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reduce contention on the delayed_free lock; see issue #630
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@ -113,10 +113,11 @@ void _mi_page_retire(mi_page_t* page) mi_attr_noexcept; /
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void _mi_page_unfull(mi_page_t* page);
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void _mi_page_free(mi_page_t* page, mi_page_queue_t* pq, bool force); // free the page
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void _mi_page_abandon(mi_page_t* page, mi_page_queue_t* pq); // abandon the page, to be picked up by another thread...
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void _mi_heap_delayed_free(mi_heap_t* heap);
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void _mi_heap_delayed_free_all(mi_heap_t* heap);
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bool _mi_heap_delayed_free_partial(mi_heap_t* heap);
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void _mi_heap_collect_retired(mi_heap_t* heap, bool force);
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void _mi_page_use_delayed_free(mi_page_t* page, mi_delayed_t delay, bool override_never);
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bool _mi_page_use_delayed_free(mi_page_t* page, mi_delayed_t delay, bool override_never);
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size_t _mi_page_queue_append(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_queue_t* append);
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void _mi_deferred_free(mi_heap_t* heap, bool force);
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@ -518,6 +518,7 @@ void mi_free(void* p) mi_attr_noexcept
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}
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}
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// return true if successful
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bool _mi_free_delayed_block(mi_block_t* block) {
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// get segment and page
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const mi_segment_t* const segment = _mi_ptr_segment(block);
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@ -530,7 +531,9 @@ bool _mi_free_delayed_block(mi_block_t* block) {
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// some blocks may end up in the page `thread_free` list with no blocks in the
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// heap `thread_delayed_free` list which may cause the page to be never freed!
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// (it would only be freed if we happen to scan it in `mi_page_queue_find_free_ex`)
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_mi_page_use_delayed_free(page, MI_USE_DELAYED_FREE, false /* dont overwrite never delayed */);
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if (!_mi_page_use_delayed_free(page, MI_USE_DELAYED_FREE, false /* dont overwrite never delayed */)) {
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return false;
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}
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// collect all other non-local frees to ensure up-to-date `used` count
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_mi_page_free_collect(page, false);
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@ -136,9 +136,9 @@ static void mi_heap_collect_ex(mi_heap_t* heap, mi_collect_t collect)
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mi_heap_visit_pages(heap, &mi_heap_page_never_delayed_free, NULL, NULL);
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}
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// free thread delayed blocks.
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// free all current thread delayed blocks.
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// (if abandoning, after this there are no more thread-delayed references into the pages.)
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_mi_heap_delayed_free(heap);
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_mi_heap_delayed_free_all(heap);
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// collect retired pages
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_mi_heap_collect_retired(heap, collect >= MI_FORCE);
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@ -339,7 +339,7 @@ static void mi_heap_absorb(mi_heap_t* heap, mi_heap_t* from) {
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if (from==NULL || from->page_count == 0) return;
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// reduce the size of the delayed frees
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_mi_heap_delayed_free(from);
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_mi_heap_delayed_free_partial(from);
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// transfer all pages by appending the queues; this will set a new heap field
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// so threads may do delayed frees in either heap for a while.
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@ -358,7 +358,7 @@ static void mi_heap_absorb(mi_heap_t* heap, mi_heap_t* from) {
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// note: be careful here as the `heap` field in all those pages no longer point to `from`,
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// turns out to be ok as `_mi_heap_delayed_free` only visits the list and calls a
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// the regular `_mi_free_delayed_block` which is safe.
