#include "jemalloc/internal/jemalloc_preamble.h" #include "jemalloc/internal/jemalloc_internal_includes.h" #include "jemalloc/internal/assert.h" #include "jemalloc/internal/emap.h" #include "jemalloc/internal/extent_dss.h" #include "jemalloc/internal/extent_mmap.h" #include "jemalloc/internal/ph.h" #include "jemalloc/internal/mutex.h" /******************************************************************************/ /* Data. */ size_t opt_lg_extent_max_active_fit = LG_EXTENT_MAX_ACTIVE_FIT_DEFAULT; static bool extent_commit_impl(tsdn_t *tsdn, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained); static bool extent_purge_lazy_impl(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained); static bool extent_purge_forced_impl(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained); static edata_t *extent_split_impl(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, edata_t *edata, size_t size_a, szind_t szind_a, bool slab_a, size_t size_b, szind_t szind_b, bool slab_b, bool growing_retained); static bool extent_merge_impl(tsdn_t *tsdn, ehooks_t *ehooks, edata_cache_t *edata_cache, edata_t *a, edata_t *b, bool growing_retained); /* Used exclusively for gdump triggering. */ static atomic_zu_t curpages; static atomic_zu_t highpages; /******************************************************************************/ /* * Function prototypes for static functions that are referenced prior to * definition. */ static void extent_deregister(tsdn_t *tsdn, edata_t *edata); static edata_t *extent_recycle(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t usize, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit, bool growing_retained); static edata_t *extent_try_coalesce(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool *coalesced, bool growing_retained); static void extent_record(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool growing_retained); static edata_t *extent_alloc_retained(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit); /******************************************************************************/ static bool extent_try_delayed_coalesce(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata) { edata_state_set(edata, extent_state_active); bool coalesced; edata = extent_try_coalesce(tsdn, edata_cache, ehooks, ecache, edata, &coalesced, false); edata_state_set(edata, ecache->state); if (!coalesced) { return true; } eset_insert(&ecache->eset, edata); return false; } edata_t * ecache_alloc(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero) { assert(size != 0); assert(alignment != 0); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); bool commit = true; edata_t *edata = extent_recycle(tsdn, arena, ehooks, ecache, new_addr, size, alignment, slab, szind, zero, &commit, false); assert(edata == NULL || edata_dumpable_get(edata)); return edata; } edata_t * ecache_alloc_grow(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero) { assert(size != 0); assert(alignment != 0); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); bool commit = true; edata_t *edata = extent_alloc_retained(tsdn, arena, ehooks, new_addr, size, alignment, slab, szind, zero, &commit); if (edata == NULL) { if (opt_retain && new_addr != NULL) { /* * When retain is enabled and new_addr is set, we do not * attempt extent_alloc_wrapper which does mmap that is * very unlikely to succeed (unless it happens to be at * the end). */ return NULL; } edata = extent_alloc_wrapper(tsdn, arena, ehooks, new_addr, size, alignment, slab, szind, zero, &commit); } assert(edata == NULL || edata_dumpable_get(edata)); return edata; } void ecache_dalloc(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata) { assert(edata_base_get(edata) != NULL); assert(edata_size_get(edata) != 0); assert(edata_dumpable_get(edata)); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); edata_addr_set(edata, edata_base_get(edata)); edata_zeroed_set(edata, false); extent_record(tsdn, arena, ehooks, ecache, edata, false); } edata_t * ecache_evict(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, size_t npages_min) { malloc_mutex_lock(tsdn, &ecache->mtx); /* * Get the LRU coalesced extent, if any. If coalescing was delayed, * the loop will iterate until the LRU extent is fully coalesced. */ edata_t *edata; while (true) { /* Get the LRU extent, if any. */ edata = edata_list_first(&ecache->eset.lru); if (edata == NULL) { goto label_return; } /* Check the eviction limit. */ size_t extents_npages = ecache_npages_get(ecache); if (extents_npages <= npages_min) { edata = NULL; goto label_return; } eset_remove(&ecache->eset, edata); if (!ecache->delay_coalesce) { break; } /* Try to coalesce. */ if (extent_try_delayed_coalesce(tsdn, &arena->pa_shard.edata_cache, ehooks, ecache, edata)) { break; } /* * The LRU extent was just coalesced and the result placed in * the LRU at its neighbor's position. Start over. */ } /* * Either mark the extent active or deregister it to protect against * concurrent operations. */ switch (ecache->state) { case extent_state_active: not_reached(); case extent_state_dirty: case extent_state_muzzy: edata_state_set(edata, extent_state_active); break; case extent_state_retained: extent_deregister(tsdn, edata); break; default: not_reached(); } label_return: malloc_mutex_unlock(tsdn, &ecache->mtx); return edata; } /* * This can only happen when we fail to allocate a new extent struct (which * indicates OOM), e.g. when trying to split an existing extent. */ static void extents_abandon_vm(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool growing_retained) { size_t sz = edata_size_get(edata); if (config_stats) { atomic_fetch_add_zu(&arena->pa_shard.stats->abandoned_vm, sz, ATOMIC_RELAXED); } /* * Leak extent after making sure its pages have already been purged, so * that this is only a virtual memory leak. */ if (ecache->state == extent_state_dirty) { if (extent_purge_lazy_impl(tsdn, arena, ehooks, edata, 0, sz, growing_retained)) { extent_purge_forced_impl(tsdn, arena, ehooks, edata, 0, edata_size_get(edata), growing_retained); } } edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); } static void extent_deactivate_locked(tsdn_t *tsdn, ecache_t *ecache, edata_t *edata) { assert(edata_arena_ind_get(edata) == ecache_ind_get(ecache)); assert(edata_state_get(edata) == extent_state_active); edata_state_set(edata, ecache->state); eset_insert(&ecache->eset, edata); } static void extent_deactivate(tsdn_t *tsdn, ecache_t *ecache, edata_t *edata) { malloc_mutex_lock(tsdn, &ecache->mtx); extent_deactivate_locked(tsdn, ecache, edata); malloc_mutex_unlock(tsdn, &ecache->mtx); } static void extent_activate_locked(tsdn_t *tsdn, ecache_t *ecache, edata_t *edata) { assert(edata_arena_ind_get(edata) == ecache_ind_get(ecache)); assert(edata_state_get(edata) == ecache->state); eset_remove(&ecache->eset, edata); edata_state_set(edata, extent_state_active); } static void extent_gdump_add(tsdn_t *tsdn, const edata_t *edata) { cassert(config_prof); /* prof_gdump() requirement. */ witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); if (opt_prof && edata_state_get(edata) == extent_state_active) { size_t nadd = edata_size_get(edata) >> LG_PAGE; size_t cur = atomic_fetch_add_zu(&curpages, nadd, ATOMIC_RELAXED) + nadd; size_t high = atomic_load_zu(&highpages, ATOMIC_RELAXED); while (cur > high && !atomic_compare_exchange_weak_zu( &highpages, &high, cur, ATOMIC_RELAXED, ATOMIC_RELAXED)) { /* * Don't refresh cur, because it may have decreased * since this thread lost the highpages update race. * Note that high is updated in case of CAS failure. */ } if (cur > high && prof_gdump_get_unlocked()) { prof_gdump(tsdn); } } } static void extent_gdump_sub(tsdn_t *tsdn, const edata_t *edata) { cassert(config_prof); if (opt_prof && edata_state_get(edata) == extent_state_active) { size_t nsub = edata_size_get(edata) >> LG_PAGE; assert(atomic_load_zu(&curpages, ATOMIC_RELAXED) >= nsub); atomic_fetch_sub_zu(&curpages, nsub, ATOMIC_RELAXED); } } static bool extent_register_impl(tsdn_t *tsdn, edata_t *edata, bool gdump_add) { /* * We need to hold the lock to protect against a concurrent coalesce * operation that sees us in a partial state. */ emap_lock_edata(tsdn, &emap_global, edata); szind_t szind = edata_szind_get_maybe_invalid(edata); bool slab = edata_slab_get(edata); if (emap_register_boundary(tsdn, &emap_global, edata, szind, slab)) { emap_unlock_edata(tsdn, &emap_global, edata); return true; } if (slab) { emap_register_interior(tsdn, &emap_global, edata, szind); } emap_unlock_edata(tsdn, &emap_global, edata); if (config_prof && gdump_add) { extent_gdump_add(tsdn, edata); } return false; } static bool extent_register(tsdn_t *tsdn, edata_t *edata) { return extent_register_impl(tsdn, edata, true); } static bool extent_register_no_gdump_add(tsdn_t *tsdn, edata_t *edata) { return extent_register_impl(tsdn, edata, false); } static void