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203 lines
6.8 KiB
C++
203 lines
6.8 KiB
C++
/*
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* Copyright (c) 2021, Ali Mohammad Pur <mpfard@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/Atomic.h>
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#include <AK/StdLibExtras.h>
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#include <AK/Types.h>
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#include <AK/kmalloc.h>
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#include <sys/mman.h>
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namespace AK {
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template<bool use_mmap = false, size_t chunk_size = use_mmap ? 4 * MiB : 4 * KiB>
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class BumpAllocator {
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public:
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BumpAllocator()
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{
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if constexpr (use_mmap)
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m_chunk_size = chunk_size;
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else
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m_chunk_size = kmalloc_good_size(chunk_size);
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}
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~BumpAllocator()
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{
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deallocate_all();
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}
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void* allocate(size_t size, size_t align)
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{
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VERIFY(size < m_chunk_size - sizeof(ChunkHeader));
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if (!m_current_chunk) {
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if (!allocate_a_chunk())
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return nullptr;
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}
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allocate_again:;
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VERIFY(m_current_chunk != 0);
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auto aligned_ptr = align_up_to(m_byte_offset_into_current_chunk + m_current_chunk, align);
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auto next_offset = aligned_ptr + size - m_current_chunk;
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if (next_offset > m_chunk_size) {
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if (!allocate_a_chunk())
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return nullptr;
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goto allocate_again;
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}
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m_byte_offset_into_current_chunk = next_offset;
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return (void*)aligned_ptr;
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}
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void deallocate_all()
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{
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if (!m_head_chunk)
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return;
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// Note that 'cache_filled' is just an educated guess, and we don't rely on it.
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// If we determine 'cache_filled=true' and the cache becomes empty in the meantime,
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// then we haven't lost much; it was a close call anyway.
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// If we determine 'cache_filled=false' and the cache becomes full in the meantime,
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// then we'll end up with a different chunk to munmap(), no big difference.
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bool cache_filled = s_unused_allocation_cache.load(MemoryOrder::memory_order_relaxed);
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for_each_chunk([&](auto chunk) {
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if (!cache_filled) {
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cache_filled = true;
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(reinterpret_cast<ChunkHeader*>(chunk))->next_chunk = 0;
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chunk = s_unused_allocation_cache.exchange(chunk);
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if (!chunk)
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return;
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// The cache got filled in the meantime. Oh well, we have to call munmap() anyway.
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}
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if constexpr (use_mmap) {
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munmap((void*)chunk, m_chunk_size);
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} else {
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kfree_sized((void*)chunk, m_chunk_size);
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}
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});
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}
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protected:
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template<typename TFn>
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void for_each_chunk(TFn&& fn)
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{
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auto head_chunk = m_head_chunk;
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while (head_chunk) {
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auto& chunk_header = *reinterpret_cast<ChunkHeader const*>(head_chunk);
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VERIFY(chunk_header.magic == chunk_magic);
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if (head_chunk == m_current_chunk)
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VERIFY(chunk_header.next_chunk == 0);
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auto next_chunk = chunk_header.next_chunk;
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fn(head_chunk);
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head_chunk = next_chunk;
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}
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}
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bool allocate_a_chunk()
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{
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// dbgln("Allocated {} entries in previous chunk and have {} unusable bytes", m_allocations_in_previous_chunk, m_chunk_size - m_byte_offset_into_current_chunk);
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// m_allocations_in_previous_chunk = 0;
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void* new_chunk = reinterpret_cast<void*>(s_unused_allocation_cache.exchange(0));
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if (!new_chunk) {
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if constexpr (use_mmap) {
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#ifdef AK_OS_SERENITY
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new_chunk = serenity_mmap(nullptr, m_chunk_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_RANDOMIZED | MAP_PRIVATE, 0, 0, m_chunk_size, "BumpAllocator Chunk");
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#else
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new_chunk = mmap(nullptr, m_chunk_size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0);
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#endif
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if (new_chunk == MAP_FAILED)
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return false;
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} else {
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new_chunk = kmalloc(m_chunk_size);
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if (!new_chunk)
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return false;
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}
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}
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auto& new_header = *reinterpret_cast<ChunkHeader*>(new_chunk);
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new_header.magic = chunk_magic;
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new_header.next_chunk = 0;
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m_byte_offset_into_current_chunk = sizeof(ChunkHeader);
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if (!m_head_chunk) {
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VERIFY(!m_current_chunk);
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m_head_chunk = reinterpret_cast<FlatPtr>(new_chunk);
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m_current_chunk = reinterpret_cast<FlatPtr>(new_chunk);
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return true;
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}
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VERIFY(m_current_chunk);
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auto& old_header = *reinterpret_cast<ChunkHeader*>(m_current_chunk);
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VERIFY(old_header.magic == chunk_magic);
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VERIFY(old_header.next_chunk == 0);
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old_header.next_chunk = reinterpret_cast<FlatPtr>(new_chunk);
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m_current_chunk = reinterpret_cast<FlatPtr>(new_chunk);
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return true;
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}
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constexpr static FlatPtr chunk_magic = explode_byte(0xdf);
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struct ChunkHeader {
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FlatPtr magic;
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FlatPtr next_chunk;
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};
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FlatPtr m_head_chunk { 0 };
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FlatPtr m_current_chunk { 0 };
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size_t m_byte_offset_into_current_chunk { 0 };
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size_t m_chunk_size { 0 };
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static Atomic<FlatPtr> s_unused_allocation_cache;
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};
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template<typename T, bool use_mmap = false, size_t chunk_size = use_mmap ? 4 * MiB : 4 * KiB>
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class UniformBumpAllocator : protected BumpAllocator<use_mmap, chunk_size> {
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using Allocator = BumpAllocator<use_mmap, chunk_size>;
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public:
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UniformBumpAllocator() = default;
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~UniformBumpAllocator()
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{
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destroy_all();
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}
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template<typename... Args>
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T* allocate(Args&&... args)
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{
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auto ptr = (T*)Allocator::allocate(sizeof(T), alignof(T));
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if (!ptr)
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return nullptr;
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return new (ptr) T { forward<Args>(args)... };
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}
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void deallocate_all()
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{
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destroy_all();
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Allocator::deallocate_all();
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}
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void destroy_all()
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{
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this->for_each_chunk([&](auto chunk) {
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auto base_ptr = align_up_to(chunk + sizeof(typename Allocator::ChunkHeader), alignof(T));
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// Compute the offset of the first byte *after* this chunk:
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FlatPtr end_offset = base_ptr + this->m_chunk_size - chunk - sizeof(typename Allocator::ChunkHeader);
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if (chunk == this->m_current_chunk)
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end_offset = this->m_byte_offset_into_current_chunk;
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// Compute the offset of the first byte *after* the last valid object, in case the end of the chunk does not align with the end of an object:
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end_offset = (end_offset / sizeof(T)) * sizeof(T);
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for (; base_ptr - chunk < end_offset; base_ptr += sizeof(T))
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reinterpret_cast<T*>(base_ptr)->~T();
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});
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}
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};
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template<bool use_mmap, size_t size>
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inline Atomic<FlatPtr> BumpAllocator<use_mmap, size>::s_unused_allocation_cache { 0 };
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}
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#if USING_AK_GLOBALLY
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using AK::BumpAllocator;
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using AK::UniformBumpAllocator;
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#endif
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