03d95cba88
All edata alloc sites are already followed with proper edata_init().
518 lines
15 KiB
C
518 lines
15 KiB
C
#include "jemalloc/internal/jemalloc_preamble.h"
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#include "jemalloc/internal/jemalloc_internal_includes.h"
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#include "jemalloc/internal/assert.h"
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#include "jemalloc/internal/extent_mmap.h"
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#include "jemalloc/internal/mutex.h"
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#include "jemalloc/internal/sz.h"
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/*
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* In auto mode, arenas switch to huge pages for the base allocator on the
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* second base block. a0 switches to thp on the 5th block (after 20 megabytes
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* of metadata), since more metadata (e.g. rtree nodes) come from a0's base.
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*/
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#define BASE_AUTO_THP_THRESHOLD 2
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#define BASE_AUTO_THP_THRESHOLD_A0 5
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/******************************************************************************/
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/* Data. */
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static base_t *b0;
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metadata_thp_mode_t opt_metadata_thp = METADATA_THP_DEFAULT;
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const char *metadata_thp_mode_names[] = {
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"disabled",
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"auto",
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"always"
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};
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/******************************************************************************/
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static inline bool
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metadata_thp_madvise(void) {
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return (metadata_thp_enabled() &&
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(init_system_thp_mode == thp_mode_default));
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}
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static void *
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base_map(tsdn_t *tsdn, ehooks_t *ehooks, unsigned ind, size_t size) {
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void *addr;
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bool zero = true;
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bool commit = true;
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/* Use huge page sizes and alignment regardless of opt_metadata_thp. */
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assert(size == HUGEPAGE_CEILING(size));
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size_t alignment = HUGEPAGE;
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if (ehooks_are_default(ehooks)) {
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addr = extent_alloc_mmap(NULL, size, alignment, &zero, &commit);
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if (have_madvise_huge && addr) {
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pages_set_thp_state(addr, size);
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}
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} else {
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addr = ehooks_alloc(tsdn, ehooks, NULL, size, alignment, &zero,
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&commit);
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}
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return addr;
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}
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static void
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base_unmap(tsdn_t *tsdn, ehooks_t *ehooks, unsigned ind, void *addr,
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size_t size) {
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/*
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* Cascade through dalloc, decommit, purge_forced, and purge_lazy,
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* stopping at first success. This cascade is performed for consistency
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* with the cascade in extent_dalloc_wrapper() because an application's
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* custom hooks may not support e.g. dalloc. This function is only ever
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* called as a side effect of arena destruction, so although it might
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* seem pointless to do anything besides dalloc here, the application
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* may in fact want the end state of all associated virtual memory to be
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* in some consistent-but-allocated state.
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*/
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if (ehooks_are_default(ehooks)) {
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if (!extent_dalloc_mmap(addr, size)) {
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goto label_done;
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}
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if (!pages_decommit(addr, size)) {
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goto label_done;
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}
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if (!pages_purge_forced(addr, size)) {
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goto label_done;
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}
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if (!pages_purge_lazy(addr, size)) {
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goto label_done;
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}
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/* Nothing worked. This should never happen. */
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not_reached();
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} else {
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if (!ehooks_dalloc(tsdn, ehooks, addr, size, true)) {
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goto label_done;
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}
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if (!ehooks_decommit(tsdn, ehooks, addr, size, 0, size)) {
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goto label_done;
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}
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if (!ehooks_purge_forced(tsdn, ehooks, addr, size, 0, size)) {
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goto label_done;
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}
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if (!ehooks_purge_lazy(tsdn, ehooks, addr, size, 0, size)) {
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goto label_done;
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}
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/* Nothing worked. That's the application's problem. */
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}
