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File _service:tar_scm:0006-malloc-Enable-merging-of-remainders-in-memalign-bug-.patch of Package glibc
From 98c293c61f770b6b7a22f89a6ea81b711ecb1952 Mon Sep 17 00:00:00 2001 From: Florian Weimer <fweimer@redhat.com> Date: Fri, 11 Aug 2023 11:18:17 +0200 Subject: [PATCH 06/12] malloc: Enable merging of remainders in memalign (bug 30723) Previously, calling _int_free from _int_memalign could put remainders into the tcache or into fastbins, where they are invisible to the low-level allocator. This results in missed merge opportunities because once these freed chunks become available to the low-level allocator, further memalign allocations (even of the same size are) likely obstructing merges. Furthermore, during forwards merging in _int_memalign, do not completely give up when the remainder is too small to serve as a chunk on its own. We can still give it back if it can be merged with the following unused chunk. This makes it more likely that memalign calls in a loop achieve a compact memory layout, independently of initial heap layout. Drop some useless (unsigned long) casts along the way, and tweak the style to more closely match GNU on changed lines. Reviewed-by: DJ Delorie <dj@redhat.com> (cherry picked from commit 542b1105852568c3ebc712225ae78b8c8ba31a78) --- malloc/malloc.c | 197 +++++++++++++++++++++++++++++------------------- 1 file changed, 121 insertions(+), 76 deletions(-) diff --git a/malloc/malloc.c b/malloc/malloc.c index e2f1a615a4..948f9759af 100644 --- a/malloc/malloc.c +++ b/malloc/malloc.c @@ -1086,6 +1086,11 @@ typedef struct malloc_chunk* mchunkptr; static void* _int_malloc(mstate, size_t); static void _int_free(mstate, mchunkptr, int); +static void _int_free_merge_chunk (mstate, mchunkptr, INTERNAL_SIZE_T); +static INTERNAL_SIZE_T _int_free_create_chunk (mstate, + mchunkptr, INTERNAL_SIZE_T, + mchunkptr, INTERNAL_SIZE_T); +static void _int_free_maybe_consolidate (mstate, INTERNAL_SIZE_T); static void* _int_realloc(mstate, mchunkptr, INTERNAL_SIZE_T, INTERNAL_SIZE_T); static void* _int_memalign(mstate, size_t, size_t); @@ -4637,31 +4642,52 @@ _int_free (mstate av, mchunkptr p, int have_lock) if (!have_lock) __libc_lock_lock (av->mutex); - nextchunk = chunk_at_offset(p, size); - - /* Lightweight tests: check whether the block is already the - top block. */ - if (__glibc_unlikely (p == av->top)) - malloc_printerr ("double free or corruption (top)"); - /* Or whether the next chunk is beyond the boundaries of the arena. */ - if (__builtin_expect (contiguous (av) - && (char *) nextchunk - >= ((char *) av->top + chunksize(av->top)), 0)) - malloc_printerr ("double free or corruption (out)"); - /* Or whether the block is actually not marked used. */ - if (__glibc_unlikely (!prev_inuse(nextchunk))) - malloc_printerr ("double free or corruption (!prev)"); - - nextsize = chunksize(nextchunk); - if (__builtin_expect (chunksize_nomask (nextchunk) <= CHUNK_HDR_SZ, 0) - || __builtin_expect (nextsize >= av->system_mem, 0)) - malloc_printerr ("free(): invalid next size (normal)"); + _int_free_merge_chunk (av, p, size); - free_perturb (chunk2mem(p), size - CHUNK_HDR_SZ); + if (!have_lock) + __libc_lock_unlock (av->mutex); + } + /* + If the chunk was allocated via mmap, release via munmap(). + */ + + else { + munmap_chunk (p); + } +} + +/* Try to merge chunk P of SIZE bytes with its neighbors. Put the + resulting chunk on the appropriate bin list. P must not be on a + bin list yet, and it can be in use. */ +static void +_int_free_merge_chunk (mstate av, mchunkptr p, INTERNAL_SIZE_T size) +{ + mchunkptr nextchunk = chunk_at_offset(p, size); + + /* Lightweight tests: check whether the block is already the + top block. */ + if (__glibc_unlikely (p == av->top)) + malloc_printerr ("double free or corruption (top)"); + /* Or whether the next chunk is beyond the boundaries of the arena. */ + if (__builtin_expect (contiguous (av) + && (char *) nextchunk + >= ((char *) av->top + chunksize(av->top)), 0)) + malloc_printerr ("double free or corruption (out)"); + /* Or whether the block is actually not marked used. */ + if (__glibc_unlikely (!prev_inuse(nextchunk))) + malloc_printerr ("double free or corruption (!prev)"); + + INTERNAL_SIZE_T nextsize = chunksize(nextchunk); + if (__builtin_expect (chunksize_nomask (nextchunk) <= CHUNK_HDR_SZ, 0) + || __builtin_expect (nextsize >= av->system_mem, 0)) + malloc_printerr ("free(): invalid next size (normal)"); + + free_perturb (chunk2mem(p), size - CHUNK_HDR_SZ); - /* consolidate backward */ - if (!prev_inuse(p)) { - prevsize = prev_size (p); + /* Consolidate backward. */ + if (!prev_inuse(p)) + { + INTERNAL_SIZE_T prevsize = prev_size (p); size += prevsize; p = chunk_at_offset(p, -((long) prevsize)); if (__glibc_unlikely (chunksize(p) != prevsize)) @@ -4669,9 +4695,25 @@ _int_free (mstate av, mchunkptr p, int have_lock) unlink_chunk (av, p); } - if (nextchunk != av->top) { + /* Write the chunk header, maybe after merging with the following chunk. */ + size = _int_free_create_chunk (av, p, size, nextchunk, nextsize); + _int_free_maybe_consolidate (av, size); +} + +/* Create a chunk at P of SIZE bytes, with SIZE potentially increased + to cover the immediately following chunk NEXTCHUNK of NEXTSIZE + bytes (if NEXTCHUNK is unused). The chunk at P is not actually + read and does not have to be initialized. After creation, it is + placed on the appropriate bin list. The function returns the size + of the new chunk. */ +static INTERNAL_SIZE_T +_int_free_create_chunk (mstate av, mchunkptr p, INTERNAL_SIZE_T size, + mchunkptr nextchunk, INTERNAL_SIZE_T nextsize) +{ + if (nextchunk != av->top) + { /* get and clear inuse bit */ - nextinuse = inuse_bit_at_offset(nextchunk, nextsize); + bool nextinuse = inuse_bit_at_offset (nextchunk, nextsize); /* consolidate forward */ if (!nextinuse) { @@ -4686,8 +4728,8 @@ _int_free (mstate av, mchunkptr p, int have_lock) been given one chance to be used in malloc. */ - bck = unsorted_chunks(av); - fwd = bck->fd; + mchunkptr bck = unsorted_chunks (av); + mchunkptr fwd = bck->fd; if (__glibc_unlikely (fwd->bk != bck)) malloc_printerr ("free(): corrupted unsorted chunks"); p->fd = fwd; @@ -4706,61 +4748,52 @@ _int_free (mstate av, mchunkptr p, int have_lock) check_free_chunk(av, p); } - /* - If the chunk borders the current high end of memory, - consolidate into top - */ - - else { + else + { + /* If the chunk borders the current high end of memory, + consolidate into top. */ size += nextsize; set_head(p, size | PREV_INUSE); av->top = p; check_chunk(av, p); } - /* - If freeing a large space, consolidate possibly-surrounding - chunks. Then, if the total unused topmost memory exceeds trim - threshold, ask malloc_trim to reduce top. - - Unless max_fast is 0, we don't know if there are fastbins - bordering top, so we cannot tell for sure whether threshold - has been reached unless fastbins are consolidated. But we - don't want to consolidate on each free. As a compromise, - consolidation is performed if FASTBIN_CONSOLIDATION_THRESHOLD - is reached. - */ + return size; +} - if ((unsigned long)(size) >= FASTBIN_CONSOLIDATION_THRESHOLD) { +/* If freeing a large space, consolidate possibly-surrounding + chunks. Then, if the total unused topmost memory exceeds trim + threshold, ask malloc_trim to reduce top. */ +static void +_int_free_maybe_consolidate (mstate av, INTERNAL_SIZE_T size) +{ + /* Unless max_fast is 0, we don't know if there are fastbins + bordering top, so we cannot tell for sure whether threshold has + been reached unless fastbins are consolidated. But we don't want + to consolidate on each free. As a compromise, consolidation is + performed if FASTBIN_CONSOLIDATION_THRESHOLD is reached. */ + if (size >= FASTBIN_CONSOLIDATION_THRESHOLD) + { if (atomic_load_relaxed (&av->have_fastchunks)) malloc_consolidate(av); - if (av == &main_arena) { + if (av == &main_arena) + { #ifndef MORECORE_CANNOT_TRIM - if ((unsigned long)(chunksize(av->top)) >= - (unsigned long)(mp_.trim_threshold)) - systrim(mp_.top_pad, av); + if (chunksize (av->top) >= mp_.trim_threshold) + systrim (mp_.top_pad, av); #endif - } else { - /* Always try heap_trim(), even if the top chunk is not - large, because the corresponding heap might go away. */ - heap_info *heap = heap_for_ptr(top(av)); + } + else + { + /* Always try heap_trim, even if the top chunk is not large, + because the corresponding heap might go away. */ + heap_info *heap = heap_for_ptr (top (av)); - assert(heap->ar_ptr == av); - heap_trim(heap, mp_.top_pad); - } + assert (heap->ar_ptr == av); + heap_trim (heap, mp_.top_pad); + } } - - if (!have_lock) - __libc_lock_unlock (av->mutex); - } - /* - If the chunk was allocated via mmap, release via munmap(). - */ - - else { - munmap_chunk (p); - } } /* @@ -5221,7 +5254,7 @@ _int_memalign (mstate av, size_t alignment, size_t bytes) (av != &main_arena ? NON_MAIN_ARENA : 0)); set_inuse_bit_at_offset (newp, newsize); set_head_size (p, leadsize | (av != &main_arena ? NON_MAIN_ARENA : 0)); - _int_free (av, p, 1); + _int_free_merge_chunk (av, p, leadsize); p = newp; assert (newsize >= nb && @@ -5232,15 +5265,27 @@ _int_memalign (mstate av, size_t alignment, size_t bytes) if (!chunk_is_mmapped (p)) { size = chunksize (p); - if ((unsigned long) (size) > (unsigned long) (nb + MINSIZE)) + mchunkptr nextchunk = chunk_at_offset(p, size); + INTERNAL_SIZE_T nextsize = chunksize(nextchunk); + if (size > nb) { remainder_size = size - nb; - remainder = chunk_at_offset (p, nb); - set_head (remainder, remainder_size | PREV_INUSE | - (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_head_size (p, nb); - _int_free (av, remainder, 1); - } + if (remainder_size >= MINSIZE + || nextchunk == av->top + || !inuse_bit_at_offset (nextchunk, nextsize)) + { + /* We can only give back the tail if it is larger than + MINSIZE, or if the following chunk is unused (top + chunk or unused in-heap chunk). Otherwise we would + create a chunk that is smaller than MINSIZE. */ + remainder = chunk_at_offset (p, nb); + set_head_size (p, nb); + remainder_size = _int_free_create_chunk (av, remainder, + remainder_size, + nextchunk, nextsize); + _int_free_maybe_consolidate (av, remainder_size); + } + } } check_inuse_chunk (av, p); -- 2.33.0
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