gh-112532: Improve mimalloc page visiting (#114133)

This adds support for visiting abandoned pages in mimalloc and improves
the performance of the page visiting code. Abandoned pages contain
memory blocks from threads that have exited. At some point, they may be
later reclaimed by other threads. We still need to visit those pages in
the free-threaded GC because they contain live objects.

This also reduces the overhead of visiting mimalloc pages:

 * Special cases for full, empty, and pages containing only a single
   block.
 * Fix free_map to use one bit instead of one byte per block.
 * Use fast integer division by a constant algorithm when computing
   block offset from block size and index.
This commit is contained in:
Sam Gross 2024-01-22 16:10:21 -05:00 committed by GitHub
parent e45bae7a45
commit 412920a41e
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3 changed files with 134 additions and 34 deletions

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@ -120,6 +120,8 @@ void _mi_segment_page_free(mi_page_t* page, bool force, mi_segments_tld_t*
void _mi_segment_page_abandon(mi_page_t* page, mi_segments_tld_t* tld); void _mi_segment_page_abandon(mi_page_t* page, mi_segments_tld_t* tld);
bool _mi_segment_try_reclaim_abandoned( mi_heap_t* heap, bool try_all, mi_segments_tld_t* tld); bool _mi_segment_try_reclaim_abandoned( mi_heap_t* heap, bool try_all, mi_segments_tld_t* tld);
void _mi_segment_thread_collect(mi_segments_tld_t* tld); void _mi_segment_thread_collect(mi_segments_tld_t* tld);
bool _mi_abandoned_pool_visit_blocks(mi_abandoned_pool_t* pool, uint8_t page_tag, bool visit_blocks, mi_block_visit_fun* visitor, void* arg);
#if MI_HUGE_PAGE_ABANDON #if MI_HUGE_PAGE_ABANDON
void _mi_segment_huge_page_free(mi_segment_t* segment, mi_page_t* page, mi_block_t* block); void _mi_segment_huge_page_free(mi_segment_t* segment, mi_page_t* page, mi_block_t* block);
@ -161,6 +163,8 @@ void _mi_heap_collect_abandon(mi_heap_t* heap);
void _mi_heap_set_default_direct(mi_heap_t* heap); void _mi_heap_set_default_direct(mi_heap_t* heap);
bool _mi_heap_memid_is_suitable(mi_heap_t* heap, mi_memid_t memid); bool _mi_heap_memid_is_suitable(mi_heap_t* heap, mi_memid_t memid);
void _mi_heap_unsafe_destroy_all(void); void _mi_heap_unsafe_destroy_all(void);
void _mi_heap_area_init(mi_heap_area_t* area, mi_page_t* page);
bool _mi_heap_area_visit_blocks(const mi_heap_area_t* area, mi_page_t *page, mi_block_visit_fun* visitor, void* arg);
// "stats.c" // "stats.c"
void _mi_stats_done(mi_stats_t* stats); void _mi_stats_done(mi_stats_t* stats);

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@ -26,7 +26,7 @@ typedef bool (heap_page_visitor_fun)(mi_heap_t* heap, mi_page_queue_t* pq, mi_pa
// Visit all pages in a heap; returns `false` if break was called. // Visit all pages in a heap; returns `false` if break was called.
static bool mi_heap_visit_pages(mi_heap_t* heap, heap_page_visitor_fun* fn, void* arg1, void* arg2) static bool mi_heap_visit_pages(mi_heap_t* heap, heap_page_visitor_fun* fn, void* arg1, void* arg2)
{ {
if (heap==NULL || heap->page_count==0) return 0; if (heap==NULL || heap->page_count==0) return true;
// visit all pages // visit all pages
#if MI_DEBUG>1 #if MI_DEBUG>1
@ -521,11 +521,20 @@ typedef struct mi_heap_area_ex_s {
mi_page_t* page; mi_page_t* page;
} mi_heap_area_ex_t; } mi_heap_area_ex_t;
static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_visit_fun* visitor, void* arg) { static void mi_fast_divisor(size_t divisor, size_t* magic, size_t* shift) {
mi_assert(xarea != NULL); mi_assert_internal(divisor > 0 && divisor <= UINT32_MAX);
if (xarea==NULL) return true; *shift = MI_INTPTR_BITS - mi_clz(divisor - 1);
const mi_heap_area_t* area = &xarea->area; *magic = (size_t)(((1ULL << 32) * ((1ULL << *shift) - divisor)) / divisor + 1);
mi_page_t* page = xarea->page; }
static size_t mi_fast_divide(size_t n, size_t magic, size_t shift) {
mi_assert_internal(n <= UINT32_MAX);
return ((((uint64_t) n * magic) >> 32) + n) >> shift;
}
bool _mi_heap_area_visit_blocks(const mi_heap_area_t* area, mi_page_t *page, mi_block_visit_fun* visitor, void* arg) {
mi_assert(area != NULL);
if (area==NULL) return true;
mi_assert(page != NULL); mi_assert(page != NULL);
if (page == NULL) return true; if (page == NULL) return true;
@ -537,17 +546,39 @@ static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_v
const size_t ubsize = mi_page_usable_block_size(page); // without padding const size_t ubsize = mi_page_usable_block_size(page); // without padding
size_t psize; size_t psize;
uint8_t* pstart = _mi_page_start(_mi_page_segment(page), page, &psize); uint8_t* pstart = _mi_page_start(_mi_page_segment(page), page, &psize);
mi_heap_t* heap = mi_page_heap(page);
if (page->capacity == 1) { if (page->capacity == 1) {
// optimize page with one block // optimize page with one block
mi_assert_internal(page->used == 1 && page->free == NULL); mi_assert_internal(page->used == 1 && page->free == NULL);
return visitor(mi_page_heap(page), area, pstart, ubsize, arg); return visitor(heap, area, pstart, ubsize, arg);
}
if (page->used == page->capacity) {
// optimize full pages
uint8_t* block = pstart;
for (size_t i = 0; i < page->capacity; i++) {
if (!visitor(heap, area, block, ubsize, arg)) return false;
block += bsize;
}
return true;
} }
// create a bitmap of free blocks. // create a bitmap of free blocks.
#define MI_MAX_BLOCKS (MI_SMALL_PAGE_SIZE / sizeof(void*)) #define MI_MAX_BLOCKS (MI_SMALL_PAGE_SIZE / sizeof(void*))
uintptr_t free_map[MI_MAX_BLOCKS / sizeof(uintptr_t)]; uintptr_t free_map[MI_MAX_BLOCKS / MI_INTPTR_BITS];
memset(free_map, 0, sizeof(free_map)); size_t bmapsize = (page->capacity + MI_INTPTR_BITS - 1) / MI_INTPTR_BITS;
memset(free_map, 0, bmapsize * sizeof(uintptr_t));
if (page->capacity % MI_INTPTR_BITS != 0) {
size_t shift = (page->capacity % MI_INTPTR_BITS);
uintptr_t mask = (UINTPTR_MAX << shift);
free_map[bmapsize-1] = mask;
}
// fast repeated division by the block size
size_t magic, shift;
mi_fast_divisor(bsize, &magic, &shift);
#if MI_DEBUG>1 #if MI_DEBUG>1
size_t free_count = 0; size_t free_count = 0;
@ -559,10 +590,11 @@ static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_v
mi_assert_internal((uint8_t*)block >= pstart && (uint8_t*)block < (pstart + psize)); mi_assert_internal((uint8_t*)block >= pstart && (uint8_t*)block < (pstart + psize));
size_t offset = (uint8_t*)block - pstart; size_t offset = (uint8_t*)block - pstart;