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label_done:
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if (metadata_thp_madvise()) {
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/* Set NOHUGEPAGE after unmap to avoid kernel defrag. */
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assert(((uintptr_t)addr & HUGEPAGE_MASK) == 0 &&
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(size & HUGEPAGE_MASK) == 0);
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pages_nohuge(addr, size);
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}
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}
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static void
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base_edata_init(size_t *extent_sn_next, edata_t *edata, void *addr,
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size_t size) {
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size_t sn;
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sn = *extent_sn_next;
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(*extent_sn_next)++;
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edata_binit(edata, addr, size, sn);
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}
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static size_t
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base_get_num_blocks(base_t *base, bool with_new_block) {
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base_block_t *b = base->blocks;
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assert(b != NULL);
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size_t n_blocks = with_new_block ? 2 : 1;
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while (b->next != NULL) {
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n_blocks++;
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b = b->next;
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}
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return n_blocks;
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}
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static void
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base_auto_thp_switch(tsdn_t *tsdn, base_t *base) {
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assert(opt_metadata_thp == metadata_thp_auto);
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malloc_mutex_assert_owner(tsdn, &base->mtx);
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if (base->auto_thp_switched) {
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return;
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}
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/* Called when adding a new block. */
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bool should_switch;
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if (base_ind_get(base) != 0) {
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should_switch = (base_get_num_blocks(base, true) ==
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BASE_AUTO_THP_THRESHOLD);
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} else {
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should_switch = (base_get_num_blocks(base, true) ==
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BASE_AUTO_THP_THRESHOLD_A0);
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}
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if (!should_switch) {
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return;
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}
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base->auto_thp_switched = true;
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assert(!config_stats || base->n_thp == 0);
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/* Make the initial blocks THP lazily. */
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base_block_t *block = base->blocks;
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while (block != NULL) {
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assert((block->size & HUGEPAGE_MASK) == 0);
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pages_huge(block, block->size);
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if (config_stats) {
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base->n_thp += HUGEPAGE_CEILING(block->size -
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edata_bsize_get(&block->edata)) >> LG_HUGEPAGE;
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}
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block = block->next;
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assert(block == NULL || (base_ind_get(base) == 0));
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}
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}
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static void *
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base_extent_bump_alloc_helper(edata_t *edata, size_t *gap_size, size_t size,
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size_t alignment) {
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void *ret;
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assert(alignment == ALIGNMENT_CEILING(alignment, QUANTUM));
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assert(size == ALIGNMENT_CEILING(size, alignment));
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*gap_size = ALIGNMENT_CEILING((uintptr_t)edata_addr_get(edata),
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alignment) - (uintptr_t)edata_addr_get(edata);
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ret = (void *)((uintptr_t)edata_addr_get(edata) + *gap_size);
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assert(edata_bsize_get(edata) >= *gap_size + size);
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edata_binit(edata, (void *)((uintptr_t)edata_addr_get(edata) +
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*gap_size + size), edata_bsize_get(edata) - *gap_size - size,
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edata_sn_get(edata));
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return ret;
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}
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static void
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base_extent_bump_alloc_post(base_t *base, edata_t *edata, size_t gap_size,
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void *addr, size_t size) {
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if (edata_bsize_get(edata) > 0) {
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/*
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* Compute the index for the largest size class that does not
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* exceed extent's size.
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*/
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szind_t index_floor =
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sz_size2index(edata_bsize_get(edata) + 1) - 1;
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edata_heap_insert(&base->avail[index_floor], edata);
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}
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if (config_stats) {
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base->allocated += size;
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/*
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* Add one PAGE to base_resident for every page boundary that is
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* crossed by the new allocation. Adjust n_thp similarly when
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* metadata_thp is enabled.
