mirror of
https://github.com/Atmosphere-NX/Atmosphere
synced 2024-11-10 15:16:34 +00:00
330 lines
14 KiB
C++
330 lines
14 KiB
C++
/*
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* Copyright (c) Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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#include <vapours.hpp>
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#include <stratosphere/fs/fs_substorage.hpp>
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namespace ams::fssystem {
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class BucketTree {
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NON_COPYABLE(BucketTree);
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NON_MOVEABLE(BucketTree);
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public:
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static constexpr u32 Magic = util::FourCC<'B','K','T','R'>::Code;
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static constexpr u32 Version = 1;
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static constexpr size_t NodeSizeMin = 1_KB;
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static constexpr size_t NodeSizeMax = 512_KB;
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public:
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class Visitor;
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struct Header {
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u32 magic;
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u32 version;
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s32 entry_count;
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s32 reserved;
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void Format(s32 entry_count);
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Result Verify() const;
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};
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static_assert(util::is_pod<Header>::value);
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static_assert(sizeof(Header) == 0x10);
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struct NodeHeader {
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s32 index;
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s32 count;
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s64 offset;
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Result Verify(s32 node_index, size_t node_size, size_t entry_size) const;
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};
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static_assert(util::is_pod<NodeHeader>::value);
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static_assert(sizeof(NodeHeader) == 0x10);
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class ContinuousReadingInfo {
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private:
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size_t m_read_size;
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s32 m_skip_count;
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bool m_done;
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public:
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constexpr ContinuousReadingInfo() : m_read_size(), m_skip_count(), m_done() { /* ... */ }
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constexpr void Reset() { m_read_size = 0; m_skip_count = 0; m_done = false; }
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constexpr void SetSkipCount(s32 count) { AMS_ASSERT(count >= 0); m_skip_count = count; }
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constexpr s32 GetSkipCount() const { return m_skip_count; }
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constexpr bool CheckNeedScan() { return (--m_skip_count) <= 0; }
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constexpr void Done() { m_read_size = 0; m_done = true; }
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constexpr bool IsDone() const { return m_done; }
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constexpr void SetReadSize(size_t size) { m_read_size = size; }
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constexpr size_t GetReadSize() const { return m_read_size; }
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constexpr bool CanDo() const { return m_read_size > 0; }
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};
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using IAllocator = MemoryResource;
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private:
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class NodeBuffer {
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NON_COPYABLE(NodeBuffer);
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private:
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IAllocator *m_allocator;
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void *m_header;
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public:
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NodeBuffer() : m_allocator(), m_header() { /* ... */ }
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~NodeBuffer() {
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AMS_ASSERT(m_header == nullptr);
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}
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NodeBuffer(NodeBuffer &&rhs) : m_allocator(rhs.m_allocator), m_header(rhs.m_allocator) {
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rhs.m_allocator = nullptr;
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rhs.m_header = nullptr;
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}
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NodeBuffer &operator=(NodeBuffer &&rhs) {
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if (this != std::addressof(rhs)) {
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AMS_ASSERT(m_header == nullptr);
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m_allocator = rhs.m_allocator;
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m_header = rhs.m_header;
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rhs.m_allocator = nullptr;
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rhs.m_header = nullptr;
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}
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return *this;
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}
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bool Allocate(IAllocator *allocator, size_t node_size) {
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AMS_ASSERT(m_header == nullptr);
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m_allocator = allocator;
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m_header = allocator->Allocate(node_size, sizeof(s64));
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AMS_ASSERT(util::IsAligned(m_header, sizeof(s64)));
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return m_header != nullptr;
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}
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void Free(size_t node_size) {
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if (m_header) {
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m_allocator->Deallocate(m_header, node_size);
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m_header = nullptr;
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}
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m_allocator = nullptr;
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}
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void FillZero(size_t node_size) const {
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if (m_header) {
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std::memset(m_header, 0, node_size);
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}
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}
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NodeHeader *Get() const {
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return reinterpret_cast<NodeHeader *>(m_header);
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}
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NodeHeader *operator->() const { return this->Get(); }
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template<typename T>
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T *Get() const {
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static_assert(util::is_pod<T>::value);
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static_assert(sizeof(T) == sizeof(NodeHeader));
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return reinterpret_cast<T *>(m_header);
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}
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IAllocator *GetAllocator() const {
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return m_allocator;
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}
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};
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private:
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static constexpr s32 GetEntryCount(size_t node_size, size_t entry_size) {
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return static_cast<s32>((node_size - sizeof(NodeHeader)) / entry_size);
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}
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static constexpr s32 GetOffsetCount(size_t node_size) {
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return static_cast<s32>((node_size - sizeof(NodeHeader)) / sizeof(s64));
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}
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static constexpr s32 GetEntrySetCount(size_t node_size, size_t entry_size, s32 entry_count) {
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const s32 entry_count_per_node = GetEntryCount(node_size, entry_size);
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return util::DivideUp(entry_count, entry_count_per_node);
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}
