dumping' procedure.
491 `Hook' function pointers are never saved or restored by these
492 functions, with two exceptions: If malloc checking was in use when
493 malloc_get_state() was called, then malloc_set_state() calls
494 __malloc_check_init() if possible; if malloc checking was not in
495 use in the recorded state but the user requested malloc checking,
496 then the hooks are reset to 0. */
498 #define MALLOC_STATE_MAGIC 0x444c4541l
499 #define MALLOC_STATE_VERSION (0*0x100l + 3l) /* major*0x100 + minor */
501 struct malloc_save_state {
502 long magic;
503 long version;
504 mbinptr av[NBINS * 2 + 2];
505 char* sbrk_base;
506 int sbrked_mem_bytes;
507 unsigned long trim_threshold;
508 unsigned long top_pad;
509 unsigned int n_mmaps_max;
510 unsigned long mmap_threshold;
511 int check_action;
512 unsigned long max_sbrked_mem;
513 unsigned long max_total_mem;
514 unsigned int n_mmaps;
515 unsigned int max_n_mmaps;
516 unsigned long mmapped_mem;
517 unsigned long max_mmapped_mem;
518 int using_malloc_checking;
521 Void_t*
522 public_gET_STATe(void)
524 struct malloc_save_state* ms;
525 int i;
526 mbinptr b;
528 ms = (struct malloc_save_state*)public_mALLOc(sizeof(*ms));
529 if (!ms)
530 return 0;
531 (void)mutex_lock(&main_arena.mutex);
532 malloc_consolidate(&main_arena);
533 ms->magic = MALLOC_STATE_MAGIC;
534 ms->version = MALLOC_STATE_VERSION;
535 ms->av[0] = 0;
536 ms->av[1] = 0; /* used to be binblocks, now no longer used */
537 ms->av[2] = top(&main_arena);
538 ms->av[3] = 0; /* used to be undefined */
539 for(i=1; i<NBINS; i++) {
540 b = bin_at(&main_arena, i);
541 if(first(b) == b)
542 ms->av[2*i+2] = ms->av[2*i+3] = 0; /* empty bin */
543 else {
544 ms->av[2*i+2] = first(b);
545 ms->av[2*i+3] = last(b);
548 ms->sbrk_base = mp_.sbrk_base;
549 ms->sbrked_mem_bytes = main_arena.system_mem;
550 ms->trim_threshold = mp_.trim_threshold;
551 ms->top_pad = mp_.top_pad;
552 ms->n_mmaps_max = mp_.n_mmaps_max;
553 ms->mmap_threshold = mp_.mmap_threshold;
554 ms->check_action = check_action;
555 ms->max_sbrked_mem = main_arena.max_system_mem;
556 #ifdef NO_THREADS
557 ms->max_total_mem = mp_.max_total_mem;
558 #else
559 ms->max_total_mem = 0;
560 #endif
561 ms->n_mmaps = mp_.n_mmaps;
562 ms->max_n_mmaps = mp_.max_n_mmaps;
563 ms->mmapped_mem = mp_.mmapped_mem;
564 ms->max_mmapped_mem = mp_.max_mmapped_mem;
565 ms->using_malloc_checking = using_malloc_checking;
566 (void)mutex_unlock(&main_arena.mutex);
567 return (Void_t*)ms;
571 public_sET_STATe(Void_t* msptr)
573 struct malloc_save_state* ms = (struct malloc_save_state*)msptr;
574 size_t i;
575 mbinptr b;
577 disallow_malloc_check = 1;
578 ptmalloc_init();
579 if(ms->magic != MALLOC_STATE_MAGIC) return -1;
580 /* Must fail if the major version is too high. */
581 if((ms->version & ~0xffl) > (MALLOC_STATE_VERSION & ~0xffl)) return -2;
582 (void)mutex_lock(&main_arena.mutex);
583 /* There are no fastchunks. */
584 clear_fastchunks(&main_arena);
585 set_max_fast(DEFAULT_MXFAST);
586 for (i=0; i<NFASTBINS; ++i)
587 main_arena.fastbins[i] = 0;
588 for (i=0; i<BINMAPSIZE; ++i)
589 main_arena.binmap[i] = 0;
590 top(&main_arena) = ms->av[2];
591 main_arena.last_remainder = 0;
592 for(i=1; i<NBINS; i++) {
593 b = bin_at(&main_arena, i);
594 if(ms->av[2*i+2] == 0) {
595 assert(ms->av[2*i+3] == 0);
596 first(b) = last(b) = b;
597 } else {
598 if(ms->version >= 3 &&
599 (i<NSMALLBINS || (largebin_index(chunksize(ms->av[2*i+2]))==i &&
600 largebin_index(chunksize(ms->av[2*i+3]))==i))) {
601 first(b) = ms->av[2*i+2];
602 last(b) = ms->av[2*i+3];
603 /* Make sure the links to the bins within the heap are correct. */
604 first(b)->bk = b;
605 last(b)->fd = b;
606 /* Set bit in binblocks. */
607 mark_bin(&main_arena, i);
608 } else {
609 /* Oops, index computation from chunksize must have changed.
610 Link the whole list into unsorted_chunks. */
611 first(b) = last(b) = b;
612 b = unsorted_chunks(&main_arena);
613 ms->av[2*i+2]->bk = b;
614 ms->av[2*i+3]->fd = b->fd;
615 b->fd->bk = ms->av[2*i+3];
616 b->fd = ms->av[2*i+2];
620 if (ms->version < 3) {
621 /* Clear fd_nextsize and bk_nextsize fields. */
622 b = unsorted_chunks(&main_arena)->fd;
623 while (b != unsorted_chunks(&main_arena)) {
624 if (!in_smallbin_range(chunksize(b))) {
625 b->fd_nextsize = NULL;
626 b->bk_nextsize = NULL;
628 b = b->fd;
631 mp_.sbrk_base = ms->sbrk_base;
632 main_arena.system_mem = ms->sbrked_mem_bytes;
633 mp_.trim_threshold = ms->trim_threshold;
634 mp_.top_pad = ms->top_pad;
635 mp_.n_mmaps_max = ms->n_mmaps_max;
636 mp_.mmap_threshold = ms->mmap_threshold;
637 check_action = ms->check_action;
638 main_arena.max_system_mem = ms->max_sbrked_mem;
639 #ifdef NO_THREADS
640 mp_.max_total_mem = ms->max_total_mem;
641 #endif
642 mp_.n_mmaps = ms->n_mmaps;
643 mp_.max_n_mmaps = ms->max_n_mmaps;
644 mp_.mmapped_mem = ms->mmapped_mem;
645 mp_.max_mmapped_mem = ms->max_mmapped_mem;
646 /* add version-dependent code here */
647 if (ms->version >= 1) {
648 /* Check whether it is safe to enable malloc checking, or whether
649 it is necessary to disable it. */
650 if (ms->using_malloc_checking && !using_malloc_checking &&
651 !disallow_malloc_check)
652 __malloc_check_init ();
653 else if (!ms->using_malloc_checking && using_malloc_checking) {
654 __malloc_hook = 0;
655 __free_hook = 0;
656 __realloc_hook = 0;
657 __memalign_hook = 0;
658 using_malloc_checking = 0;
661 check_malloc_state(&main_arena);
663 (void)mutex_unlock(&main_arena.mutex);
664 return 0;
668 * Local variables:
669 * c-basic-offset: 2
670 * End: