Revert re-addition of purge_lock.
Linux kernels have been capable of concurrent page table access since 2.6.27, so this hack is not necessary for modern kernels.
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@ -318,9 +318,12 @@ struct arena_s {
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size_t ndirty;
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size_t ndirty;
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/*
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/*
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* True if pages are currently being purged by a thread.
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* Approximate number of pages being purged. It is possible for
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* multiple threads to purge dirty pages concurrently, and they use
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* npurgatory to indicate the total number of pages all threads are
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* attempting to purge.
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*/
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*/
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bool purgatory;
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size_t npurgatory;
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/*
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/*
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* Size/address-ordered trees of this arena's available runs. The trees
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* Size/address-ordered trees of this arena's available runs. The trees
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@ -23,9 +23,6 @@ size_t sspace_max;
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size_t lg_mspace;
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size_t lg_mspace;
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size_t mspace_mask;
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size_t mspace_mask;
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/* Used to prevent threads from concurrently calling madvise(2). */
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static malloc_mutex_t purge_lock;
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/*
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/*
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* const_small_size2bin is a static constant lookup table that in the common
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* const_small_size2bin is a static constant lookup table that in the common
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* case can be used as-is for small_size2bin. For dynamically linked programs,
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* case can be used as-is for small_size2bin. For dynamically linked programs,
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@ -587,9 +584,10 @@ arena_maybe_purge(arena_t *arena)
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{
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{
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/* Enforce opt_lg_dirty_mult. */
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/* Enforce opt_lg_dirty_mult. */
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if (opt_lg_dirty_mult >= 0 && arena->purgatory == false &&
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if (opt_lg_dirty_mult >= 0 && arena->ndirty > arena->npurgatory &&
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arena->ndirty > chunk_npages && (arena->nactive >>
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(arena->ndirty - arena->npurgatory) > chunk_npages &&
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opt_lg_dirty_mult) < arena->ndirty)
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(arena->nactive >> opt_lg_dirty_mult) < (arena->ndirty -
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arena->npurgatory))
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arena_purge(arena);
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arena_purge(arena);
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}
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}
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@ -759,32 +757,23 @@ arena_purge(arena_t *arena)
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}
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}
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assert(ndirty == arena->ndirty);
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assert(ndirty == arena->ndirty);
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#endif
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#endif
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assert(arena->ndirty > arena->npurgatory);
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assert(arena->ndirty > chunk_npages);
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assert(arena->ndirty > chunk_npages);
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assert((arena->nactive >> opt_lg_dirty_mult) < arena->ndirty);
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assert((arena->nactive >> opt_lg_dirty_mult) < arena->ndirty);
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/*
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* Only allow one thread at a time to purge dirty pages. madvise(2)
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* causes the kernel to modify virtual memory data structures that are
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* typically protected by a lock, and purging isn't important enough to
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* suffer lock contention in the kernel. The result of failing to
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* acquire purge_lock here is that this arena will operate with ndirty
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* above the threshold until some dirty pages are re-used, or the
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* creation of more dirty pages causes this function to be called
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* again.
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*/
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if (malloc_mutex_trylock(&purge_lock))
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return;
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#ifdef JEMALLOC_STATS
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#ifdef JEMALLOC_STATS
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arena->stats.npurge++;
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arena->stats.npurge++;
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#endif
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#endif
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/*
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/*
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* Compute the minimum number of pages that this thread should try to
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* Compute the minimum number of pages that this thread should try to
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* purge.
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* purge, and add the result to arena->npurgatory. This will keep
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* multiple threads from racing to reduce ndirty below the threshold.
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*/
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*/
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npurgatory = arena->ndirty - (arena->nactive >> opt_lg_dirty_mult);
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npurgatory = (arena->ndirty - arena->npurgatory) - (arena->nactive >>
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arena->purgatory = true;
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opt_lg_dirty_mult);
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arena->npurgatory += npurgatory;
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while (npurgatory > 0) {
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while (npurgatory > 0) {
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/* Get next chunk with dirty pages. */
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/* Get next chunk with dirty pages. */
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chunk = ql_first(&arena->chunks_dirty);
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chunk = ql_first(&arena->chunks_dirty);
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@ -792,9 +781,11 @@ arena_purge(arena_t *arena)
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/*
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/*
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* This thread was unable to purge as many pages as
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* This thread was unable to purge as many pages as
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* originally intended, due to races with other threads
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* originally intended, due to races with other threads
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* that re-used dirty pages.
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* that either did some of the purging work, or re-used
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* dirty pages.
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*/
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*/
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goto RETURN;
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arena->npurgatory -= npurgatory;
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return;
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}
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}
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while (chunk->ndirty == 0) {
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while (chunk->ndirty == 0) {
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ql_remove(&arena->chunks_dirty, chunk, link_dirty);
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ql_remove(&arena->chunks_dirty, chunk, link_dirty);
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@ -802,20 +793,38 @@ arena_purge(arena_t *arena)
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chunk = ql_first(&arena->chunks_dirty);
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chunk = ql_first(&arena->chunks_dirty);
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if (chunk == NULL) {
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if (chunk == NULL) {
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/* Same logic as for above. */
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/* Same logic as for above. */
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goto RETURN;
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arena->npurgatory -= npurgatory;
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return;
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}
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}
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}
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}
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if (chunk->ndirty >= npurgatory) {
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if (chunk->ndirty > npurgatory) {
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/* This thread will purge all the pages in chunk. */
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/*
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npurgatory = 0;
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* This thread will, at a minimum, purge all the dirty
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} else
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* pages in chunk, so set npurgatory to reflect this
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npurgatory -= chunk->ndirty;
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* thread's commitment to purge the pages. This tends
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* to reduce the chances of the following scenario:
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*
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* 1) This thread sets arena->npurgatory such that
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* (arena->ndirty - arena->npurgatory) is at the
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* threshold.
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* 2) This thread drops arena->lock.
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* 3) Another thread causes one or more pages to be
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* dirtied, and immediately determines that it must
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* purge dirty pages.
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*
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* If this scenario *does* play out, that's okay,
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* because all of the purging work being done really
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* needs to happen.
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*/
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arena->npurgatory += chunk->ndirty - npurgatory;
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npurgatory = chunk->ndirty;
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}
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arena->npurgatory -= chunk->ndirty;
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npurgatory -= chunk->ndirty;
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arena_chunk_purge(arena, chunk);
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arena_chunk_purge(arena, chunk);
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}
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}
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RETURN:
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arena->purgatory = false;
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malloc_mutex_unlock(&purge_lock);
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}
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}
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static void
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static void
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@ -2137,7 +2146,7 @@ arena_new(arena_t *arena, unsigned ind)
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arena->nactive = 0;
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arena->nactive = 0;
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arena->ndirty = 0;
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arena->ndirty = 0;
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arena->purgatory = false;
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arena->npurgatory = 0;
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arena_avail_tree_new(&arena->runs_avail_clean);
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arena_avail_tree_new(&arena->runs_avail_clean);
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arena_avail_tree_new(&arena->runs_avail_dirty);
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arena_avail_tree_new(&arena->runs_avail_dirty);
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@ -2433,8 +2442,5 @@ arena_boot(void)
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((header_size & PAGE_MASK) != 0);
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((header_size & PAGE_MASK) != 0);
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arena_maxclass = chunksize - (arena_chunk_header_npages << PAGE_SHIFT);
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arena_maxclass = chunksize - (arena_chunk_header_npages << PAGE_SHIFT);
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if (malloc_mutex_init(&purge_lock))
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return (true);
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return (false);
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return (false);
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}
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}
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