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289 lines
11 KiB
C
289 lines
11 KiB
C
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// Copyright (c) 2018 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_ALLOCATOR_PARTITION_ALLOCATOR_PARTITION_PAGE_H_
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#define BASE_ALLOCATOR_PARTITION_ALLOCATOR_PARTITION_PAGE_H_
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#include "base/allocator/partition_allocator/partition_alloc_constants.h"
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#include "base/allocator/partition_allocator/partition_bucket.h"
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#include "base/allocator/partition_allocator/partition_cookie.h"
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#include "base/allocator/partition_allocator/partition_freelist_entry.h"
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namespace base {
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namespace internal {
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struct PartitionRootBase;
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// Some notes on page states. A page can be in one of four major states:
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// 1) Active.
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// 2) Full.
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// 3) Empty.
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// 4) Decommitted.
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// An active page has available free slots. A full page has no free slots. An
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// empty page has no free slots, and a decommitted page is an empty page that
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// had its backing memory released back to the system.
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// There are two linked lists tracking the pages. The "active page" list is an
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// approximation of a list of active pages. It is an approximation because
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// full, empty and decommitted pages may briefly be present in the list until
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// we next do a scan over it.
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// The "empty page" list is an accurate list of pages which are either empty
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// or decommitted.
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//
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// The significant page transitions are:
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// - free() will detect when a full page has a slot free()'d and immediately
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// return the page to the head of the active list.
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// - free() will detect when a page is fully emptied. It _may_ add it to the
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// empty list or it _may_ leave it on the active list until a future list scan.
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// - malloc() _may_ scan the active page list in order to fulfil the request.
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// If it does this, full, empty and decommitted pages encountered will be
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// booted out of the active list. If there are no suitable active pages found,
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// an empty or decommitted page (if one exists) will be pulled from the empty
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// list on to the active list.
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//
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// TODO(ajwong): Evaluate if this should be named PartitionSlotSpanMetadata or
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// similar. If so, all uses of the term "page" in comments, member variables,
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// local variables, and documentation that refer to this concept should be
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// updated.
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struct PartitionPage {
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PartitionFreelistEntry* freelist_head;
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PartitionPage* next_page;
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PartitionBucket* bucket;
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// Deliberately signed, 0 for empty or decommitted page, -n for full pages:
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int16_t num_allocated_slots;
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uint16_t num_unprovisioned_slots;
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uint16_t page_offset;
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int16_t empty_cache_index; // -1 if not in the empty cache.
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// Public API
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// Note the matching Alloc() functions are in PartitionPage.
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BASE_EXPORT NOINLINE void FreeSlowPath();
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ALWAYS_INLINE void Free(void* ptr);
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void Decommit(PartitionRootBase* root);
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void DecommitIfPossible(PartitionRootBase* root);
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// Pointer manipulation functions. These must be static as the input |page|
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// pointer may be the result of an offset calculation and therefore cannot
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// be trusted. The objective of these functions is to sanitize this input.
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ALWAYS_INLINE static void* ToPointer(const PartitionPage* page);
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ALWAYS_INLINE static PartitionPage* FromPointerNoAlignmentCheck(void* ptr);
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ALWAYS_INLINE static PartitionPage* FromPointer(void* ptr);
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ALWAYS_INLINE const size_t* get_raw_size_ptr() const;
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ALWAYS_INLINE size_t* get_raw_size_ptr() {
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return const_cast<size_t*>(
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const_cast<const PartitionPage*>(this)->get_raw_size_ptr());
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}
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ALWAYS_INLINE size_t get_raw_size() const;
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ALWAYS_INLINE void set_raw_size(size_t size);
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ALWAYS_INLINE void Reset();
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// TODO(ajwong): Can this be made private? https://crbug.com/787153
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BASE_EXPORT static PartitionPage* get_sentinel_page();
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// Page State accessors.
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// Note that it's only valid to call these functions on pages found on one of
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// the page lists. Specifically, you can't call these functions on full pages
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// that were detached from the active list.
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//
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// This restriction provides the flexibity for some of the status fields to
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// be repurposed when a page is taken off a list. See the negation of
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// |num_allocated_slots| when a full page is removed from the active list
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// for an example of such repurposing.