mi_assert_internal(offset % bsize == 0); mi_assert_internal(offset % bsize == 0);
size_t blockidx = offset / bsize; // Todo: avoid division? size_t blockidx = mi_fast_divide(offset, magic, shift);
mi_assert_internal( blockidx < MI_MAX_BLOCKS); mi_assert_internal(blockidx == offset / bsize);
size_t bitidx = (blockidx / sizeof(uintptr_t)); mi_assert_internal(blockidx < MI_MAX_BLOCKS);
size_t bit = blockidx - (bitidx * sizeof(uintptr_t)); size_t bitidx = (blockidx / MI_INTPTR_BITS);
size_t bit = blockidx - (bitidx * MI_INTPTR_BITS);
free_map[bitidx] |= ((uintptr_t)1 << bit); free_map[bitidx] |= ((uintptr_t)1 << bit);
} }
mi_assert_internal(page->capacity == (free_count + page->used)); mi_assert_internal(page->capacity == (free_count + page->used));
@ -571,19 +603,29 @@ static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_v
#if MI_DEBUG>1 #if MI_DEBUG>1
size_t used_count = 0; size_t used_count = 0;
#endif #endif
for (size_t i = 0; i < page->capacity; i++) { uint8_t* block = pstart;
size_t bitidx = (i / sizeof(uintptr_t)); for (size_t i = 0; i < bmapsize; i++) {
size_t bit = i - (bitidx * sizeof(uintptr_t)); if (free_map[i] == 0) {
uintptr_t m = free_map[bitidx]; // every block is in use
if (bit == 0 && m == UINTPTR_MAX) { for (size_t j = 0; j < MI_INTPTR_BITS; j++) {
i += (sizeof(uintptr_t) - 1); // skip a run of free blocks
}
else if ((m & ((uintptr_t)1 << bit)) == 0) {
#if MI_DEBUG>1 #if MI_DEBUG>1
used_count++; used_count++;
#endif #endif
uint8_t* block = pstart + (i * bsize); if (!visitor(heap, area, block, ubsize, arg)) return false;
if (!visitor(mi_page_heap(page), area, block, ubsize, arg)) return false; block += bsize;
}
}
else {
uintptr_t m = ~free_map[i];
while (m) {
#if MI_DEBUG>1
used_count++;
#endif
size_t bitidx = mi_ctz(m);
if (!visitor(heap, area, block + (bitidx * bsize), ubsize, arg)) return false;
m &= m - 1;
}
block += bsize * MI_INTPTR_BITS;
} }
} }
mi_assert_internal(page->used == used_count); mi_assert_internal(page->used == used_count);
@ -592,21 +634,24 @@ static bool mi_heap_area_visit_blocks(const mi_heap_area_ex_t* xarea, mi_block_v
typedef bool (mi_heap_area_visit_fun)(const mi_heap_t* heap, const mi_heap_area_ex_t* area, void* arg); typedef bool (mi_heap_area_visit_fun)(const mi_heap_t* heap, const mi_heap_area_ex_t* area, void* arg);
void _mi_heap_area_init(mi_heap_area_t* area, mi_page_t* page) {
const size_t bsize = mi_page_block_size(page);
const size_t ubsize = mi_page_usable_block_size(page);
area->reserved = page->reserved * bsize;
area->committed = page->capacity * bsize;
area->blocks = _mi_page_start(_mi_page_segment(page), page, NULL);
area->used = page->used; // number of blocks in use (#553)
area->block_size = ubsize;
area->full_block_size = bsize;
}
static bool mi_heap_visit_areas_page(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* vfun, void* arg) { static bool mi_heap_visit_areas_page(mi_heap_t* heap, mi_page_queue_t* pq, mi_page_t* page, void* vfun, void* arg) {
MI_UNUSED(heap); MI_UNUSED(heap);
MI_UNUSED(pq); MI_UNUSED(pq);
mi_heap_area_visit_fun* fun = (mi_heap_area_visit_fun*)vfun; mi_heap_area_visit_fun* fun = (mi_heap_area_visit_fun*)vfun;
mi_heap_area_ex_t xarea; mi_heap_area_ex_t xarea;
const size_t bsize = mi_page_block_size(page);
const size_t ubsize = mi_page_usable_block_size(page);
xarea.page = page; xarea.page = page;
xarea.area.reserved = page->reserved * bsize; _mi_heap_area_init(&xarea.area, page);
xarea.area.committed = page->capacity * bsize;
xarea.area.blocks = _mi_page_start(_mi_page_segment(page), page, NULL);
xarea.area.used = page->used; // number of blocks in use (#553)
