LCOV - code coverage report
Current view: top level - src/support/allocators - pool.h (source / functions) Coverage Total Hit
Test: fuzz_coverage.info Lines: 100.0 % 58 58
Test Date: 2024-12-04 04:00:22 Functions: 100.0 % 45 45
Branches: 61.5 % 52 32

             Branch data     Line data    Source code
       1                 :             : // Copyright (c) 2022 The Bitcoin Core developers
       2                 :             : // Distributed under the MIT software license, see the accompanying
       3                 :             : // file COPYING or http://www.opensource.org/licenses/mit-license.php.
       4                 :             : 
       5                 :             : #ifndef BITCOIN_SUPPORT_ALLOCATORS_POOL_H
       6                 :             : #define BITCOIN_SUPPORT_ALLOCATORS_POOL_H
       7                 :             : 
       8                 :             : #include <array>
       9                 :             : #include <cassert>
      10                 :             : #include <cstddef>
      11                 :             : #include <list>
      12                 :             : #include <memory>
      13                 :             : #include <new>
      14                 :             : #include <type_traits>
      15                 :             : #include <utility>
      16                 :             : 
      17                 :             : /**
      18                 :             :  * A memory resource similar to std::pmr::unsynchronized_pool_resource, but
      19                 :             :  * optimized for node-based containers. It has the following properties:
      20                 :             :  *
      21                 :             :  * * Owns the allocated memory and frees it on destruction, even when deallocate
      22                 :             :  *   has not been called on the allocated blocks.
      23                 :             :  *
      24                 :             :  * * Consists of a number of pools, each one for a different block size.
      25                 :             :  *   Each pool holds blocks of uniform size in a freelist.
      26                 :             :  *
      27                 :             :  * * Exhausting memory in a freelist causes a new allocation of a fixed size chunk.
      28                 :             :  *   This chunk is used to carve out blocks.
      29                 :             :  *
      30                 :             :  * * Block sizes or alignments that can not be served by the pools are allocated
      31                 :             :  *   and deallocated by operator new().
      32                 :             :  *
      33                 :             :  * PoolResource is not thread-safe. It is intended to be used by PoolAllocator.
      34                 :             :  *
      35                 :             :  * @tparam MAX_BLOCK_SIZE_BYTES Maximum size to allocate with the pool. If larger
      36                 :             :  *         sizes are requested, allocation falls back to new().
      37                 :             :  *
      38                 :             :  * @tparam ALIGN_BYTES Required alignment for the allocations.
      39                 :             :  *
      40                 :             :  * An example: If you create a PoolResource<128, 8>(262144) and perform a bunch of
      41                 :             :  * allocations and deallocate 2 blocks with size 8 bytes, and 3 blocks with size 16,
      42                 :             :  * the members will look like this:
      43                 :             :  *
      44                 :             :  *     m_free_lists                         m_allocated_chunks
      45                 :             :  *        ┌───┐                                ┌───┐  ┌────────────-------──────┐
      46                 :             :  *        │   │  blocks                        │   ├─►│    262144 B             │
      47                 :             :  *        │   │  ┌─────┐  ┌─────┐              └─┬─┘  └────────────-------──────┘
      48                 :             :  *        │ 1 ├─►│ 8 B ├─►│ 8 B │                │
      49                 :             :  *        │   │  └─────┘  └─────┘                :
      50                 :             :  *        │   │                                  │
      51                 :             :  *        │   │  ┌─────┐  ┌─────┐  ┌─────┐       ▼
      52                 :             :  *        │ 2 ├─►│16 B ├─►│16 B ├─►│16 B │     ┌───┐  ┌─────────────────────────┐
      53                 :             :  *        │   │  └─────┘  └─────┘  └─────┘     │   ├─►│          ▲              │ ▲
      54                 :             :  *        │   │                                └───┘  └──────────┬──────────────┘ │
      55                 :             :  *        │ . │                                                  │    m_available_memory_end
      56                 :             :  *        │ . │                                         m_available_memory_it
      57                 :             :  *        │ . │
      58                 :             :  *        │   │
      59                 :             :  *        │   │
      60                 :             :  *        │16 │
      61                 :             :  *        └───┘
      62                 :             :  *
      63                 :             :  * Here m_free_lists[1] holds the 2 blocks of size 8 bytes, and m_free_lists[2]
      64                 :             :  * holds the 3 blocks of size 16. The blocks came from the data stored in the
      65                 :             :  * m_allocated_chunks list. Each chunk has bytes 262144. The last chunk has still
      66                 :             :  * some memory available for the blocks, and when m_available_memory_it is at the
      67                 :             :  * end, a new chunk will be allocated and added to the list.