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ALWAYS_INLINE bool is_active() const;
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ALWAYS_INLINE bool is_full() const;
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ALWAYS_INLINE bool is_empty() const;
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ALWAYS_INLINE bool is_decommitted() const;
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private:
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// g_sentinel_page is used as a sentinel to indicate that there is no page
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// in the active page list. We can use nullptr, but in that case we need
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// to add a null-check branch to the hot allocation path. We want to avoid
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// that.
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//
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// Note, this declaration is kept in the header as opposed to an anonymous
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// namespace so the getter can be fully inlined.
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static PartitionPage sentinel_page_;
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};
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static_assert(sizeof(PartitionPage) <= kPageMetadataSize,
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"PartitionPage must be able to fit in a metadata slot");
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ALWAYS_INLINE char* PartitionSuperPageToMetadataArea(char* ptr) {
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uintptr_t pointer_as_uint = reinterpret_cast<uintptr_t>(ptr);
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DCHECK(!(pointer_as_uint & kSuperPageOffsetMask));
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// The metadata area is exactly one system page (the guard page) into the
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// super page.
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return reinterpret_cast<char*>(pointer_as_uint + kSystemPageSize);
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}
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ALWAYS_INLINE PartitionPage* PartitionPage::FromPointerNoAlignmentCheck(
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void* ptr) {
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uintptr_t pointer_as_uint = reinterpret_cast<uintptr_t>(ptr);
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char* super_page_ptr =
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reinterpret_cast<char*>(pointer_as_uint & kSuperPageBaseMask);
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uintptr_t partition_page_index =
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(pointer_as_uint & kSuperPageOffsetMask) >> kPartitionPageShift;
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// Index 0 is invalid because it is the metadata and guard area and
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// the last index is invalid because it is a guard page.
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DCHECK(partition_page_index);
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DCHECK(partition_page_index < kNumPartitionPagesPerSuperPage - 1);
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PartitionPage* page = reinterpret_cast<PartitionPage*>(
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PartitionSuperPageToMetadataArea(super_page_ptr) +
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(partition_page_index << kPageMetadataShift));
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// Partition pages in the same slot span can share the same page object.
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// Adjust for that.
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size_t delta = page->page_offset << kPageMetadataShift;
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page =
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reinterpret_cast<PartitionPage*>(reinterpret_cast<char*>(page) - delta);
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return page;
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}
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// Resturns start of the slot span for the PartitionPage.
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ALWAYS_INLINE void* PartitionPage::ToPointer(const PartitionPage* page) {
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uintptr_t pointer_as_uint = reinterpret_cast<uintptr_t>(page);
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uintptr_t super_page_offset = (pointer_as_uint & kSuperPageOffsetMask);
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// A valid |page| must be past the first guard System page and within
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// the following metadata region.
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DCHECK(super_page_offset > kSystemPageSize);
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// Must be less than total metadata region.
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DCHECK(super_page_offset < kSystemPageSize + (kNumPartitionPagesPerSuperPage *
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kPageMetadataSize));
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uintptr_t partition_page_index =
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(super_page_offset - kSystemPageSize) >> kPageMetadataShift;
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// Index 0 is invalid because it is the superpage extent metadata and the
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// last index is invalid because the whole PartitionPage is set as guard
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// pages for the metadata region.
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DCHECK(partition_page_index);
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DCHECK(partition_page_index < kNumPartitionPagesPerSuperPage - 1);
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uintptr_t super_page_base = (pointer_as_uint & kSuperPageBaseMask);
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void* ret = reinterpret_cast<void*>(
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super_page_base + (partition_page_index << kPartitionPageShift));
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return ret;
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}
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ALWAYS_INLINE PartitionPage* PartitionPage::FromPointer(void* ptr) {
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PartitionPage* page = PartitionPage::FromPointerNoAlignmentCheck(ptr);
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// Checks that the pointer is a multiple of bucket size.
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DCHECK(!((reinterpret_cast<uintptr_t>(ptr) -
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reinterpret_cast<uintptr_t>(PartitionPage::ToPointer(page))) %
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page->bucket->slot_size));
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return page;
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}
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ALWAYS_INLINE const size_t* PartitionPage::get_raw_size_ptr() const {
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// For single-slot buckets which span more than one partition page, we
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// have some spare metadata space to store the raw allocation size. We
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// can use this to report better statistics.