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*/
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base->resident += PAGE_CEILING((uintptr_t)addr + size) -
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PAGE_CEILING((uintptr_t)addr - gap_size);
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assert(base->allocated <= base->resident);
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assert(base->resident <= base->mapped);
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if (metadata_thp_madvise() && (opt_metadata_thp ==
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metadata_thp_always || base->auto_thp_switched)) {
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base->n_thp += (HUGEPAGE_CEILING((uintptr_t)addr + size)
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- HUGEPAGE_CEILING((uintptr_t)addr - gap_size)) >>
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LG_HUGEPAGE;
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assert(base->mapped >= base->n_thp << LG_HUGEPAGE);
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}
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}
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}
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static void *
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base_extent_bump_alloc(base_t *base, edata_t *edata, size_t size,
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size_t alignment) {
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void *ret;
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size_t gap_size;
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ret = base_extent_bump_alloc_helper(edata, &gap_size, size, alignment);
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base_extent_bump_alloc_post(base, edata, gap_size, ret, size);
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return ret;
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}
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/*
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* Allocate a block of virtual memory that is large enough to start with a
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* base_block_t header, followed by an object of specified size and alignment.
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* On success a pointer to the initialized base_block_t header is returned.
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*/
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static base_block_t *
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base_block_alloc(tsdn_t *tsdn, base_t *base, ehooks_t *ehooks, unsigned ind,
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pszind_t *pind_last, size_t *extent_sn_next, size_t size,
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size_t alignment) {
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alignment = ALIGNMENT_CEILING(alignment, QUANTUM);
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size_t usize = ALIGNMENT_CEILING(size, alignment);
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size_t header_size = sizeof(base_block_t);
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size_t gap_size = ALIGNMENT_CEILING(header_size, alignment) -
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header_size;
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/*
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* Create increasingly larger blocks in order to limit the total number
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* of disjoint virtual memory ranges. Choose the next size in the page
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* size class series (skipping size classes that are not a multiple of
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* HUGEPAGE), or a size large enough to satisfy the requested size and
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* alignment, whichever is larger.
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*/
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size_t min_block_size = HUGEPAGE_CEILING(sz_psz2u(header_size + gap_size
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+ usize));
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pszind_t pind_next = (*pind_last + 1 < sz_psz2ind(SC_LARGE_MAXCLASS)) ?
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*pind_last + 1 : *pind_last;
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size_t next_block_size = HUGEPAGE_CEILING(sz_pind2sz(pind_next));
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size_t block_size = (min_block_size > next_block_size) ? min_block_size
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: next_block_size;
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base_block_t *block = (base_block_t *)base_map(tsdn, ehooks, ind,
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block_size);
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if (block == NULL) {
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return NULL;
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}
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if (metadata_thp_madvise()) {
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void *addr = (void *)block;
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assert(((uintptr_t)addr & HUGEPAGE_MASK) == 0 &&
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(block_size & HUGEPAGE_MASK) == 0);
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if (opt_metadata_thp == metadata_thp_always) {
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pages_huge(addr, block_size);
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} else if (opt_metadata_thp == metadata_thp_auto &&
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base != NULL) {
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/* base != NULL indicates this is not a new base. */
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malloc_mutex_lock(tsdn, &base->mtx);
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base_auto_thp_switch(tsdn, base);
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if (base->auto_thp_switched) {
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pages_huge(addr, block_size);
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}
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malloc_mutex_unlock(tsdn, &base->mtx);
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}
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}
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*pind_last = sz_psz2ind(block_size);
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block->size = block_size;
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block->next = NULL;
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assert(block_size >= header_size);
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base_edata_init(extent_sn_next, &block->edata,
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(void *)((uintptr_t)block + header_size), block_size - header_size);
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return block;
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}
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/*
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* Allocate an extent that is at least as large as specified size, with
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* specified alignment.
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*/
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static edata_t *
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base_extent_alloc(tsdn_t *tsdn, base_t *base, size_t size, size_t alignment) {
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malloc_mutex_assert_owner(tsdn, &base->mtx);
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ehooks_t *ehooks = base_ehooks_get(base);
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/*
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* Drop mutex during base_block_alloc(), because an extent hook will be
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* called.
