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author | Ulrich Drepper <drepper@redhat.com> | 2009-08-31 04:55:10 -0700 |
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committer | Ulrich Drepper <drepper@redhat.com> | 2009-08-31 04:55:10 -0700 |
commit | 72f9026327c109c3d72b4f17ee0afc8b4e2d6f00 (patch) | |
tree | 1847a542bfe57e7c9aa4259ed5510272e2fe7c06 /malloc/malloc.c | |
parent | 7812c65b908916f34161e41a76114004d0fcebb3 (diff) | |
download | glibc-72f9026327c109c3d72b4f17ee0afc8b4e2d6f00.tar.gz glibc-72f9026327c109c3d72b4f17ee0afc8b4e2d6f00.tar.xz glibc-72f9026327c109c3d72b4f17ee0afc8b4e2d6f00.zip |
Add local assert function to avoid problems with memory allocation in
the real one.
Diffstat (limited to 'malloc/malloc.c')
-rw-r--r-- | malloc/malloc.c | 900 |
1 files changed, 461 insertions, 439 deletions
diff --git a/malloc/malloc.c b/malloc/malloc.c index a459a2b89d..79ba6b6f06 100644 --- a/malloc/malloc.c +++ b/malloc/malloc.c @@ -107,7 +107,7 @@ and status information. Minimum allocated size: 4-byte ptrs: 16 bytes (including 4 overhead) - 8-byte ptrs: 24/32 bytes (including, 4/8 overhead) + 8-byte ptrs: 24/32 bytes (including, 4/8 overhead) When a chunk is freed, 12 (for 4byte ptrs) or 20 (for 8 byte ptrs but 4 byte size) or 24 (for 8/8) additional bytes are @@ -126,7 +126,7 @@ minimal mmap unit); typically 4096 or 8192 bytes. Maximum allocated size: 4-byte size_t: 2^32 minus about two pages - 8-byte size_t: 2^64 minus about two pages + 8-byte size_t: 2^64 minus about two pages It is assumed that (possibly signed) size_t values suffice to represent chunk sizes. `Possibly signed' is due to the fact @@ -329,7 +329,29 @@ extern "C" { or other mallocs available that do this. */ -#include <assert.h> +#ifdef NDEBUG +# define assert(expr) ((void) 0) +#else +# define assert(expr) \ + ((expr) \ + ? ((void) 0) \ + : __malloc_assert (__STRING (expr), __FILE__, __LINE__, __func__)) + +extern const char *__progname; + +static void +__malloc_assert (const char *assertion, const char *file, unsigned int line, + const char *function) +{ + (void) __fxprintf (NULL, "%s%s%s:%u: %s%sAssertion `%s' failed.\n", + __progname, __progname[0] ? ": " : "", + file, line, + function ? function : "", function ? ": " : "", + assertion); + fflush (stderr); + abort (); +} +#endif /* @@ -1000,17 +1022,17 @@ int public_mALLOPt(); arena: current total non-mmapped bytes allocated from system ordblks: the number of free chunks smblks: the number of fastbin blocks (i.e., small chunks that - have been freed but not use resused or consolidated) + have been freed but not use resused or consolidated) hblks: current number of mmapped regions hblkhd: total bytes held in mmapped regions usmblks: the maximum total allocated space. This will be greater - than current total if trimming has occurred. + than current total if trimming has occurred. fsmblks: total bytes held in fastbin blocks uordblks: current total allocated space (normal or mmapped) fordblks: total free space keepcost: the maximum number of bytes that could ideally be released - back to system via malloc_trim. ("ideally" means that - it ignores page restrictions etc.) + back to system via malloc_trim. ("ideally" means that + it ignores page restrictions etc.) Because these fields are ints, but internal bookkeeping may be kept as longs, the reported values may wrap around zero and @@ -1817,17 +1839,17 @@ struct malloc_chunk { chunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Size of previous chunk, if allocated | | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Size of chunk, in bytes |M|P| + | Size of previous chunk, if allocated | | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of chunk, in bytes |M|P| mem-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | User data starts here... . - . . - . (malloc_usable_size() bytes) . - . | + | User data starts here... . + . . + . (malloc_usable_size() bytes) . + . | nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Size of chunk | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of chunk | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Where "chunk" is the front of the chunk for the purpose of most of @@ -1841,20 +1863,20 @@ nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Free chunks are stored in circular doubly-linked lists, and look like this: chunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Size of previous chunk | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of previous chunk | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ `head:' | Size of chunk, in bytes |P| mem-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Forward pointer to next chunk in list | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Back pointer to previous chunk in list | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ - | Unused space (may be 0 bytes long) . - . . - . | + | Forward pointer to next chunk in list | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Back pointer to previous chunk in list | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Unused space (may be 0 bytes long) . + . . + . | nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ `foot:' | Size of chunk, in bytes | - +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ The P (PREV_INUSE) bit, stored in the unused low-order bit of the chunk size (which is always a multiple of two words), is an in-use @@ -1875,14 +1897,14 @@ nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ The two exceptions to all this are 1. The special chunk `top' doesn't bother using the - trailing size field since there is no next contiguous chunk - that would have to index off it. After initialization, `top' - is forced to always exist. If it would become less than - MINSIZE bytes long, it is replenished. + trailing size field since there is no next contiguous chunk + that would have to index off it. After initialization, `top' + is forced to always exist. If it would become less than + MINSIZE bytes long, it is replenished. 