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if (bucket->slot_size <= kMaxSystemPagesPerSlotSpan * kSystemPageSize)
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return nullptr;
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DCHECK((bucket->slot_size % kSystemPageSize) == 0);
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DCHECK(bucket->is_direct_mapped() || bucket->get_slots_per_span() == 1);
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const PartitionPage* the_next_page = this + 1;
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return reinterpret_cast<const size_t*>(&the_next_page->freelist_head);
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}
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ALWAYS_INLINE size_t PartitionPage::get_raw_size() const {
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const size_t* ptr = get_raw_size_ptr();
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if (UNLIKELY(ptr != nullptr))
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return *ptr;
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return 0;
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}
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ALWAYS_INLINE void PartitionPage::Free(void* ptr) {
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// If these asserts fire, you probably corrupted memory.
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#if DCHECK_IS_ON()
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size_t slot_size = this->bucket->slot_size;
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size_t raw_size = get_raw_size();
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if (raw_size)
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slot_size = raw_size;
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PartitionCookieCheckValue(ptr);
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PartitionCookieCheckValue(reinterpret_cast<char*>(ptr) + slot_size -
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kCookieSize);
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memset(ptr, kFreedByte, slot_size);
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#endif
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DCHECK(this->num_allocated_slots);
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// TODO(palmer): See if we can afford to make this a CHECK.
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// FIX FIX FIX
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// DCHECK(!freelist_head || PartitionRootBase::IsValidPage(
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// PartitionPage::FromPointer(freelist_head)));
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CHECK(ptr != freelist_head); // Catches an immediate double free.
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// Look for double free one level deeper in debug.
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DCHECK(!freelist_head || ptr != internal::PartitionFreelistEntry::Transform(
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freelist_head->next));
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internal::PartitionFreelistEntry* entry =
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static_cast<internal::PartitionFreelistEntry*>(ptr);
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entry->next = internal::PartitionFreelistEntry::Transform(freelist_head);
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freelist_head = entry;
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--this->num_allocated_slots;
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if (UNLIKELY(this->num_allocated_slots <= 0)) {
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FreeSlowPath();
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} else {
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// All single-slot allocations must go through the slow path to
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// correctly update the size metadata.
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DCHECK(get_raw_size() == 0);
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}
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}
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ALWAYS_INLINE bool PartitionPage::is_active() const {
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DCHECK(this != get_sentinel_page());
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DCHECK(!page_offset);
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return (num_allocated_slots > 0 &&
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(freelist_head || num_unprovisioned_slots));
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}
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ALWAYS_INLINE bool PartitionPage::is_full() const {
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DCHECK(this != get_sentinel_page());
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DCHECK(!page_offset);
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bool ret = (num_allocated_slots == bucket->get_slots_per_span());
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if (ret) {
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DCHECK(!freelist_head);
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DCHECK(!num_unprovisioned_slots);
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}
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return ret;
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}
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ALWAYS_INLINE bool PartitionPage::is_empty() const {
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DCHECK(this != get_sentinel_page());
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DCHECK(!page_offset);
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return (!num_allocated_slots && freelist_head);
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}
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ALWAYS_INLINE bool PartitionPage::is_decommitted() const {
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DCHECK(this != get_sentinel_page());
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DCHECK(!page_offset);
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bool ret = (!num_allocated_slots && !freelist_head);
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if (ret) {
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DCHECK(!num_unprovisioned_slots);
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DCHECK(empty_cache_index == -1);
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}
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return ret;
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}
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ALWAYS_INLINE void PartitionPage::set_raw_size(size_t size) {
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size_t* raw_size_ptr = get_raw_size_ptr();
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if (UNLIKELY(raw_size_ptr != nullptr))
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*raw_size_ptr = size;
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}
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ALWAYS_INLINE void PartitionPage::Reset() {
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DCHECK(this->is_decommitted());
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num_unprovisioned_slots = bucket->get_slots_per_span();
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DCHECK(num_unprovisioned_slots);
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next_page = nullptr;
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}
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} // namespace internal
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} // namespace base
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#endif // BASE_ALLOCATOR_PARTITION_ALLOCATOR_PARTITION_PAGE_H_
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