extent_reregister(tsdn_t *tsdn, edata_t *edata) { bool err = extent_register(tsdn, edata); assert(!err); } /* * Removes all pointers to the given extent from the global rtree. */ static void extent_deregister_impl(tsdn_t *tsdn, edata_t *edata, bool gdump) { emap_lock_edata(tsdn, &emap_global, edata); emap_deregister_boundary(tsdn, &emap_global, edata); if (edata_slab_get(edata)) { emap_deregister_interior(tsdn, &emap_global, edata); edata_slab_set(edata, false); } emap_unlock_edata(tsdn, &emap_global, edata); if (config_prof && gdump) { extent_gdump_sub(tsdn, edata); } } static void extent_deregister(tsdn_t *tsdn, edata_t *edata) { extent_deregister_impl(tsdn, edata, true); } static void extent_deregister_no_gdump_sub(tsdn_t *tsdn, edata_t *edata) { extent_deregister_impl(tsdn, edata, false); } /* * Tries to find and remove an extent from ecache that can be used for the * given allocation request. */ static edata_t * extent_recycle_extract(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t size, size_t alignment, bool slab, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); assert(alignment > 0); if (config_debug && new_addr != NULL) { /* * Non-NULL new_addr has two use cases: * * 1) Recycle a known-extant extent, e.g. during purging. * 2) Perform in-place expanding reallocation. * * Regardless of use case, new_addr must either refer to a * non-existing extent, or to the base of an extant extent, * since only active slabs support interior lookups (which of * course cannot be recycled). */ assert(PAGE_ADDR2BASE(new_addr) == new_addr); assert(alignment <= PAGE); } malloc_mutex_lock(tsdn, &ecache->mtx); edata_t *edata; if (new_addr != NULL) { edata = emap_lock_edata_from_addr(tsdn, &emap_global, new_addr, false); if (edata != NULL) { /* * We might null-out edata to report an error, but we * still need to unlock the associated mutex after. */ edata_t *unlock_edata = edata; assert(edata_base_get(edata) == new_addr); if (edata_arena_ind_get(edata) != ecache_ind_get(ecache) || edata_size_get(edata) < size || edata_state_get(edata) != ecache->state) { edata = NULL; } emap_unlock_edata(tsdn, &emap_global, unlock_edata); } } else { edata = eset_fit(&ecache->eset, size, alignment, ecache->delay_coalesce); } if (edata == NULL) { malloc_mutex_unlock(tsdn, &ecache->mtx); return NULL; } extent_activate_locked(tsdn, ecache, edata); malloc_mutex_unlock(tsdn, &ecache->mtx); return edata; } /* * Given an allocation request and an extent guaranteed to be able to satisfy * it, this splits off lead and trail extents, leaving edata pointing to an * extent satisfying the allocation. * This function doesn't put lead or trail into any ecache; it's the caller's * job to ensure that they can be reused. */ typedef enum { /* * Split successfully. lead, edata, and trail, are modified to extents * describing the ranges before, in, and after the given allocation. */ extent_split_interior_ok, /* * The extent can't satisfy the given allocation request. None of the * input edata_t *s are touched. */ extent_split_interior_cant_alloc, /* * In a potentially invalid state. Must leak (if *to_leak is non-NULL), * and salvage what's still salvageable (if *to_salvage is non-NULL). * None of lead, edata, or trail are valid. */ extent_split_interior_error } extent_split_interior_result_t; static extent_split_interior_result_t extent_split_interior(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, /* The result of splitting, in case of success. */ edata_t **edata, edata_t **lead, edata_t **trail, /* The mess to clean up, in case of error. */ edata_t **to_leak, edata_t **to_salvage, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool growing_retained) { size_t leadsize = ALIGNMENT_CEILING((uintptr_t)edata_base_get(*edata), PAGE_CEILING(alignment)) - (uintptr_t)edata_base_get(*edata); assert(new_addr == NULL || leadsize == 0); if (edata_size_get(*edata) < leadsize + size) { return extent_split_interior_cant_alloc; } size_t trailsize = edata_size_get(*edata) - leadsize - size; *lead = NULL; *trail = NULL; *to_leak = NULL; *to_salvage = NULL; /* Split the lead. */ if (leadsize != 0) { *lead = *edata; *edata = extent_split_impl(tsdn, &arena->pa_shard.edata_cache, ehooks, *lead, leadsize, SC_NSIZES, false, size + trailsize, szind, slab, growing_retained); if (*edata == NULL) { *to_leak = *lead; *lead = NULL; return extent_split_interior_error; } } /* Split the trail. */ if (trailsize != 