      68                 :             :  */
      69                 :             : template <std::size_t MAX_BLOCK_SIZE_BYTES, std::size_t ALIGN_BYTES>
      70                 :             : class PoolResource final
      71                 :             : {
      72                 :             :     static_assert(ALIGN_BYTES > 0, "ALIGN_BYTES must be nonzero");
      73                 :             :     static_assert((ALIGN_BYTES & (ALIGN_BYTES - 1)) == 0, "ALIGN_BYTES must be a power of two");
      74                 :             : 
      75                 :             :     /**
      76                 :             :      * In-place linked list of the allocations, used for the freelist.
      77                 :             :      */
      78                 :             :     struct ListNode {
      79                 :             :         ListNode* m_next;
      80                 :             : 
      81                 :     9402343 :         explicit ListNode(ListNode* next) : m_next(next) {}
      82                 :             :     };
      83                 :             :     static_assert(std::is_trivially_destructible_v<ListNode>, "Make sure we don't need to manually call a destructor");
      84                 :             : 
      85                 :             :     /**
      86                 :             :      * Internal alignment value. The larger of the requested ALIGN_BYTES and alignof(FreeList).
      87                 :             :      */
      88                 :             :     static constexpr std::size_t ELEM_ALIGN_BYTES = std::max(alignof(ListNode), ALIGN_BYTES);
      89                 :             :     static_assert((ELEM_ALIGN_BYTES & (ELEM_ALIGN_BYTES - 1)) == 0, "ELEM_ALIGN_BYTES must be a power of two");
      90                 :             :     static_assert(sizeof(ListNode) <= ELEM_ALIGN_BYTES, "Units of size ELEM_SIZE_ALIGN need to be able to store a ListNode");
      91                 :             :     static_assert((MAX_BLOCK_SIZE_BYTES & (ELEM_ALIGN_BYTES - 1)) == 0, "MAX_BLOCK_SIZE_BYTES needs to be a multiple of the alignment.");
      92                 :             : 
      93                 :             :     /**
      94                 :             :      * Size in bytes to allocate per chunk
      95                 :             :      */
      96                 :             :     const size_t m_chunk_size_bytes;
      97                 :             : 
      98                 :             :     /**
      99                 :             :      * Contains all allocated pools of memory, used to free the data in the destructor.
     100                 :             :      */
     101                 :             :     std::list<std::byte*> m_allocated_chunks{};
     102                 :             : 
     103                 :             :     /**
     104                 :             :      * Single linked lists of all data that came from deallocating.
     105                 :             :      * m_free_lists[n] will serve blocks of size n*ELEM_ALIGN_BYTES.
     106                 :             :      */
     107                 :             :     std::array<ListNode*, MAX_BLOCK_SIZE_BYTES / ELEM_ALIGN_BYTES + 1> m_free_lists{};
     108                 :             : 
     109                 :             :     /**
     110                 :             :      * Points to the beginning of available memory for carving out allocations.
     111                 :             :      */
     112                 :             :     std::byte* m_available_memory_it = nullptr;
     113                 :             : 
     114                 :             :     /**
     115                 :             :      * Points to the end of available memory for carving out allocations.
     116                 :             :      *
     117                 :             :      * That member variable is redundant, and is always equal to `m_allocated_chunks.back() + m_chunk_size_bytes`
     118                 :             :      * whenever it is accessed, but `m_available_memory_end` caches this for clarity and efficiency.
     119                 :             :      */
     120                 :             :     std::byte* m_available_memory_end = nullptr;
     121                 :             : 
     122                 :             :     /**
     123                 :             :      * How many multiple of ELEM_ALIGN_BYTES are necessary to fit bytes. We use that result directly as an index
     124                 :             :      * into m_free_lists. Round up for the special case when bytes==0.
     125                 :             :      */
     126                 :    20170130 :     [[nodiscard]] static constexpr std::size_t NumElemAlignBytes(std::size_t bytes)
     127                 :             :     {
     128                 :    20170130 :         return (bytes + ELEM_ALIGN_BYTES - 1) / ELEM_ALIGN_BYTES + (bytes == 0);
     129                 :             :     }
     130                 :             : 
     131                 :             :     /**
     132                 :             :      * True when it is possible to make use of the freelist
     133                 :             :      */
     134                 :    18819570 :     [[nodiscard]] static constexpr bool IsFreeListUsable(std::size_t bytes, std::size_t alignment)
     135                 :             :     {
     136                 :    18819570 :         return alignment <= ELEM_ALIGN_BYTES && bytes <= MAX_BLOCK_SIZE_BYTES;
     137                 :             :     }
     138                 :             : 
     139                 :             :     /**
     140                 :             :      * Replaces node with placement constructed ListNode that points to the previous node
     141                 :             :      */
     142                 :     9402343 :     void PlacementAddToList(void* p, ListNode*& node)
     143                 :             :     {
     144                 :     9402343 :         node = new (p) ListNode{node};
     145                 :     9402343 :     }
     146                 :             : 
     147                 :             :     /**
     148                 :             :      * Allocate one full memory chunk which will be used to carve out allocations.
     149                 :             :      * Also puts any leftover bytes into the freelist.
     150                 :             :      *
     151                 :             :      * Precondition: leftover bytes are either 0 or few enough to fit into a place in the freelist
     152                 :             :      */
     153                 :     1689031 :     void AllocateChunk()
     154                 :             :     {
     155                 :             :         // if there is still any available memory left, put it into the freelist.
     156         [ +  + ]:     1689031 :         size_t remaining_available_bytes = std::distance(m_available_memory_it, m_available_memory_end);
     157         [ +  + ]:     1689031 :         if (0 != remaining_available_bytes) {
     158                 :       90254 :             PlacementAddToList(m_available_memory_it, m_free_lists[remaining_available_bytes / ELEM_ALIGN_BYTES]);
     159                 :             :         }
     160                 :             : 
     161                 :     1689031 :         void* storage = ::operator new (m_chunk_size_bytes, std::align_val_t{ELEM_ALIGN_BYTES});
     162                 :     1689031 :         m_available_memory_it = new (storage) std::byte[m_chunk_size_bytes];
     163                 :     1689031 :         m_available_memory_end = m_available_memory_it + m_chunk_size_bytes;
     164                 :     1689031 :         m_allocated_chunks.emplace_back(m_available_memory_it);
     165                 :     1689031 :     }
     166                 :             : 
     167                 :             :     /**
     168                 :             :      * Access to internals for testing purpose only
     169                 :             :      */
     170                 :             :     friend class PoolResourceTester;
     171                 :             : 
     172                 :             : public:
     173                 :             :     /**
     174                 :             :      * Construct a new PoolResource object which allocates the first chunk.
     175                 :             :      * chunk_size_bytes will be rounded up to next multiple of ELEM_ALIGN_BYTES.
     176                 :             :      */
     177                 :     1545952 :     explicit PoolResource(std::size_t chunk_size_bytes)
     178         [ -  + ]:     1545952 :         : m_chunk_size_bytes(NumElemAlignBytes(chunk_size_bytes) * ELEM_ALIGN_BYTES)
     179                 :             :     {
     180         [ -  + ]:     1545952 :         assert(m_chunk_size_bytes >= MAX_BLOCK_SIZE_BYTES);
     181         [ +  - ]:     1545952 :         AllocateChunk();
     182                 :     1545952 :     }
     183                 :             : 
     184                 :             :     /**
     185                 :             :      * Construct a new Pool Resource object, defaults to 2^18=262144 chunk size.
     186                 :             :      */
     187         [ +  - ]:     1545322 :     PoolResource() : PoolResource(262144) {}
     188                 :             : 
     189                 :             :     /**
     190                 :             :      * Disable copy & move semantics, these are not supported for the resource.
     191                 :             :      */
     192                 :             :     PoolResource(const PoolResource&) = delete;
     193                 :             :     PoolResource& operator=(const PoolResource&) = delete;
     194                 :             :     PoolResource(PoolResource&&) = delete;
     195                 :             :     PoolResource& operator=(PoolResource&&) = delete;
     196                 :             : 
     197                 :             :     /**
     198                 :             :      * Deallocates all memory allocated associated with the memory resource.