2. Chunks allocated via mmap, which have the second-lowest-order - bit M (IS_MMAPPED) set in their size fields. Because they are - allocated one-by-one, each must contain its own trailing size field. + bit M (IS_MMAPPED) set in their size fields. Because they are + allocated one-by-one, each must contain its own trailing size field. */ @@ -2155,7 +2177,7 @@ typedef struct malloc_chunk* mbinptr; ((((unsigned long)(sz)) >> 12) <= 10)? 110 + (((unsigned long)(sz)) >> 12): \ ((((unsigned long)(sz)) >> 15) <= 4)? 119 + (((unsigned long)(sz)) >> 15): \ ((((unsigned long)(sz)) >> 18) <= 2)? 124 + (((unsigned long)(sz)) >> 18): \ - 126) + 126) // XXX It remains to be seen whether it is good to keep the widths of // XXX the buckets the same or whether it should be scaled by a factor @@ -2166,7 +2188,7 @@ typedef struct malloc_chunk* mbinptr; ((((unsigned long)(sz)) >> 12) <= 10)? 110 + (((unsigned long)(sz)) >> 12): \ ((((unsigned long)(sz)) >> 15) <= 4)? 119 + (((unsigned long)(sz)) >> 15): \ ((((unsigned long)(sz)) >> 18) <= 2)? 124 + (((unsigned long)(sz)) >> 18): \ - 126) + 126) #define largebin_index(sz) \ (SIZE_SZ == 8 ? largebin_index_64 (sz) : largebin_index_32 (sz)) @@ -2592,8 +2614,8 @@ static void do_check_chunk(av, p) mstate av; mchunkptr p; /* Has legal address ... */ if (p != av->top) { if (contiguous(av)) { - assert(((char*)p) >= min_address); - assert(((char*)p + sz) <= ((char*)(av->top))); + assert(((char*)p) >= min_address); + assert(((char*)p + sz) <= ((char*)(av->top))); } } else { @@ -2850,9 +2872,9 @@ static void do_check_malloc_state(mstate av) unsigned int binbit = get_binmap(av,i); int empty = last(b) == b; if (!binbit) - assert(empty); + assert(empty); else if (!empty) - assert(binbit); + assert(binbit); } for (p = last(b); p != b; p = p->bk) { @@ -2861,12 +2883,12 @@ static void do_check_malloc_state(mstate av) size = chunksize(p); total += size; if (i >= 2) { - /* chunk belongs in bin */ - idx = bin_index(size); - assert(idx == i); - /* lists are sorted */ - assert(p->bk == b || - (unsigned long)chunksize(p->bk) >= (unsigned long)chunksize(p)); + /* chunk belongs in bin */ + idx = bin_index(size); + assert(idx == i); + /* lists are sorted */ + assert(p->bk == b || + (unsigned long)chunksize(p->bk) >= (unsigned long)chunksize(p)); if (!in_smallbin_range(size)) { @@ -2894,10 +2916,10 @@ static void do_check_malloc_state(mstate av) assert (p->fd_nextsize == NULL && p->bk_nextsize == NULL); /* chunk is followed by a legal chain of inuse chunks */ for (q = next_chunk(p); - (q != av->top && inuse(q) && - (unsigned long)(chunksize(q)) >= MINSIZE); - q = next_chunk(q)) - do_check_inuse_chunk(av, q); + (q != av->top && inuse(q) && + (unsigned long)(chunksize(q)) >= MINSIZE); + q = next_chunk(q)) + do_check_inuse_chunk(av, q); } } @@ -2913,14 +2935,14 @@ static void do_check_malloc_state(mstate av) assert(mp_.n_mmaps <= mp_.max_n_mmaps); assert((unsigned long)(av->system_mem) <= - (unsigned long)(av->max_system_mem)); + (unsigned long)(av->max_system_mem)); assert((unsigned long)(mp_.mmapped_mem) <= - (unsigned long)(mp_.max_mmapped_mem)); + (unsigned long)(mp_.max_mmapped_mem)); #ifdef NO_THREADS assert((unsigned long)(mp_.max_total_mem) >= - (unsigned long)(mp_.mmapped_mem) + (unsigned long)(av->system_mem)); + (unsigned long)(mp_.mmapped_mem) + (unsigned long)(av->system_mem)); #endif } #endif @@ -3005,51 +3027,51 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; if (mm != MAP_FAILED) { - /* - The offset to the start of the mmapped region is stored - in the prev_size field of the chunk. This allows us to adjust - returned start address to meet alignment requirements here - and in memalign(), and still be able to compute proper - address argument for later munmap in free() and realloc(). - */ + /* + The offset to the start of the mmapped region is stored + in the prev_size field of the chunk. This allows us to adjust + returned start address to meet alignment requirements here + and in memalign(), and still be able to compute proper + address argument for later munmap in free() and realloc(). + */ #if 1 /* For glibc, chunk2mem increases the address by 2*SIZE_SZ and MALLOC_ALIGN_MASK is 2*SIZE_SZ-1. Each mmap'ed area is page aligned and therefore definitely MALLOC_ALIGN_MASK-aligned. */ - assert (((INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK) == 0); + assert (((INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK) == 0); #else - front_misalign = (INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK; - if (front_misalign > 0) { - correction = MALLOC_ALIGNMENT - front_misalign; - p = (mchunkptr)(mm + correction); - p->prev_size = correction; - set_head(p, (size - correction) |IS_MMAPPED); - } - else + front_misalign = (INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK; + if (front_misalign > 0) { + correction = MALLOC_ALIGNMENT - front_misalign; + p = (mchunkptr)(mm + correction); + p->prev_size = correction; + set_head(p, (size - correction) |IS_MMAPPED); + } + else #endif { p = (mchunkptr)mm; set_head(p, size|IS_MMAPPED); } - /* update statistics */ + /* update statistics */ - if (++mp_.n_mmaps > mp_.max_n_mmaps) - mp_.max_n_mmaps = mp_.n_mmaps; + if (++mp_.n_mmaps > mp_.max_n_mmaps) + mp_.max_n_mmaps = mp_.n_mmaps; - sum = mp_.mmapped_mem += size; - if (sum > (unsigned long)(mp_.max_mmapped_mem)) - mp_.max_mmapped_mem = sum; + sum = mp_.mmapped_mem += size; + if (sum > (unsigned long)(mp_.max_mmapped_mem)) + mp_.max_mmapped_mem = sum; #ifdef NO_THREADS - sum += av->system_mem; - if (sum > (unsigned long)(mp_.max_total_mem)) - mp_.max_total_mem = sum; + sum += av->system_mem; + if (sum > (unsigned long)(mp_.max_total_mem)) + mp_.max_total_mem = sum; #endif - check_chunk(av, p); + check_chunk(av, p); - return chunk2mem(p); + return chunk2mem(p); } } } @@ -3069,8 +3091,8 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; */ assert((old_top == initial_top(av) && old_size == 0) || - ((unsigned long) (old_size) >= MINSIZE && - prev_inuse(old_top) && + ((unsigned long) (old_size) >= MINSIZE && + prev_inuse(old_top) && ((unsigned long)old_end & pagemask) == 0)); /* Precondition: not enough current space to satisfy nb request */ @@ -3096,7 +3118,7 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; arena_mem += old_heap->size - old_heap_size; #if 0 if(mmapped_mem + arena_mem + sbrked_mem > max_total_mem) - max_total_mem = mmapped_mem + arena_mem + sbrked_mem; + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; #endif set_head(old_top, (((char *)old_heap + old_heap->size) - (char *)old_top) | PREV_INUSE); @@ -3205,17 +3227,17 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; if (mbrk != MAP_FAILED) { - /* We do not need, and cannot use, another sbrk call to find end */ - brk = mbrk; - snd_brk = brk + size; - - /* - Record that we no longer have a contiguous sbrk region. - After the first time mmap is used as backup, we do not - ever rely on contiguous space since this could incorrectly - bridge regions. - */ - set_noncontiguous(av); + /* We do not need, and cannot use, another sbrk call to find end */ + brk = mbrk; + snd_brk = brk + size; + + /* + Record that we no longer have a contiguous sbrk region. + After the first time mmap is used as backup, we do not + ever rely on contiguous space since this could incorrectly + bridge regions. + */ + set_noncontiguous(av); } } #endif @@ -3242,19 +3264,19 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; Otherwise, make adjustments: * If the first time through or noncontiguous, we need to call sbrk - just to find out where the end of memory lies. + just to find out where the end of memory lies. * We need to ensure that all returned chunks from malloc will meet - MALLOC_ALIGNMENT + MALLOC_ALIGNMENT * If there was an intervening foreign sbrk, we need to adjust sbrk - request size to account for fact that we will not be able to - combine new space with existing space in old_top. + request size to account for fact that we will not be able to + combine new space with existing space in old_top. * Almost all systems internally allocate whole pages at a time, in - which case we might as well use the whole last page of request. - So we allocate enough more memory to hit a page boundary now, - which in turn causes future contiguous calls to page-align. + which case we might as well use the whole last page of request. + So we allocate enough more memory to hit a page boundary now, + which in turn causes future contiguous calls to page-align. */ else { @@ -3270,51 +3292,51 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; if (old_size) av->system_mem += brk - old_end; - /* Guarantee alignment of first new chunk made from this space */ + /* Guarantee alignment of first new chunk made from this space */ - front_misalign = (INTERNAL_SIZE_T)chunk2mem(brk) & MALLOC_ALIGN_MASK; - if (front_misalign > 0) { + front_misalign = (INTERNAL_SIZE_T)chunk2mem(brk) & MALLOC_ALIGN_MASK; + if (front_misalign > 0) { - /* - Skip over some bytes to arrive at an aligned position. - We don't need to specially mark these wasted front bytes. - They will never be accessed anyway because - prev_inuse of av->top (and any chunk created from its start) - is always true after initialization. - */ + /* + Skip over some bytes to arrive at an aligned position. + We don't need to specially mark these wasted front bytes. + They will never be accessed anyway because + prev_inuse of av->top (and any chunk created from its start) + is always true after initialization. + */ - correction = MALLOC_ALIGNMENT - front_misalign; - aligned_brk += correction; - } + correction = MALLOC_ALIGNMENT - front_misalign; + aligned_brk += correction; + } - /* - If this isn't adjacent to existing space, then we will not - be able to merge with old_top space, so must add to 2nd request. - */ + /* + If this isn't adjacent to existing space, then we will not + be able to merge with old_top space, so must add to 2nd request. + */ - correction += old_size; + correction += old_size; - /* Extend the end address to hit a page boundary */ - end_misalign = (INTERNAL_SIZE_T)(brk + size + correction); - correction += ((end_misalign + pagemask) & ~pagemask) - end_misalign; + /* Extend the end address to hit a page boundary */ + end_misalign = (INTERNAL_SIZE_T)(brk + size + correction); + correction += ((end_misalign + pagemask) & ~pagemask) - end_misalign; - assert(correction >= 0); - snd_brk = (char*)(MORECORE(correction)); + assert(correction >= 0); + snd_brk = (char*)(MORECORE(correction)); - /* - If can't allocate correction, try to at least find out current - brk. It might be enough to proceed without failing. + /* + If can't allocate correction, try to at least find out current + brk. It might be enough to proceed without failing. - Note that if second sbrk did NOT fail, we assume that space - is contiguous with first sbrk. This is a safe assumption unless - program is multithreaded but doesn't use locks and a foreign sbrk - occurred between our first and second calls. - */ + Note that if second sbrk did NOT fail, we assume that space + is contiguous with first sbrk. This is a safe assumption unless + program is multithreaded but doesn't use locks and a foreign sbrk + occurred between our first and second calls. + */ - if (snd_brk == (char*)(MORECORE_FAILURE)) { - correction = 0; - snd_brk = (char*)(MORECORE(0)); - } else { + if (snd_brk == (char*)(MORECORE_FAILURE)) { + correction = 0; + snd_brk = (char*)(MORECORE(0)); + } else { /* Call the `morecore' hook if necessary. */ void (*hook) (void) = force_reg (__after_morecore_hook); if (__builtin_expect (hook != NULL, 0)) @@ -3324,61 +3346,61 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; /* handle non-contiguous cases */ else { - /* MORECORE/mmap must correctly align */ - assert(((unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK) == 0); + /* MORECORE/mmap must correctly align */ + assert(((unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK) == 0); - /* Find out current end of memory */ - if (snd_brk == (char*)(MORECORE_FAILURE)) { - snd_brk = (char*)(MORECORE(0)); - } + /* Find out current end of memory */ + if (snd_brk == (char*)(MORECORE_FAILURE)) { + snd_brk = (char*)(MORECORE(0)); + } } /* Adjust top based on results of second sbrk */ if (snd_brk != (char*)(MORECORE_FAILURE)) { - av->top = (mchunkptr)aligned_brk; - set_head(av->top, (snd_brk - aligned_brk + correction) | PREV_INUSE); - av->system_mem += correction; - - /* - If not the first time through, we either have a - gap due to foreign sbrk or a non-contiguous region. Insert a - double fencepost at old_top to prevent consolidation with space - we don't own. These fenceposts are artificial chunks that are - marked as inuse and are in any case too small to use. We need - two to make sizes and alignments work out. - */ - - if (old_size != 0) { - /* - Shrink old_top to insert fenceposts, keeping size a - multiple of MALLOC_ALIGNMENT. We know there is at least - enough space in old_top to do this. - */ - old_size = (old_size - 4*SIZE_SZ) & ~MALLOC_ALIGN_MASK; - set_head(old_top, old_size | PREV_INUSE); - - /* - Note that the following assignments completely overwrite - old_top when old_size was previously MINSIZE. This is - intentional. We need the fencepost, even if old_top otherwise gets - lost. - */ - chunk_at_offset(old_top, old_size )->size = - (2*SIZE_SZ)|PREV_INUSE; - - chunk_at_offset(old_top, old_size + 2*SIZE_SZ)->size = - (2*SIZE_SZ)|PREV_INUSE; - - /* If possible, release the rest. */ - if (old_size >= MINSIZE) { + av->top = (mchunkptr)aligned_brk; + set_head(av->top, (snd_brk - aligned_brk + correction) | PREV_INUSE); + av->system_mem += correction; + + /* + If not the first time through, we either have a + gap due to foreign sbrk or a non-contiguous region. Insert a + double fencepost at old_top to prevent consolidation with space + we don't own. These fenceposts are artificial chunks that are + marked as inuse and are in any case too small to use. We need + two to make sizes and alignments work out. + */ + + if (old_size != 0) { + /* + Shrink old_top to insert fenceposts, keeping size a + multiple of MALLOC_ALIGNMENT. We know there is at least + enough space in old_top to do this. + */ + old_size = (old_size - 4*SIZE_SZ) & ~MALLOC_ALIGN_MASK; + set_head(old_top, old_size | PREV_INUSE); + + /* + Note that the following assignments completely overwrite + old_top when old_size was previously MINSIZE. This is + intentional. We need the fencepost, even if old_top otherwise gets + lost. + */ + chunk_at_offset(old_top, old_size )->size = + (2*SIZE_SZ)|PREV_INUSE; + + chunk_at_offset(old_top, old_size + 2*SIZE_SZ)->size = + (2*SIZE_SZ)|PREV_INUSE; + + /* If possible, release the rest. */ + if (old_size >= MINSIZE) { #ifdef ATOMIC_FASTBINS - _int_free(av, old_top, 1); + _int_free(av, old_top, 1); #else - _int_free(av, old_top); + _int_free(av, old_top); #endif - } + } - } + } } } @@ -3456,13 +3478,13 @@ static int sYSTRIm(pad, av) size_t pad; mstate av; if (current_brk == (char*)(av->top) + top_size) { /* - Attempt to release memory. We ignore MORECORE return value, - and instead call again to find out where new end of memory is. - This avoids problems if first call releases less than we asked, - of if failure somehow altered brk value. (We could still - encounter problems if it altered brk in some very bad way, - but the only thing we can do is adjust anyway, which will cause - some downstream failure.) + Attempt to release memory. We ignore MORECORE return value, + and instead call again to find out where new end of memory is. + This avoids problems if first call releases less than we asked, + of if failure somehow altered brk value. (We could still + encounter problems if it altered brk in some very bad way, + but the only thing we can do is adjust anyway, which will cause + some downstream failure.) */ MORECORE(-extra); @@ -3473,15 +3495,15 @@ static int sYSTRIm(pad, av) size_t pad; mstate av; new_brk = (char*)(MORECORE(0)); if (new_brk != (char*)MORECORE_FAILURE) { - released = (long)(current_brk - new_brk); - - if (released != 0) { - /* Success. Adjust top. */ - av->system_mem -= released; - set_head(av->top, (top_size - released) | PREV_INUSE); - check_malloc_state(av); - return 1; - } + released = (long)(current_brk - new_brk); + + if (released != 0) { + /* Success. Adjust top. */ + av->system_mem -= released; + set_head(av->top, (top_size - released) | PREV_INUSE); + check_malloc_state(av); + return 1; + } } } } @@ -3559,7 +3581,7 @@ mremap_chunk(p, new_size) mchunkptr p; size_t new_size; return p; cp = (char *)mremap((char *)p - offset, size + offset, new_size, - MREMAP_MAYMOVE); + MREMAP_MAYMOVE); if (cp == MAP_FAILED) return 0; @@ -3650,8 +3672,8 @@ public_mALLOc(size_t bytes) ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes); (void)mutex_unlock(&main_arena.mutex); if(ar_ptr) { - victim = _int_malloc(ar_ptr, bytes); - (void)mutex_unlock(&ar_ptr->mutex); + victim = _int_malloc(ar_ptr, bytes); + (void)mutex_unlock(&ar_ptr->mutex); } #endif } @@ -3689,7 +3711,7 @@ public_fREe(Void_t* mem) /* see if the dynamic brk/mmap threshold needs adjusting */ if (!mp_.no_dyn_threshold && p->size > mp_.mmap_threshold - && p->size <= DEFAULT_MMAP_THRESHOLD_MAX) + && p->size <= DEFAULT_MMAP_THRESHOLD_MAX) { mp_.mmap_threshold = chunksize (p); mp_.trim_threshold = 2 * mp_.mmap_threshold; @@ -3871,8 +3893,8 @@ public_mEMALIGn(size_t alignment, size_t bytes) (void)mutex_unlock(&ar_ptr->mutex); ar_ptr = arena_get2(prev, bytes); if(ar_ptr) { - p = _int_memalign(ar_ptr, alignment, bytes); - (void)mutex_unlock(&ar_ptr->mutex); + p = _int_memalign(ar_ptr, alignment, bytes); + (void)mutex_unlock(&ar_ptr->mutex); } #endif } @@ -3919,8 +3941,8 @@ public_vALLOc(size_t bytes) /* ... or sbrk() has failed and there is still a chance to mmap() */ ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes); if(ar_ptr) { - p = _int_memalign(ar_ptr, pagesz, bytes); - (void)mutex_unlock(&ar_ptr->mutex); + p = _int_memalign(ar_ptr, pagesz, bytes); + (void)mutex_unlock(&ar_ptr->mutex); } #endif } @@ -3965,8 +3987,8 @@ public_pVALLOc(size_t bytes) ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes + 2*pagesz + MINSIZE); if(ar_ptr) { - p = _int_memalign(ar_ptr, pagesz, rounded_bytes); - (void)mutex_unlock(&ar_ptr->mutex); + p = _int_memalign(ar_ptr, pagesz, rounded_bytes); + (void)mutex_unlock(&ar_ptr->mutex); } #endif } @@ -4059,8 +4081,8 @@ public_cALLOc(size_t n, size_t elem_size) av = arena_get2(av->next ? av : 0, sz); (void)mutex_unlock(&main_arena.mutex); if(av) { - mem = _int_malloc(av, sz); - (void)mutex_unlock(&av->mutex); + mem = _int_malloc(av, sz); + (void)mutex_unlock(&av->mutex); } #endif } @@ -4308,21 +4330,21 @@ _int_malloc(mstate av, size_t bytes) if ( (victim = last(bin)) != bin) { if (victim == 0) /* initialization check */ - malloc_consolidate(av); + malloc_consolidate(av); else { - bck = victim->bk; + bck = victim->bk; if (__builtin_expect (bck->fd != victim, 0)) { errstr = "malloc(): smallbin double linked list corrupted"; goto errout; } - set_inuse_bit_at_offset(victim, nb); - bin->bk = bck; - bck->fd = bin; + set_inuse_bit_at_offset(victim, nb); + bin->bk = bck; + bck->fd = bin; - if (av != &main_arena) + if (av != &main_arena) victim->size |= NON_MAIN_ARENA; - check_malloced_chunk(av, victim, nb); + check_malloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) alloc_perturb (p, bytes); @@ -4373,36 +4395,36 @@ _int_malloc(mstate av, size_t bytes) size = chunksize(victim); /* - If a small request, try to use last remainder if it is the - only chunk in unsorted bin. This helps promote locality for - runs of consecutive small requests. This is the only - exception to best-fit, and applies only when there is - no exact fit for a small chunk. + If a small request, try to use last remainder if it is the + only chunk in unsorted bin. This helps promote locality for + runs of consecutive small requests. This is the only + exception to best-fit, and applies only when there is + no exact fit for a small chunk. */ if (in_smallbin_range(nb) && - bck == unsorted_chunks(av) && - victim == av->last_remainder && - (unsigned long)(size) > (unsigned long)(nb + MINSIZE)) { - - /* split and reattach remainder */ - remainder_size = size - nb; - remainder = chunk_at_offset(victim, nb); - unsorted_chunks(av)->bk = unsorted_chunks(av)->fd = remainder; - av->last_remainder = remainder; - remainder->bk = remainder->fd = unsorted_chunks(av); + bck == unsorted_chunks(av) && + victim == av->last_remainder && + (unsigned long)(size) > (unsigned long)(nb + MINSIZE)) { + + /* split and reattach remainder */ + remainder_size = size - nb; + remainder = chunk_at_offset(victim, nb); + unsorted_chunks(av)->bk = unsorted_chunks(av)->fd = remainder; + av->last_remainder = remainder; + remainder->bk = remainder->fd = unsorted_chunks(av); if (!in_smallbin_range(remainder_size)) { remainder->fd_nextsize = NULL; remainder->bk_nextsize = NULL; } - set_head(victim, nb | PREV_INUSE | + set_head(victim, nb | PREV_INUSE | (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_head(remainder, remainder_size | PREV_INUSE); - set_foot(remainder, remainder_size); + set_head(remainder, remainder_size | PREV_INUSE); + set_foot(remainder, remainder_size); - check_malloced_chunk(av, victim, nb); + check_malloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) alloc_perturb (p, bytes); @@ -4416,10 +4438,10 @@ _int_malloc(mstate av, size_t bytes) /* Take now instead of binning if exact fit */ if (size == nb) { - set_inuse_bit_at_offset(victim, size); + set_inuse_bit_at_offset(victim, size); if (av != &main_arena) victim->size |= NON_MAIN_ARENA; - check_malloced_chunk(av, victim, nb); + check_malloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) alloc_perturb (p, bytes); @@ -4429,30 +4451,30 @@ _int_malloc(mstate av, size_t bytes) /* place chunk in bin */ if (in_smallbin_range(size)) { - victim_index = smallbin_index(size); - bck = bin_at(av, victim_index); - fwd = bck->fd; + victim_index = smallbin_index(size); + bck = bin_at(av, victim_index); + fwd = bck->fd; } else { - victim_index = largebin_index(size); - bck = bin_at(av, victim_index); - fwd = bck->fd; + victim_index = largebin_index(size); + bck = bin_at(av, victim_index); + fwd = bck->fd; - /* maintain large bins in sorted order */ - if (fwd != bck) { + /* maintain large bins in sorted order */ + if (fwd != bck) { /* Or with inuse bit to speed comparisons */ - size |= PREV_INUSE; - /* if smaller than smallest, bypass loop below */ + size |= PREV_INUSE; + /* if smaller than smallest, bypass loop below */ assert((bck->bk->size & NON_MAIN_ARENA) == 0); if ((unsigned long)(size) < (unsigned long)(bck->bk->size)) { - fwd = bck; - bck = bck->bk; + fwd = bck; + bck = bck->bk; victim->fd_nextsize = fwd->fd; victim->bk_nextsize = fwd->fd->bk_nextsize; fwd->fd->bk_nextsize = victim->bk_nextsize->fd_nextsize = victim; - } - else { + } + else { assert((fwd->size & NON_MAIN_ARENA) == 0); while ((unsigned long) size < fwd->size) { @@ -4471,7 +4493,7 @@ _int_malloc(mstate av, size_t bytes) victim->bk_nextsize->fd_nextsize = victim; } bck = fwd->bk; - } + } } else victim->fd_nextsize = victim->bk_nextsize = victim; } @@ -4497,32 +4519,32 @@ _int_malloc(mstate av, size_t bytes) /* skip scan if empty or largest chunk is too small */ if ((victim = first(bin)) != bin && - (unsigned long)(victim->size) >= (unsigned long)(nb)) { + (unsigned long)(victim->size) >= (unsigned long)(nb)) { victim = victim->bk_nextsize; - while (((unsigned long)(size = chunksize(victim)) < - (unsigned long)(nb))) - victim = victim->bk_nextsize; + while (((unsigned long)(size = chunksize(victim)) < + (unsigned long)(nb))) + victim = victim->bk_nextsize; /* Avoid removing the first entry for a size so that the skip list does not have to be rerouted. */ if (victim != last(bin) && victim->size == victim->fd->size) victim = victim->fd; - remainder_size = size - nb; - unlink(victim, bck, fwd); + remainder_size = size - nb; + unlink(victim, bck, fwd); - /* Exhaust */ - if (remainder_size < MINSIZE) { - set_inuse_bit_at_offset(victim, size); + /* Exhaust */ + if (remainder_size < MINSIZE) { + set_inuse_bit_at_offset(victim, size); if (av != &main_arena) victim->size |= NON_MAIN_ARENA; - } - /* Split */ - else { - remainder = chunk_at_offset(victim, nb); - /* We cannot assume the unsorted list is empty and therefore - have to perform a complete insert here. */ + } + /* Split */ + else { + remainder = chunk_at_offset(victim, nb); + /* We cannot assume the unsorted list is empty and therefore + have to perform a complete insert here. */ bck = unsorted_chunks(av); fwd = bck->fd; if (__builtin_expect (fwd->bk != bck, 0)) @@ -4539,11 +4561,11 @@ _int_malloc(mstate av, size_t bytes) remainder->fd_nextsize = NULL; remainder->bk_nextsize = NULL; } - set_head(victim, nb | PREV_INUSE | + set_head(victim, nb | PREV_INUSE | (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_head(remainder, remainder_size | PREV_INUSE); - set_foot(remainder, remainder_size); - } + set_head(remainder, remainder_size | PREV_INUSE); + set_foot(remainder, remainder_size); + } check_malloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) @@ -4573,20 +4595,20 @@ _int_malloc(mstate av, size_t bytes) /* Skip rest of block if there are no more set bits in this block. */ if (bit > map || bit == 0) { - do { - if (++block >= BINMAPSIZE) /* out of bins */ - goto use_top; - } while ( (map = av->binmap[block]) == 0); + do { + if (++block >= BINMAPSIZE) /* out of bins */ + goto use_top; + } while ( (map = av->binmap[block]) == 0); - bin = bin_at(av, (block << BINMAPSHIFT)); - bit = 1; + bin = bin_at(av, (block << BINMAPSHIFT)); + bit = 1; } /* Advance to bin with set bit. There must be one. */ while ((bit & map) == 0) { - bin = next_bin(bin); - bit <<= 1; - assert(bit != 0); + bin = next_bin(bin); + bit <<= 1; + assert(bit != 0); } /* Inspect the bin. It is likely to be non-empty */ @@ -4594,32 +4616,32 @@ _int_malloc(mstate av, size_t bytes) /* If a false alarm (empty bin), clear the bit. */ if (victim == bin) { - av->binmap[block] = map &= ~bit; /* Write through */ - bin = next_bin(bin); - bit <<= 1; + av->binmap[block] = map &= ~bit; /* Write through */ + bin = next_bin(bin); + bit <<= 1; } else { - size = chunksize(victim); + size = chunksize(victim); - /* We know the first chunk in this bin is big enough to use. */ - assert((unsigned long)(size) >= (unsigned long)(nb)); + /* We know the first chunk in this bin is big enough to use. */ + assert((unsigned long)(size) >= (unsigned long)(nb)); - remainder_size = size - nb; + remainder_size = size - nb; - /* unlink */ - unlink(victim, bck, fwd); + /* unlink */ + unlink(victim, bck, fwd); - /* Exhaust */ - if (remainder_size < MINSIZE) { - set_inuse_bit_at_offset(victim, size); + /* Exhaust */ + if (remainder_size < MINSIZE) { + set_inuse_bit_at_offset(victim, size); if (av != &main_arena) victim->size |= NON_MAIN_ARENA; - } + } - /* Split */ - else { - remainder = chunk_at_offset(victim, nb); + /* Split */ + else { + remainder = chunk_at_offset(victim, nb); /* We cannot assume the unsorted list is empty and therefore have to perform a complete insert here. */ @@ -4635,19 +4657,19 @@ _int_malloc(mstate av, size_t bytes) bck->fd = remainder; fwd->bk = remainder; - /* advertise as last remainder */ - if (in_smallbin_range(nb)) - av->last_remainder = remainder; + /* advertise as last remainder */ + if (in_smallbin_range(nb)) + av->last_remainder = remainder; if (!in_smallbin_range(remainder_size)) { remainder->fd_nextsize = NULL; remainder->bk_nextsize = NULL; } - set_head(victim, nb | PREV_INUSE | + set_head(victim, nb | PREV_INUSE | (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_head(remainder, remainder_size | PREV_INUSE); - set_foot(remainder, remainder_size); - } + set_head(remainder, remainder_size | PREV_INUSE); + set_foot(remainder, remainder_size); + } check_malloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) @@ -5104,53 +5126,53 @@ static void malloc_consolidate(av) mstate av; #ifndef ATOMIC_FASTBINS *fb = 0; #endif - do { - check_inuse_chunk(av, p); - nextp = p->fd; - - /* Slightly streamlined version of consolidation code in free() */ - size = p->size & ~(PREV_INUSE|NON_MAIN_ARENA); - nextchunk = chunk_at_offset(p, size); - nextsize = chunksize(nextchunk); - - if (!prev_inuse(p)) { - prevsize = p->prev_size; - size += prevsize; - p = chunk_at_offset(p, -((long) prevsize)); - unlink(p, bck, fwd); - } - - if (nextchunk != av->top) { - nextinuse = inuse_bit_at_offset(nextchunk, nextsize); - - if (!nextinuse) { - size += nextsize; - unlink(nextchunk, bck, fwd); - } else + do { + check_inuse_chunk(av, p); + nextp = p->fd; + + /* Slightly streamlined version of consolidation code in free() */ + size = p->size & ~(PREV_INUSE|NON_MAIN_ARENA); + nextchunk = chunk_at_offset(p, size); + nextsize = chunksize(nextchunk); + + if (!prev_inuse(p)) { + prevsize = p->prev_size; + size += prevsize; + p = chunk_at_offset(p, -((long) prevsize)); + unlink(p, bck, fwd); + } + + if (nextchunk != av->top) { + nextinuse = inuse_bit_at_offset(nextchunk, nextsize); + + if (!nextinuse) { + size += nextsize; + unlink(nextchunk, bck, fwd); + } else clear_inuse_bit_at_offset(nextchunk, 0); - first_unsorted = unsorted_bin->fd; - unsorted_bin->fd = p; - first_unsorted->bk = p; + first_unsorted = unsorted_bin->fd; + unsorted_bin->fd = p; + first_unsorted->bk = p; - if (!in_smallbin_range (size)) { + if (!in_smallbin_range (size)) { p->fd_nextsize = NULL; p->bk_nextsize = NULL; } - set_head(p, size | PREV_INUSE); - p->bk = unsorted_bin; - p->fd = first_unsorted; - set_foot(p, size); - } + set_head(p, size | PREV_INUSE); + p->bk = unsorted_bin; + p->fd = first_unsorted; + set_foot(p, size); + } - else { - size += nextsize; - set_head(p, size | PREV_INUSE); - av->top = p; - } + else { + size += nextsize; + set_head(p, size | PREV_INUSE); + av->top = p; + } - } while ( (p = nextp) != 0); + } while ( (p = nextp) != 0); } } while (fb++ != maxfb); @@ -5226,82 +5248,82 @@ _int_realloc(mstate av, mchunkptr oldp, INTERNAL_SIZE_T oldsize, else { /* Try to expand forward into top */ if (next == av->top && - (unsigned long)(newsize = oldsize + nextsize) >= - (unsigned long)(nb + MINSIZE)) { - set_head_size(oldp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); - av->top = chunk_at_offset(oldp, nb); - set_head(av->top, (newsize - nb) | PREV_INUSE); + (unsigned long)(newsize = oldsize + nextsize) >= + (unsigned long)(nb + MINSIZE)) { + set_head_size(oldp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); + av->top = chunk_at_offset(oldp, nb); + set_head(av->top, (newsize - nb) | PREV_INUSE); check_inuse_chunk(av, oldp); - return chunk2mem(oldp); + return chunk2mem(oldp); } /* Try to expand forward into next chunk; split off remainder below */ else if (next != av->top && - !inuse(next) && - (unsigned long)(newsize = oldsize + nextsize) >= - (unsigned long)(nb)) { - newp = oldp; - unlink(next, bck, fwd); + !inuse(next) && + (unsigned long)(newsize = oldsize + nextsize) >= + (unsigned long)(nb)) { + newp = oldp; + unlink(next, bck, fwd); } /* allocate, copy, free */ else { - newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); - if (newmem == 0) - return 0; /* propagate failure */ - - newp = mem2chunk(newmem); - newsize = chunksize(newp); - - /* - Avoid copy if newp is next chunk after oldp. - */ - if (newp == next) { - newsize += oldsize; - newp = oldp; - } - else { - /* - Unroll copy of <= 36 bytes (72 if 8byte sizes) - We know that contents have an odd number of - INTERNAL_SIZE_T-sized words; minimally 3. - */ - - copysize = oldsize - SIZE_SZ; - s = (INTERNAL_SIZE_T*)(chunk2mem(oldp)); - d = (INTERNAL_SIZE_T*)(newmem); - ncopies = copysize / sizeof(INTERNAL_SIZE_T); - assert(ncopies >= 3); - - if (ncopies > 9) - MALLOC_COPY(d, s, copysize); - - else { - *(d+0) = *(s+0); - *(d+1) = *(s+1); - *(d+2) = *(s+2); - if (ncopies > 4) { - *(d+3) = *(s+3); - *(d+4) = *(s+4); - if (ncopies > 6) { - *(d+5) = *(s+5); - *(d+6) = *(s+6); - if (ncopies > 8) { - *(d+7) = *(s+7); - *(d+8) = *(s+8); - } - } - } - } + newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); + if (newmem == 