0) { *trail = extent_split_impl(tsdn, &arena->pa_shard.edata_cache, ehooks, *edata, size, szind, slab, trailsize, SC_NSIZES, false, growing_retained); if (*trail == NULL) { *to_leak = *edata; *to_salvage = *lead; *lead = NULL; *edata = NULL; return extent_split_interior_error; } } if (leadsize == 0 && trailsize == 0) { emap_remap(tsdn, &emap_global, *edata, szind, slab); } return extent_split_interior_ok; } /* * This fulfills the indicated allocation request out of the given extent (which * the caller should have ensured was big enough). If there's any unused space * before or after the resulting allocation, that space is given its own extent * and put back into ecache. */ static edata_t * extent_recycle_split(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, edata_t *edata, bool growing_retained) { edata_t *lead; edata_t *trail; edata_t *to_leak JEMALLOC_CC_SILENCE_INIT(NULL); edata_t *to_salvage JEMALLOC_CC_SILENCE_INIT(NULL); extent_split_interior_result_t result = extent_split_interior( tsdn, arena, ehooks, &edata, &lead, &trail, &to_leak, &to_salvage, new_addr, size, alignment, slab, szind, growing_retained); if (!maps_coalesce && result != extent_split_interior_ok && !opt_retain) { /* * Split isn't supported (implies Windows w/o retain). Avoid * leaking the extent. */ assert(to_leak != NULL && lead == NULL && trail == NULL); extent_deactivate(tsdn, ecache, to_leak); return NULL; } if (result == extent_split_interior_ok) { if (lead != NULL) { extent_deactivate(tsdn, ecache, lead); } if (trail != NULL) { extent_deactivate(tsdn, ecache, trail); } return edata; } else { /* * We should have picked an extent that was large enough to * fulfill our allocation request. */ assert(result == extent_split_interior_error); if (to_salvage != NULL) { extent_deregister(tsdn, to_salvage); } if (to_leak != NULL) { void *leak = edata_base_get(to_leak); extent_deregister_no_gdump_sub(tsdn, to_leak); extents_abandon_vm(tsdn, arena, ehooks, ecache, to_leak, growing_retained); assert(emap_lock_edata_from_addr(tsdn, &emap_global, leak, false) == NULL); } return NULL; } unreachable(); } /* * Tries to satisfy the given allocation request by reusing one of the extents * in the given ecache_t. */ static edata_t * extent_recycle(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); assert(new_addr == NULL || !slab); assert(!*zero || !slab); edata_t *edata = extent_recycle_extract(tsdn, arena, ehooks, ecache, new_addr, size, alignment, slab, growing_retained); if (edata == NULL) { return NULL; } edata = extent_recycle_split(tsdn, arena, ehooks, ecache, new_addr, size, alignment, slab, szind, edata, growing_retained); if (edata == NULL) { return NULL; } if (*commit && !edata_committed_get(edata)) { if (extent_commit_impl(tsdn, ehooks, edata, 0, edata_size_get(edata), growing_retained)) { extent_record(tsdn, arena, ehooks, ecache, edata, growing_retained); return NULL; } } if (edata_committed_get(edata)) { *commit = true; } if (edata_zeroed_get(edata)) { *zero = true; } assert(edata_state_get(edata) == extent_state_active); if (slab) { edata_slab_set(edata, slab); emap_register_interior(tsdn, &emap_global, edata, szind); } if (*zero) { void *addr = edata_base_get(edata); if (!edata_zeroed_get(edata)) { size_t size = edata_size_get(edata); ehooks_zero(tsdn, ehooks, addr, size); } } return edata; } /* * If virtual memory is retained, create increasingly larger extents from which * to split requested extents in order to limit the total number of disjoint * virtual memory ranges retained by each arena. */ static edata_t * extent_grow_retained(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit) { malloc_mutex_assert_owner(tsdn, &arena->pa_shard.ecache_grow.mtx); assert(!*zero || !slab); size_t alloc_size_min = size + PAGE_CEILING(alignment) - PAGE; /* Beware size_t wrap-around. */ if (alloc_size_min < size) { goto label_err; } /* * Find the next extent size in the series that would be large enough to * satisfy this request. */ pszind_t egn_skip = 0; size_t alloc_size = sz_pind2sz( arena->pa_shard.ecache_grow.next + egn_skip); while (alloc_size < alloc_size_min) { egn_skip++; if (arena->pa_shard.ecache_grow.next + egn_skip >= sz_psz2ind(SC_LARGE_MAXCLASS)) { /* Outside legal range. */ goto label_err; } alloc_size = sz_pind2sz( arena->pa_shard.ecache_grow.next + egn_skip); } edata_t *edata = edata_cache_get(tsdn, &arena->pa_shard.edata_cache); if (edata == NULL) { goto label_err; } bool