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_mi_heap_delayed_free(from);
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_mi_heap_delayed_free_all(from);
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#if !defined(_MSC_VER) || (_MSC_VER > 1900) // somehow the following line gives an error in VS2015, issue #353
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mi_assert_internal(mi_atomic_load_ptr_relaxed(mi_block_t,&from->thread_delayed_free) == NULL);
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#endif
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26
src/page.c
26
src/page.c
@ -122,15 +122,18 @@ bool _mi_page_is_valid(mi_page_t* page) {
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}
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#endif
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void _mi_page_use_delayed_free(mi_page_t* page, mi_delayed_t delay, bool override_never) {
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bool _mi_page_use_delayed_free(mi_page_t* page, mi_delayed_t delay, bool override_never) {
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mi_thread_free_t tfreex;
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mi_delayed_t old_delay;
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mi_thread_free_t tfree;
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size_t yield_count = 0;
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do {
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tfree = mi_atomic_load_acquire(&page->xthread_free); // note: must acquire as we can break/repeat this loop and not do a CAS;
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tfreex = mi_tf_set_delayed(tfree, delay);
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old_delay = mi_tf_delayed(tfree);
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if mi_unlikely(old_delay == MI_DELAYED_FREEING) {
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if (yield_count >= 4) return false; // give up after 4 tries
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yield_count++;
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mi_atomic_yield(); // delay until outstanding MI_DELAYED_FREEING are done.
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// tfree = mi_tf_set_delayed(tfree, MI_NO_DELAYED_FREE); // will cause CAS to busy fail
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}
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@ -142,6 +145,8 @@ void _mi_page_use_delayed_free(mi_page_t* page, mi_delayed_t delay, bool overrid
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}
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} while ((old_delay == MI_DELAYED_FREEING) ||
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!mi_atomic_cas_weak_release(&page->xthread_free, &tfree, tfreex));
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return true; // success
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}
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/* -----------------------------------------------------------
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@ -272,10 +277,18 @@ static mi_page_t* mi_page_fresh(mi_heap_t* heap, mi_page_queue_t* pq) {
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Do any delayed frees
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(put there by other threads if they deallocated in a full page)
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----------------------------------------------------------- */
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void _mi_heap_delayed_free(mi_heap_t* heap) {
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void _mi_heap_delayed_free_all(mi_heap_t* heap) {
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while (!_mi_heap_delayed_free_partial(heap)) {
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mi_atomic_yield();
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}
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}
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// returns true if all delayed frees were processed
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bool _mi_heap_delayed_free_partial(mi_heap_t* heap) {
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// take over the list (note: no atomic exchange since it is often NULL)
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mi_block_t* block = mi_atomic_load_ptr_relaxed(mi_block_t, &heap->thread_delayed_free);
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while (block != NULL && !mi_atomic_cas_ptr_weak_acq_rel(mi_block_t, &heap->thread_delayed_free, &block, NULL)) { /* nothing */ };
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bool all_freed = true;
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// and free them all
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while(block != NULL) {
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@ -283,7 +296,9 @@ void _mi_heap_delayed_free(mi_heap_t* heap) {
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// use internal free instead of regular one to keep stats etc correct
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if (!_mi_free_delayed_block(block)) {
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// we might already start delayed freeing while another thread has not yet
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// reset the delayed_freeing flag; in that case delay it further by reinserting.
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// reset the delayed_freeing flag; in that case delay it further by reinserting the current block
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// into the delayed free list
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all_freed = false;
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mi_block_t* dfree = mi_atomic_load_ptr_relaxed(mi_block_t, &heap->thread_delayed_free);
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do {
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mi_block_set_nextx(heap, block, dfree, heap->keys);
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@ -291,6 +306,7 @@ void _mi_heap_delayed_free(mi_heap_t* heap) {
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}
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block = next;
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}
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return all_freed;
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}
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/* -----------------------------------------------------------
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@ -832,8 +848,8 @@ void* _mi_malloc_generic(mi_heap_t* heap, size_t size, bool zero) mi_attr_noexce
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// call potential deferred free routines
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_mi_deferred_free(heap, false);
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// free delayed frees from other threads
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_mi_heap_delayed_free(heap);
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// free delayed frees from other threads (but skip contended ones)
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_mi_heap_delayed_free_partial(heap);
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// find (or allocate) a page of the right size
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mi_page_t* page = mi_find_page(heap, size);
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