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*/
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malloc_mutex_unlock(tsdn, &base->mtx);
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base_block_t *block = base_block_alloc(tsdn, base, ehooks,
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base_ind_get(base), &base->pind_last, &base->extent_sn_next, size,
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alignment);
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malloc_mutex_lock(tsdn, &base->mtx);
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if (block == NULL) {
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return NULL;
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}
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block->next = base->blocks;
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base->blocks = block;
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if (config_stats) {
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base->allocated += sizeof(base_block_t);
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base->resident += PAGE_CEILING(sizeof(base_block_t));
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base->mapped += block->size;
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if (metadata_thp_madvise() &&
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!(opt_metadata_thp == metadata_thp_auto
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&& !base->auto_thp_switched)) {
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assert(base->n_thp > 0);
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base->n_thp += HUGEPAGE_CEILING(sizeof(base_block_t)) >>
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LG_HUGEPAGE;
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}
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assert(base->allocated <= base->resident);
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assert(base->resident <= base->mapped);
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assert(base->n_thp << LG_HUGEPAGE <= base->mapped);
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}
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return &block->edata;
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}
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base_t *
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b0get(void) {
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return b0;
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}
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base_t *
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base_new(tsdn_t *tsdn, unsigned ind, const extent_hooks_t *extent_hooks) {
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pszind_t pind_last = 0;
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size_t extent_sn_next = 0;
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/*
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* The base will contain the ehooks eventually, but it itself is
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* allocated using them. So we use some stack ehooks to bootstrap its
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* memory, and then initialize the ehooks within the base_t.
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*/
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ehooks_t fake_ehooks;
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ehooks_init(&fake_ehooks, (extent_hooks_t *)extent_hooks, ind);
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base_block_t *block = base_block_alloc(tsdn, NULL, &fake_ehooks, ind,
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&pind_last, &extent_sn_next, sizeof(base_t), QUANTUM);
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if (block == NULL) {
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return NULL;
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}
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size_t gap_size;
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size_t base_alignment = CACHELINE;
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size_t base_size = ALIGNMENT_CEILING(sizeof(base_t), base_alignment);
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base_t *base = (base_t *)base_extent_bump_alloc_helper(&block->edata,
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&gap_size, base_size, base_alignment);
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ehooks_init(&base->ehooks, (extent_hooks_t *)extent_hooks, ind);
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if (malloc_mutex_init(&base->mtx, "base", WITNESS_RANK_BASE,
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malloc_mutex_rank_exclusive)) {
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base_unmap(tsdn, &fake_ehooks, ind, block, block->size);
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return NULL;
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}
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base->pind_last = pind_last;
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base->extent_sn_next = extent_sn_next;
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base->blocks = block;
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base->auto_thp_switched = false;
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for (szind_t i = 0; i < SC_NSIZES; i++) {
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edata_heap_new(&base->avail[i]);
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}
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if (config_stats) {
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base->allocated = sizeof(base_block_t);
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base->resident = PAGE_CEILING(sizeof(base_block_t));
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base->mapped = block->size;
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base->n_thp = (opt_metadata_thp == metadata_thp_always) &&
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metadata_thp_madvise() ? HUGEPAGE_CEILING(sizeof(base_block_t))
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>> LG_HUGEPAGE : 0;
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assert(base->allocated <= base->resident);
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assert(base->resident <= base->mapped);
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assert(base->n_thp << LG_HUGEPAGE <= base->mapped);
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}