zeroed = false; bool committed = false; void *ptr = ehooks_alloc(tsdn, ehooks, NULL, alloc_size, PAGE, &zeroed, &committed); if (ptr == NULL) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); goto label_err; } edata_init(edata, ecache_ind_get(&arena->pa_shard.ecache_retained), ptr, alloc_size, false, SC_NSIZES, pa_shard_extent_sn_next(&arena->pa_shard), extent_state_active, zeroed, committed, true, EXTENT_IS_HEAD); if (extent_register_no_gdump_add(tsdn, edata)) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); goto label_err; } if (edata_zeroed_get(edata) && edata_committed_get(edata)) { *zero = true; } if (edata_committed_get(edata)) { *commit = true; } edata_t *lead; edata_t *trail; edata_t *to_leak JEMALLOC_CC_SILENCE_INIT(NULL); edata_t *to_salvage JEMALLOC_CC_SILENCE_INIT(NULL); extent_split_interior_result_t result = extent_split_interior(tsdn, arena, ehooks, &edata, &lead, &trail, &to_leak, &to_salvage, NULL, size, alignment, slab, szind, true); if (result == extent_split_interior_ok) { if (lead != NULL) { extent_record(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, lead, true); } if (trail != NULL) { extent_record(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, trail, true); } } else { /* * We should have allocated a sufficiently large extent; the * cant_alloc case should not occur. */ assert(result == extent_split_interior_error); if (to_salvage != NULL) { if (config_prof) { extent_gdump_add(tsdn, to_salvage); } extent_record(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, to_salvage, true); } if (to_leak != NULL) { extent_deregister_no_gdump_sub(tsdn, to_leak); extents_abandon_vm(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, to_leak, true); } goto label_err; } if (*commit && !edata_committed_get(edata)) { if (extent_commit_impl(tsdn, ehooks, edata, 0, edata_size_get(edata), true)) { extent_record(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, edata, true); goto label_err; } /* A successful commit should return zeroed memory. */ if (config_debug) { void *addr = edata_addr_get(edata); size_t *p = (size_t *)(uintptr_t)addr; /* Check the first page only. */ for (size_t i = 0; i < PAGE / sizeof(size_t); i++) { assert(p[i] == 0); } } } /* * Increment extent_grow_next if doing so wouldn't exceed the allowed * range. */ if (arena->pa_shard.ecache_grow.next + egn_skip + 1 <= arena->pa_shard.ecache_grow.limit) { arena->pa_shard.ecache_grow.next += egn_skip + 1; } else { arena->pa_shard.ecache_grow.next = arena->pa_shard.ecache_grow.limit; } /* All opportunities for failure are past. */ malloc_mutex_unlock(tsdn, &arena->pa_shard.ecache_grow.mtx); if (config_prof) { /* Adjust gdump stats now that extent is final size. */ extent_gdump_add(tsdn, edata); } if (slab) { edata_slab_set(edata, true); emap_register_interior(tsdn, &emap_global, edata, szind); } if (*zero && !edata_zeroed_get(edata)) { void *addr = edata_base_get(edata); size_t size = edata_size_get(edata); ehooks_zero(tsdn, ehooks, addr, size); } return edata; label_err: malloc_mutex_unlock(tsdn, &arena->pa_shard.ecache_grow.mtx); return NULL; } static edata_t * extent_alloc_retained(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit) { assert(size != 0); assert(alignment != 0); malloc_mutex_lock(tsdn, &arena->pa_shard.ecache_grow.mtx); edata_t *edata = extent_recycle(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, new_addr, size, alignment, slab, szind, zero, commit, true); if (edata != NULL) { malloc_mutex_unlock(tsdn, &arena->pa_shard.ecache_grow.mtx); if (config_prof) { extent_gdump_add(tsdn, edata); } } else if (opt_retain && new_addr == NULL) { edata = extent_grow_retained(tsdn, arena, ehooks, size, alignment, slab, szind, zero, commit); /* extent_grow_retained() always releases extent_grow_mtx. */ } else { malloc_mutex_unlock(tsdn, &arena->pa_shard.ecache_grow.mtx); } malloc_mutex_assert_not_owner(tsdn, &arena->pa_shard.ecache_grow.mtx); return edata; } edata_t * extent_alloc_wrapper(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, void *new_addr, size_t size, size_t alignment, bool slab, szind_t szind, bool *zero, bool *commit) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); edata_t *edata = edata_cache_get(tsdn, &arena->pa_shard.edata_cache); if (edata == NULL) { return NULL; } size_t palignment = ALIGNMENT_CEILING(alignment, PAGE); void *addr = ehooks_alloc(tsdn, ehooks, new_addr, size, palignment, zero, commit); if (addr == NULL) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); return NULL; } edata_init(edata, ecache_ind_get(&arena->pa_shard.ecache_dirty), addr, size, slab, szind, pa_shard_extent_sn_next(&arena->pa_shard), extent_state_active, *zero, *commit, true, EXTENT_NOT_HEAD); if (extent_register(tsdn, edata)) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); return NULL; } return edata; } static bool extent_can_coalesce(ecache_t *ecache, const edata_t *inner, const edata_t *outer) { assert(edata_arena_ind_get(inner) == ecache_ind_get(ecache)); if (edata_arena_ind_get(inner) != edata_arena_ind_get(outer)) { return false; } assert(edata_state_get(inner) == extent_state_active); if (edata_state_get(outer) != ecache->state) { return false; } if (edata_committed_get(inner) != edata_committed_get(outer)) { return false; } return true; } static bool extent_coalesce(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *inner, edata_t *outer, bool forward, bool growing_retained) { assert(extent_can_coalesce(ecache, inner, outer)); extent_activate_locked(tsdn, ecache, outer); malloc_mutex_unlock(tsdn, &ecache->mtx); bool err = extent_merge_impl(tsdn, ehooks, edata_cache, forward ? inner : outer, forward ? outer : inner, growing_retained); malloc_mutex_lock(tsdn, &ecache->mtx); if (err) { extent_deactivate_locked(tsdn, ecache, outer); } return err; } static edata_t * extent_try_coalesce_impl(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool *coalesced, bool growing_retained, bool inactive_only) { /* * We avoid checking / locking inactive neighbors for large size * classes, since they are eagerly coalesced on deallocation which can * cause lock contention. */ /* * Continue attempting to coalesce until failure, to protect against * races with other threads that are thwarted by this one. */ bool again; do { again = false; /* Try to coalesce forward. */ edata_t *next = emap_lock_edata_from_addr(tsdn, &emap_global, edata_past_get(edata), inactive_only); if (next != NULL) { /* * ecache->mtx only protects against races for * like-state extents, so call extent_can_coalesce() * before releasing next's pool lock. */ bool can_coalesce = extent_can_coalesce(ecache, edata, next); emap_unlock_edata(tsdn, &emap_global, next); if (can_coalesce && !extent_coalesce(tsdn, edata_cache, ehooks, ecache, edata, next, true, growing_retained)) { if (ecache->delay_coalesce) { /* Do minimal coalescing. */ *coalesced = true; return edata; } again = true; } } /* Try to coalesce backward. */ edata_t *prev = emap_lock_edata_from_addr(tsdn, &emap_global, edata_before_get(edata), inactive_only); if (prev != NULL) { bool can_coalesce = extent_can_coalesce(ecache, edata, prev); emap_unlock_edata(tsdn, &emap_global, prev); if (can_coalesce && !extent_coalesce(tsdn, edata_cache, ehooks, ecache, edata, prev, false, growing_retained)) { edata = prev; if (ecache->delay_coalesce) { /* Do minimal coalescing. */ *coalesced = true; return edata; } again = true; } } } while (again); if (ecache->delay_coalesce) { *coalesced = false; } return edata; } static edata_t * extent_try_coalesce(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool *coalesced, bool growing_retained) { return extent_try_coalesce_impl(tsdn, edata_cache, ehooks, ecache, edata, coalesced, growing_retained, false); } static edata_t * extent_try_coalesce_large(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool *coalesced, bool growing_retained) { return extent_try_coalesce_impl(tsdn, edata_cache, ehooks, ecache, edata, coalesced, growing_retained, true); } /* Purge a single extent to retained / unmapped directly. */ static void extent_maximally_purge(tsdn_t *tsdn,arena_t *arena, ehooks_t *ehooks, edata_t *edata) { size_t extent_size = edata_size_get(edata); extent_dalloc_wrapper(tsdn, arena, ehooks, edata); if (config_stats) { /* Update stats accordingly. */ LOCKEDINT_MTX_LOCK(tsdn, *arena->pa_shard.stats_mtx); locked_inc_u64(tsdn, LOCKEDINT_MTX(*arena->pa_shard.stats_mtx), &arena->pa_shard.stats->decay_dirty.nmadvise, 1); locked_inc_u64(tsdn, LOCKEDINT_MTX(*arena->pa_shard.stats_mtx), &arena->pa_shard.stats->decay_dirty.purged, extent_size >> LG_PAGE); locked_dec_zu(tsdn, LOCKEDINT_MTX(*arena->pa_shard.stats_mtx), &arena->pa_shard.stats->mapped, extent_size); LOCKEDINT_MTX_UNLOCK(tsdn, *arena->pa_shard.stats_mtx); } } /* * Does the metadata management portions of putting an unused extent into the * given ecache_t (coalesces, deregisters slab interiors, the heap operations). */ static void extent_record(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, ecache_t *ecache, edata_t *edata, bool growing_retained) { assert((ecache->state != extent_state_dirty && ecache->state != extent_state_muzzy) || !edata_zeroed_get(edata)); malloc_mutex_lock(tsdn, &ecache->mtx); edata_szind_set(edata, SC_NSIZES); if (edata_slab_get(edata)) { emap_deregister_interior(tsdn, &emap_global, edata); edata_slab_set(edata, false); } emap_assert_mapped(tsdn, &emap_global, edata); if (!ecache->delay_coalesce) { edata = extent_try_coalesce(tsdn, &arena->pa_shard.edata_cache, ehooks, ecache, edata, NULL, growing_retained); } else if (edata_size_get(edata) >= SC_LARGE_MINCLASS) { assert(ecache == &arena->pa_shard.ecache_dirty); /* Always coalesce large extents eagerly. */ bool coalesced; do { assert(edata_state_get(edata) == extent_state_active); edata = extent_try_coalesce_large(tsdn, &arena->pa_shard.edata_cache, ehooks, ecache, edata, &coalesced, growing_retained); } while (coalesced); if (edata_size_get(edata) >= oversize_threshold && arena_may_force_decay(arena)) { /* Shortcut to purge the oversize extent eagerly. */ malloc_mutex_unlock(tsdn, &ecache->mtx); extent_maximally_purge(tsdn, arena, ehooks, edata); return; } } extent_deactivate_locked(tsdn, ecache, edata); malloc_mutex_unlock(tsdn, &ecache->mtx); } void extent_dalloc_gap(tsdn_t *tsdn, arena_t *arena, edata_t *edata) { ehooks_t *ehooks = arena_get_ehooks(arena); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); if (extent_register(tsdn, edata)) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); return; } extent_dalloc_wrapper(tsdn, arena, ehooks, edata); } static bool extent_dalloc_wrapper_try(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata) { bool err; assert(edata_base_get(edata) != NULL); assert(edata_size_get(edata) != 0); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); edata_addr_set(edata, edata_base_get(edata)); /* Try to deallocate. */ err = ehooks_dalloc(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), edata_committed_get(edata)); if (!err) { edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); } return err; } void extent_dalloc_wrapper(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata) { assert(edata_dumpable_get(edata)); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); /* Avoid calling the default extent_dalloc unless have to. */ if (!ehooks_dalloc_will_fail(ehooks)) { /* * Deregister first to avoid a race with other allocating * threads, and reregister if deallocation fails. */ extent_deregister(tsdn, edata); if (!extent_dalloc_wrapper_try(tsdn, arena, ehooks, edata)) { return; } extent_reregister(tsdn, edata); } /* Try to decommit; purge if that fails. */ bool zeroed; if (!edata_committed_get(edata)) { zeroed = true; } else if (!extent_decommit_wrapper(tsdn, ehooks, edata, 0, edata_size_get(edata))) { zeroed = true; } else if (!ehooks_purge_forced(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), 0, edata_size_get(edata))) { zeroed = true; } else if (edata_state_get(edata) == extent_state_muzzy || !ehooks_purge_lazy(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), 0, edata_size_get(edata))) { zeroed = false; } else { zeroed = false; } edata_zeroed_set(edata, zeroed); if (config_prof) { extent_gdump_sub(tsdn, edata); } extent_record(tsdn, arena, ehooks, &arena->pa_shard.ecache_retained, edata, false); } void extent_destroy_wrapper(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata) { assert(edata_base_get(edata) != NULL); assert(edata_size_get(edata) != 0); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); /* Deregister first to avoid a race with other allocating threads. */ extent_deregister(tsdn, edata); edata_addr_set(edata, edata_base_get(edata)); /* Try to destroy; silently fail otherwise. */ ehooks_destroy(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), edata_committed_get(edata)); edata_cache_put(tsdn, &arena->pa_shard.edata_cache, edata); } static bool extent_commit_impl(tsdn_t *tsdn, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); bool err = ehooks_commit(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), offset, length); edata_committed_set(edata, edata_committed_get(edata) || !err); return err; } bool extent_commit_wrapper(tsdn_t *tsdn, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length) { return