0) + return 0; /* propagate failure */ + + newp = mem2chunk(newmem); + newsize = chunksize(newp); + + /* + Avoid copy if newp is next chunk after oldp. + */ + if (newp == next) { + newsize += oldsize; + newp = oldp; + } + else { + /* + Unroll copy of <= 36 bytes (72 if 8byte sizes) + We know that contents have an odd number of + INTERNAL_SIZE_T-sized words; minimally 3. + */ + + copysize = oldsize - SIZE_SZ; + s = (INTERNAL_SIZE_T*)(chunk2mem(oldp)); + d = (INTERNAL_SIZE_T*)(newmem); + ncopies = copysize / sizeof(INTERNAL_SIZE_T); + assert(ncopies >= 3); + + if (ncopies > 9) + MALLOC_COPY(d, s, copysize); + + else { + *(d+0) = *(s+0); + *(d+1) = *(s+1); + *(d+2) = *(s+2); + if (ncopies > 4) { + *(d+3) = *(s+3); + *(d+4) = *(s+4); + if (ncopies > 6) { + *(d+5) = *(s+5); + *(d+6) = *(s+6); + if (ncopies > 8) { + *(d+7) = *(s+7); + *(d+8) = *(s+8); + } + } + } + } #ifdef ATOMIC_FASTBINS - _int_free(av, oldp, 1); + _int_free(av, oldp, 1); #else - _int_free(av, oldp); + _int_free(av, oldp); #endif - check_inuse_chunk(av, newp); - return chunk2mem(newp); - } + check_inuse_chunk(av, newp); + return chunk2mem(newp); + } } } @@ -5367,11 +5389,11 @@ _int_realloc(mstate av, mchunkptr oldp, INTERNAL_SIZE_T oldsize, /* update statistics */ sum = mp_.mmapped_mem += newsize - oldsize; if (sum > (unsigned long)(mp_.max_mmapped_mem)) - mp_.max_mmapped_mem = sum; + mp_.max_mmapped_mem = sum; #ifdef NO_THREADS sum += main_arena.system_mem; if (sum > (unsigned long)(mp_.max_total_mem)) - mp_.max_total_mem = sum; + mp_.max_total_mem = sum; #endif return chunk2mem(newp); @@ -5385,11 +5407,11 @@ _int_realloc(mstate av, mchunkptr oldp, INTERNAL_SIZE_T oldsize, /* Must alloc, copy, free. */ newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); if (newmem != 0) { - MALLOC_COPY(newmem, chunk2mem(oldp), oldsize - 2*SIZE_SZ); + MALLOC_COPY(newmem, chunk2mem(oldp), oldsize - 2*SIZE_SZ); #ifdef ATOMIC_FASTBINS - _int_free(av, oldp, 1); + _int_free(av, oldp, 1); #else - _int_free(av, oldp); + _int_free(av, oldp); #endif } } @@ -5465,7 +5487,7 @@ _int_memalign(mstate av, size_t alignment, size_t bytes) */ brk = (char*)mem2chunk(((unsigned long)(m + alignment - 1)) & - -((signed long) alignment)); + -((signed long) alignment)); if ((unsigned long)(brk - (char*)(p)) < MINSIZE) brk += alignment; @@ -5493,7 +5515,7 @@ _int_memalign(mstate av, size_t alignment, size_t bytes) p = newp; assert (newsize >= nb && - (((unsigned long)(chunk2mem(p))) % alignment) == 0); + (((unsigned long)(chunk2mem(p))) % alignment) == 0); } /* Also give back spare room at the end */ @@ -5543,9 +5565,9 @@ Void_t* cALLOc(n_elements, elem_size) size_t n_elements; size_t elem_size; #endif { /* - Unroll clear of <= 36 bytes (72 if 8byte sizes) - We know that contents have an odd number of - INTERNAL_SIZE_T-sized words; minimally 3. + Unroll clear of <= 36 bytes (72 if 8byte sizes) + We know that contents have an odd number of + INTERNAL_SIZE_T-sized words; minimally 3. */ d = (INTERNAL_SIZE_T*)mem; @@ -5554,24 +5576,24 @@ Void_t* cALLOc(n_elements, elem_size) size_t n_elements; size_t elem_size; assert(nclears >= 3); if (nclears > 9) - MALLOC_ZERO(d, clearsize); + MALLOC_ZERO(d, clearsize); else { - *(d+0) = 0; - *(d+1) = 0; - *(d+2) = 0; - if (nclears > 4) { - *(d+3) = 0; - *(d+4) = 0; - if (nclears > 6) { - *(d+5) = 0; - *(d+6) = 0; - if (nclears > 8) { - *(d+7) = 0; - *(d+8) = 0; - } - } - } + *(d+0) = 0; + *(d+1) = 0; + *(d+2) = 0; + if (nclears > 4) { + *(d+3) = 0; + *(d+4) = 0; + if (nclears > 6) { + *(d+5) = 0; + *(d+6) = 0; + if (nclears > 8) { + *(d+7) = 0; + *(d+8) = 0; + } + } + } } } } @@ -5714,9 +5736,9 @@ mstate av; size_t n_elements; size_t* sizes; int opts; Void_t* chunks[]; marray[i] = chunk2mem(p); if (i != n_elements-1) { if (element_size != 0) - size = element_size; + size = element_size; else - size = request2size(sizes[i]); + size = request2size(sizes[i]); remainder_size -= size; set_head(p, size | size_flags); p = chunk_at_offset(p, size); @@ -5804,9 +5826,9 @@ static int mTRIm(av, pad) mstate av; size_t pad; for (int i = 1; i < NBINS; ++i) if (i == 1 || i >= psindex) { - mbinptr bin = bin_at (av, i); + mbinptr bin = bin_at (av, i); - for (mchunkptr p = last (bin); p != bin; p = p->bk) + for (mchunkptr p = last (bin); p != bin; p = p->bk) { INTERNAL_SIZE_T size = chunksize (p); @@ -5989,7 +6011,7 @@ void mSTATs() fprintf(stderr, "locked in loop = %10ld\n", stat_lock_loop); fprintf(stderr, "locked waiting = %10ld\n", stat_lock_wait); fprintf(stderr, "locked total = %10ld\n", - stat_lock_direct + stat_lock_loop + stat_lock_wait); + stat_lock_direct + stat_lock_loop + stat_lock_wait); #endif #ifdef _LIBC ((_IO_FILE *) stderr)->_flags2 |= old_flags2; @@ -6178,12 +6200,12 @@ int mALLOPt(param_number, value) int param_number; int value; if (size > 0) { if (size < MINIMUM_MORECORE_SIZE) - size = MINIMUM_MORECORE_SIZE; + size = MINIMUM_MORECORE_SIZE; if (CurrentExecutionLevel() == kTaskLevel) - ptr = PoolAllocateResident(size + RM_PAGE_SIZE, 0); + ptr = PoolAllocateResident(size + RM_PAGE_SIZE, 0); if (ptr == 0) { - return (void *) MORECORE_FAILURE; + return (void *) MORECORE_FAILURE; } // save ptrs so they can be freed during cleanup our_os_pools[next_os_pool] = ptr; @@ -6213,8 +6235,8 @@ int mALLOPt(param_number, value) int param_number; int value; for (ptr = our_os_pools; ptr < &our_os_pools[MAX_POOL_ENTRIES]; ptr++) if (*ptr) { - PoolDeallocate(*ptr); - *ptr = 0; + PoolDeallocate(*ptr); + *ptr = 0; } } |