     199                 :             :      */
     200                 :     1545952 :     ~PoolResource()
     201                 :             :     {
     202         [ +  + ]:     3234983 :         for (std::byte* chunk : m_allocated_chunks) {
     203                 :     1689031 :             std::destroy(chunk, chunk + m_chunk_size_bytes);
     204                 :     1689031 :             ::operator delete ((void*)chunk, std::align_val_t{ELEM_ALIGN_BYTES});
     205                 :             :         }
     206                 :     1545952 :     }
     207                 :             : 
     208                 :             :     /**
     209                 :             :      * Allocates a block of bytes. If possible the freelist is used, otherwise allocation
     210                 :             :      * is forwarded to ::operator new().
     211                 :             :      */
     212                 :     9409785 :     void* Allocate(std::size_t bytes, std::size_t alignment)
     213                 :             :     {
     214         [ +  + ]:     9409785 :         if (IsFreeListUsable(bytes, alignment)) {
     215                 :     9312089 :             const std::size_t num_alignments = NumElemAlignBytes(bytes);
     216         [ +  + ]:     9312089 :             if (nullptr != m_free_lists[num_alignments]) {
     217                 :             :                 // we've already got data in the pool's freelist, unlink one element and return the pointer
     218                 :             :                 // to the unlinked memory. Since FreeList is trivially destructible we can just treat it as
     219                 :             :                 // uninitialized memory.
     220                 :     3032942 :                 return std::exchange(m_free_lists[num_alignments], m_free_lists[num_alignments]->m_next);
     221                 :             :             }
     222                 :             : 
     223                 :             :             // freelist is empty: get one allocation from allocated chunk memory.
     224                 :     6279147 :             const std::ptrdiff_t round_bytes = static_cast<std::ptrdiff_t>(num_alignments * ELEM_ALIGN_BYTES);
     225         [ +  + ]:     6279147 :             if (round_bytes > m_available_memory_end - m_available_memory_it) {
     226                 :             :                 // slow path, only happens when a new chunk needs to be allocated
     227                 :      143079 :                 AllocateChunk();
     228                 :             :             }
     229                 :             : 
     230                 :             :             // Make sure we use the right amount of bytes for that freelist (might be rounded up),
     231                 :     6279147 :             return std::exchange(m_available_memory_it, m_available_memory_it + round_bytes);
     232                 :             :         }
     233                 :             : 
     234                 :             :         // Can't use the pool => use operator new()
     235                 :       97696 :         return ::operator new (bytes, std::align_val_t{alignment});
     236                 :             :     }
     237                 :             : 
     238                 :             :     /**
     239                 :             :      * Returns a block to the freelists, or deletes the block when it did not come from the chunks.
     240                 :             :      */
     241                 :     9409785 :     void Deallocate(void* p, std::size_t bytes, std::size_t alignment) noexcept
     242                 :             :     {
     243         [ +  + ]:     9409785 :         if (IsFreeListUsable(bytes, alignment)) {
     244                 :     9312089 :             const std::size_t num_alignments = NumElemAlignBytes(bytes);
     245                 :             :             // put the memory block into the linked list. We can placement construct the FreeList
     246                 :             :             // into the memory since we can be sure the alignment is correct.
     247                 :     9312089 :             PlacementAddToList(p, m_free_lists[num_alignments]);
     248                 :             :         } else {
     249                 :             :             // Can't use the pool => forward deallocation to ::operator delete().
     250                 :       97696 :             ::operator delete (p, std::align_val_t{alignment});
     251                 :             :         }
     252                 :     9409785 :     }
     253                 :             : 
     254                 :             :     /**
     255                 :             :      * Number of allocated chunks
     256                 :             :      */
     257                 :     2602565 :     [[nodiscard]] std::size_t NumAllocatedChunks() const
     258                 :             :     {
     259   [ +  -  +  - ]:     5205130 :         return m_allocated_chunks.size();
     260                 :             :     }
     261                 :             : 
     262                 :             :     /**
     263                 :             :      * Size in bytes to allocate per chunk, currently hardcoded to a fixed size.