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base_extent_bump_alloc_post(base, &block->edata, gap_size, base,
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base_size);
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return base;
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}
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void
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base_delete(tsdn_t *tsdn, base_t *base) {
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ehooks_t *ehooks = base_ehooks_get(base);
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base_block_t *next = base->blocks;
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do {
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base_block_t *block = next;
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next = block->next;
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base_unmap(tsdn, ehooks, base_ind_get(base), block,
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block->size);
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} while (next != NULL);
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}
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ehooks_t *
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base_ehooks_get(base_t *base) {
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return &base->ehooks;
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}
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extent_hooks_t *
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base_extent_hooks_set(base_t *base, extent_hooks_t *extent_hooks) {
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extent_hooks_t *old_extent_hooks =
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ehooks_get_extent_hooks_ptr(&base->ehooks);
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ehooks_init(&base->ehooks, extent_hooks, ehooks_ind_get(&base->ehooks));
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return old_extent_hooks;
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}
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static void *
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base_alloc_impl(tsdn_t *tsdn, base_t *base, size_t size, size_t alignment,
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size_t *esn) {
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alignment = QUANTUM_CEILING(alignment);
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size_t usize = ALIGNMENT_CEILING(size, alignment);
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size_t asize = usize + alignment - QUANTUM;
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edata_t *edata = NULL;
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malloc_mutex_lock(tsdn, &base->mtx);
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for (szind_t i = sz_size2index(asize); i < SC_NSIZES; i++) {
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edata = edata_heap_remove_first(&base->avail[i]);
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if (edata != NULL) {
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/* Use existing space. */
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break;
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}
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}
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if (edata == NULL) {
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/* Try to allocate more space. */
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edata = base_extent_alloc(tsdn, base, usize, alignment);
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}
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void *ret;
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if (edata == NULL) {
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ret = NULL;
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goto label_return;
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}
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ret = base_extent_bump_alloc(base, edata, usize, alignment);
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if (esn != NULL) {
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*esn = (size_t)edata_sn_get(edata);
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}
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label_return:
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malloc_mutex_unlock(tsdn, &base->mtx);
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return ret;
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}
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/*
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* base_alloc() returns zeroed memory, which is always demand-zeroed for the
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* auto arenas, in order to make multi-page sparse data structures such as radix
|
|
* tree nodes efficient with respect to physical memory usage. Upon success a
|
|
* pointer to at least size bytes with specified alignment is returned. Note
|
|
* that size is rounded up to the nearest multiple of alignment to avoid false
|
|
* sharing.
|
|
*/
|
|
void *
|
|
base_alloc(tsdn_t *tsdn, base_t *base, size_t size, size_t alignment) {
|
|
return base_alloc_impl(tsdn, base, size, alignment, NULL);
|
|
}
|
|
|
|
edata_t *
|
|
base_alloc_edata(tsdn_t *tsdn, base_t *base) {
|
|
size_t esn;
|
|
edata_t *edata = base_alloc_impl(tsdn, base, sizeof(edata_t),
|
|
EDATA_ALIGNMENT, &esn);
|
|
if (edata == NULL) {
|
|
return NULL;
|
|
}
|
|
edata_esn_set(edata, esn);
|
|
return edata;
|
|
}
|
|
|
|
void
|
|
base_stats_get(tsdn_t *tsdn, base_t *base, size_t *allocated, size_t *resident,
|
|
size_t *mapped, size_t *n_thp) {
|
|
cassert(config_stats);
|
|
|
|
malloc_mutex_lock(tsdn, &base->mtx);
|
|
assert(base->allocated <= base->resident);
|
|
assert(base->resident <= base->mapped);
|
|
*allocated = base->allocated;
|
|
*resident = base->resident;
|
|
*mapped = base->mapped;
|
|
*n_thp = base->n_thp;
|
|
malloc_mutex_unlock(tsdn, &base->mtx);
|
|
}
|
|
|
|
void
|
|
base_prefork(tsdn_t *tsdn, base_t *base) {
|
|
malloc_mutex_prefork(tsdn, &base->mtx);
|
|
}
|
|
|
|
void
|
|
base_postfork_parent(tsdn_t *tsdn, base_t *base) {
|
|
malloc_mutex_postfork_parent(tsdn, &base->mtx);
|
|
}
|
|
|
|
void
|
|
base_postfork_child(tsdn_t *tsdn, base_t *base) {
|
|
malloc_mutex_postfork_child(tsdn, &base->mtx);
|
|
}
|
|
|
|
bool
|
|
base_boot(tsdn_t *tsdn) {
|
|
b0 = base_new(tsdn, 0, (extent_hooks_t *)&ehooks_default_extent_hooks);
|
|
return (b0 == NULL);
|
|
}
|