extent_commit_impl(tsdn, ehooks, edata, offset, length, false); } bool extent_decommit_wrapper(tsdn_t *tsdn, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, 0); bool err = ehooks_decommit(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), offset, length); edata_committed_set(edata, edata_committed_get(edata) && err); return err; } static bool extent_purge_lazy_impl(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); bool err = ehooks_purge_lazy(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), offset, length); return err; } bool extent_purge_lazy_wrapper(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length) { return extent_purge_lazy_impl(tsdn, arena, ehooks, edata, offset, length, false); } static bool extent_purge_forced_impl(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); bool err = ehooks_purge_forced(tsdn, ehooks, edata_base_get(edata), edata_size_get(edata), offset, length); return err; } bool extent_purge_forced_wrapper(tsdn_t *tsdn, arena_t *arena, ehooks_t *ehooks, edata_t *edata, size_t offset, size_t length) { return extent_purge_forced_impl(tsdn, arena, ehooks, edata, offset, length, false); } /* * Accepts the extent to split, and the characteristics of each side of the * split. The 'a' parameters go with the 'lead' of the resulting pair of * extents (the lower addressed portion of the split), and the 'b' parameters go * with the trail (the higher addressed portion). This makes 'extent' the lead, * and returns the trail (except in case of error). */ static edata_t * extent_split_impl(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, edata_t *edata, size_t size_a, szind_t szind_a, bool slab_a, size_t size_b, szind_t szind_b, bool slab_b, bool growing_retained) { assert(edata_size_get(edata) == size_a + size_b); witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); if (ehooks_split_will_fail(ehooks)) { return NULL; } edata_t *trail = edata_cache_get(tsdn, edata_cache); if (trail == NULL) { goto label_error_a; } emap_prepare_t prepare; bool err = emap_split_prepare(tsdn, &emap_global, &prepare, edata, size_a, szind_a, slab_a, trail, size_b, szind_b, slab_b); if (err) { goto label_error_b; } emap_lock_edata2(tsdn, &emap_global, edata, trail); err = ehooks_split(tsdn, ehooks, edata_base_get(edata), size_a + size_b, size_a, size_b, edata_committed_get(edata)); if (err) { goto label_error_c; } emap_split_commit(tsdn, &emap_global, &prepare, edata, size_a, szind_a, slab_a, trail, size_b, szind_b, slab_b); emap_unlock_edata2(tsdn, &emap_global, edata, trail); return trail; label_error_c: emap_unlock_edata2(tsdn, &emap_global, edata, trail); label_error_b: edata_cache_put(tsdn, edata_cache, trail); label_error_a: return NULL; } edata_t * extent_split_wrapper(tsdn_t *tsdn, edata_cache_t *edata_cache, ehooks_t *ehooks, edata_t *edata, size_t size_a, szind_t szind_a, bool slab_a, size_t size_b, szind_t szind_b, bool slab_b) { return extent_split_impl(tsdn, edata_cache, ehooks, edata, size_a, szind_a, slab_a, size_b, szind_b, slab_b, false); } static bool extent_merge_impl(tsdn_t *tsdn, ehooks_t *ehooks, edata_cache_t *edata_cache, edata_t *a, edata_t *b, bool growing_retained) { witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn), WITNESS_RANK_CORE, growing_retained ? 1 : 0); assert(edata_base_get(a) < edata_base_get(b)); assert(edata_arena_ind_get(a) == edata_arena_ind_get(b)); assert(edata_arena_ind_get(a) == ehooks_ind_get(ehooks)); bool err = ehooks_merge(tsdn, ehooks, edata_base_get(a), edata_size_get(a), edata_is_head_get(a), edata_base_get(b), edata_size_get(b), edata_is_head_get(b), edata_committed_get(a)); if (err) { return true; } /* * The rtree writes must happen while all the relevant elements are * owned, so the following code uses decomposed helper functions rather * than extent_{,de}register() to do things in the right order. */ emap_prepare_t prepare; emap_merge_prepare(tsdn, &emap_global, &prepare, a, b); emap_lock_edata2(tsdn, &emap_global, a, b); emap_merge_commit(tsdn, &emap_global, &prepare, a, b); emap_unlock_edata2(tsdn, &emap_global, a, b); edata_cache_put(tsdn, edata_cache, b); return false; } bool extent_merge_wrapper(tsdn_t *tsdn, ehooks_t *ehooks, edata_cache_t *edata_cache, edata_t *a, edata_t *b) { return extent_merge_impl(tsdn, ehooks, edata_cache, a, b, false); } bool extent_boot(void) { assert(sizeof(slab_data_t) >= sizeof(e_prof_info_t)); if (have_dss) { extent_dss_boot(); } return false; }