xarea.area.block_size = ubsize;
xarea.area.full_block_size = bsize;
return fun(heap, &xarea, arg); return fun(heap, &xarea, arg);
} }
@ -627,7 +672,7 @@ static bool mi_heap_area_visitor(const mi_heap_t* heap, const mi_heap_area_ex_t*
mi_visit_blocks_args_t* args = (mi_visit_blocks_args_t*)arg; mi_visit_blocks_args_t* args = (mi_visit_blocks_args_t*)arg;
if (!args->visitor(heap, &xarea->area, NULL, xarea->area.block_size, args->arg)) return false; if (!args->visitor(heap, &xarea->area, NULL, xarea->area.block_size, args->arg)) return false;
if (args->visit_blocks) { if (args->visit_blocks) {
return mi_heap_area_visit_blocks(xarea, args->visitor, args->arg); return _mi_heap_area_visit_blocks(&xarea->area, xarea->page, args->visitor, args->arg);
} }
else { else {
return true; return true;
@ -637,5 +682,6 @@ static bool mi_heap_area_visitor(const mi_heap_t* heap, const mi_heap_area_ex_t*
// Visit all blocks in a heap // Visit all blocks in a heap
bool mi_heap_visit_blocks(const mi_heap_t* heap, bool visit_blocks, mi_block_visit_fun* visitor, void* arg) { bool mi_heap_visit_blocks(const mi_heap_t* heap, bool visit_blocks, mi_block_visit_fun* visitor, void* arg) {
mi_visit_blocks_args_t args = { visit_blocks, visitor, arg }; mi_visit_blocks_args_t args = { visit_blocks, visitor, arg };
_mi_heap_delayed_free_partial((mi_heap_t *)heap);
return mi_heap_visit_areas(heap, &mi_heap_area_visitor, &args); return mi_heap_visit_areas(heap, &mi_heap_area_visitor, &args);
} }

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@ -1614,3 +1614,53 @@ mi_page_t* _mi_segment_page_alloc(mi_heap_t* heap, size_t block_size, size_t pag
mi_assert_expensive(page == NULL || mi_segment_is_valid(_mi_page_segment(page),tld)); mi_assert_expensive(page == NULL || mi_segment_is_valid(_mi_page_segment(page),tld));
return page; return page;
} }
/* -----------------------------------------------------------
Visit blocks in abandoned segments
----------------------------------------------------------- */
static bool mi_segment_visit_page(mi_segment_t* segment, mi_page_t* page, bool visit_blocks, mi_block_visit_fun* visitor, void* arg)
{
mi_heap_area_t area;
_mi_heap_area_init(&area, page);
if (!visitor(NULL, &area, NULL, area.block_size, arg)) return false;
if (visit_blocks) {
return _mi_heap_area_visit_blocks(&area, page, visitor, arg);
}
else {
return true;
}
}
static bool mi_segment_visit_pages(mi_segment_t* segment, uint8_t page_tag, bool visit_blocks, mi_block_visit_fun* visitor, void* arg) {
const mi_slice_t* end;
mi_slice_t* slice = mi_slices_start_iterate(segment, &end);
while (slice < end) {
if (mi_slice_is_used(slice)) {
mi_page_t* const page = mi_slice_to_page(slice);
if (page->tag == page_tag) {
if (!mi_segment_visit_page(segment, page, visit_blocks, visitor, arg)) return false;
}
}
slice = slice + slice->slice_count;
}
return true;
}
// Visit all blocks in a abandoned segments
bool _mi_abandoned_pool_visit_blocks(mi_abandoned_pool_t* pool, uint8_t page_tag, bool visit_blocks, mi_block_visit_fun* visitor, void* arg) {
// Note: this is not safe in any other thread is abandoning or claiming segments from the pool
mi_segment_t* segment = mi_tagged_segment_ptr(pool->abandoned);
while (segment != NULL) {
if (!mi_segment_visit_pages(segment, page_tag, visit_blocks, visitor, arg)) return false;
segment = segment->abandoned_next;
}
segment = pool->abandoned_visited;
while (segment != NULL) {
if (!mi_segment_visit_pages(segment, page_tag, visit_blocks, visitor, arg)) return false;
segment = segment->abandoned_next;
}
return true;
}