     264                 :             :      */
     265                 :     2745685 :     [[nodiscard]] size_t ChunkSizeBytes() const
     266                 :             :     {
     267   [ +  -  +  -  :     2745685 :         return m_chunk_size_bytes;
          +  -  +  -  +  
          -  +  -  +  -  
           +  - ][ +  - ]
     268                 :             :     }
     269                 :             : };
     270                 :             : 
     271                 :             : 
     272                 :             : /**
     273                 :             :  * Forwards all allocations/deallocations to the PoolResource.
     274                 :             :  */
     275                 :             : template <class T, std::size_t MAX_BLOCK_SIZE_BYTES, std::size_t ALIGN_BYTES = alignof(T)>
     276                 :             : class PoolAllocator
     277                 :             : {
     278                 :             :     PoolResource<MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>* m_resource;
     279                 :             : 
     280                 :             :     template <typename U, std::size_t M, std::size_t A>
     281                 :             :     friend class PoolAllocator;
     282                 :             : 
     283                 :             : public:
     284                 :             :     using value_type = T;
     285                 :             :     using ResourceType = PoolResource<MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>;
     286                 :             : 
     287                 :             :     /**
     288                 :             :      * Not explicit so we can easily construct it with the correct resource
     289                 :             :      */
     290                 :     1545322 :     PoolAllocator(ResourceType* resource) noexcept
     291         [ +  - ]:     1545322 :         : m_resource(resource)
     292                 :             :     {
     293                 :             :     }
     294                 :             : 
     295                 :             :     PoolAllocator(const PoolAllocator& other) noexcept = default;
     296                 :             :     PoolAllocator& operator=(const PoolAllocator& other) noexcept = default;
     297                 :             : 
     298                 :             :     template <class U>
     299                 :     5901027 :     PoolAllocator(const PoolAllocator<U, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>& other) noexcept
     300                 :     5901027 :         : m_resource(other.resource())
     301                 :             :     {
     302                 :             :     }
     303                 :             : 
     304                 :             :     /**
     305                 :             :      * The rebind struct here is mandatory because we use non type template arguments for
     306                 :             :      * PoolAllocator. See https://en.cppreference.com/w/cpp/named_req/Allocator#cite_note-2
     307                 :             :      */
     308                 :             :     template <typename U>
     309                 :             :     struct rebind {
     310                 :             :         using other = PoolAllocator<U, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>;
     311                 :             :     };
     312                 :             : 
     313                 :             :     /**
     314                 :             :      * Forwards each call to the resource.
     315                 :             :      */
     316                 :     8994900 :     T* allocate(size_t n)
     317                 :             :     {
     318                 :     8994900 :         return static_cast<T*>(m_resource->Allocate(n * sizeof(T), alignof(T)));
     319                 :             :     }
     320                 :             : 
     321                 :             :     /**
     322                 :             :      * Forwards each call to the resource.
     323                 :             :      */
     324                 :     8994900 :     void deallocate(T* p, size_t n) noexcept
     325                 :             :     {
     326                 :     8994900 :         m_resource->Deallocate(p, n * sizeof(T), alignof(T));
     327                 :             :     }
     328                 :             : 
     329                 :     5901027 :     ResourceType* resource() const noexcept
     330                 :             :     {
     331         [ +  - ]:     5901027 :         return m_resource;
           [ -  -  +  - ]
     332                 :             :     }
     333                 :             : };
     334                 :             : 
     335                 :             : template <class T1, class T2, std::size_t MAX_BLOCK_SIZE_BYTES, std::size_t ALIGN_BYTES>
     336                 :             : bool operator==(const PoolAllocator<T1, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>& a,
     337                 :             :                 const PoolAllocator<T2, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>& b) noexcept
     338                 :             : {
     339                 :             :     return a.resource() == b.resource();
     340                 :             : }
     341                 :             : 
     342                 :             : template <class T1, class T2, std::size_t MAX_BLOCK_SIZE_BYTES, std::size_t ALIGN_BYTES>
     343                 :             : bool operator!=(const PoolAllocator<T1, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>& a,
     344                 :             :                 const PoolAllocator<T2, MAX_BLOCK_SIZE_BYTES, ALIGN_BYTES>& b) noexcept
     345                 :             : {
     346                 :             :     return !(a == b);
     347                 :             : }
     348                 :             : 
     349                 :             : #endif // BITCOIN_SUPPORT_ALLOCATORS_POOL_H
        

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