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static constexpr s32 GetNodeL2Count(size_t node_size, size_t entry_size, s32 entry_count) {
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const s32 offset_count_per_node = GetOffsetCount(node_size);
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const s32 entry_set_count = GetEntrySetCount(node_size, entry_size, entry_count);
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if (entry_set_count <= offset_count_per_node) {
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return 0;
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}
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const s32 node_l2_count = util::DivideUp(entry_set_count, offset_count_per_node);
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AMS_ABORT_UNLESS(node_l2_count <= offset_count_per_node);
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return util::DivideUp(entry_set_count - (offset_count_per_node - (node_l2_count - 1)), offset_count_per_node);
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}
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public:
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static constexpr s64 QueryHeaderStorageSize() { return sizeof(Header); }
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static constexpr s64 QueryNodeStorageSize(size_t node_size, size_t entry_size, s32 entry_count) {
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AMS_ASSERT(entry_size >= sizeof(s64));
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AMS_ASSERT(node_size >= entry_size + sizeof(NodeHeader));
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AMS_ASSERT(NodeSizeMin <= node_size && node_size <= NodeSizeMax);
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AMS_ASSERT(util::IsPowerOfTwo(node_size));
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AMS_ASSERT(entry_count >= 0);
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if (entry_count <= 0) {
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return 0;
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}
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return (1 + GetNodeL2Count(node_size, entry_size, entry_count)) * static_cast<s64>(node_size);
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}
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static constexpr s64 QueryEntryStorageSize(size_t node_size, size_t entry_size, s32 entry_count) {
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AMS_ASSERT(entry_size >= sizeof(s64));
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AMS_ASSERT(node_size >= entry_size + sizeof(NodeHeader));
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AMS_ASSERT(NodeSizeMin <= node_size && node_size <= NodeSizeMax);
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AMS_ASSERT(util::IsPowerOfTwo(node_size));
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AMS_ASSERT(entry_count >= 0);
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if (entry_count <= 0) {
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return 0;
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}
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return GetEntrySetCount(node_size, entry_size, entry_count) * static_cast<s64>(node_size);
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}
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private:
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mutable fs::SubStorage m_node_storage;
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mutable fs::SubStorage m_entry_storage;
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NodeBuffer m_node_l1;
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size_t m_node_size;
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size_t m_entry_size;
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s32 m_entry_count;
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s32 m_offset_count;
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s32 m_entry_set_count;
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s64 m_start_offset;
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s64 m_end_offset;
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public:
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BucketTree() : m_node_storage(), m_entry_storage(), m_node_l1(), m_node_size(), m_entry_size(), m_entry_count(), m_offset_count(), m_entry_set_count(), m_start_offset(), m_end_offset() { /* ... */ }
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~BucketTree() { this->Finalize(); }
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Result Initialize(IAllocator *allocator, fs::SubStorage node_storage, fs::SubStorage entry_storage, size_t node_size, size_t entry_size, s32 entry_count);
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void Initialize(size_t node_size, s64 end_offset);
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void Finalize();
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bool IsInitialized() const { return m_node_size > 0; }
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bool IsEmpty() const { return m_entry_size == 0; }
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Result Find(Visitor *visitor, s64 virtual_address) const;
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Result InvalidateCache();
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s32 GetEntryCount() const { return m_entry_count; }
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IAllocator *GetAllocator() const { return m_node_l1.GetAllocator(); }
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s64 GetStart() const { return m_start_offset; }
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s64 GetEnd() const { return m_end_offset; }
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s64 GetSize() const { return m_end_offset - m_start_offset; }
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bool Includes(s64 offset) const {
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return m_start_offset <= offset && offset < m_end_offset;
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}
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bool Includes(s64 offset, s64 size) const {
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return size > 0 && m_start_offset <= offset && size <= m_end_offset - offset;
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}
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private:
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template<typename EntryType>
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struct ContinuousReadingParam {
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s64 offset;
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size_t size;
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NodeHeader entry_set;
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s32 entry_index;
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EntryType entry;
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};
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private:
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template<typename EntryType>
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Result ScanContinuousReading(ContinuousReadingInfo *out_info, const ContinuousReadingParam<EntryType> ¶m) const;
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bool IsExistL2() const { return m_offset_count < m_entry_set_count; }
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bool IsExistOffsetL2OnL1() const { return this->IsExistL2() && m_node_l1->count < m_offset_count; }
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s64 GetEntrySetIndex(s32 node_index, s32 offset_index) const {
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return (m_offset_count - m_node_l1->count) + (m_offset_count * node_index) + offset_index;
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}
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};
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class BucketTree::Visitor {
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NON_COPYABLE(Visitor);
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NON_MOVEABLE(Visitor);
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private:
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friend class BucketTree;
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union EntrySetHeader {
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NodeHeader header;
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struct Info {
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s32 index;
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s32 count;
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s64 end;
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s64 start;
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} info;
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static_assert(util::is_pod<Info>::value);
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};
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static_assert(util::is_pod<EntrySetHeader>::value);
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private:
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const BucketTree *m_tree;
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void *m_entry;
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s32 m_entry_index;
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s32 m_entry_set_count;
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EntrySetHeader m_entry_set;
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public:
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constexpr Visitor() : m_tree(), m_entry(), m_entry_index(-1), m_entry_set_count(), m_entry_set{} { /* ... */ }
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~Visitor() {
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if (m_entry != nullptr) {
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m_tree->GetAllocator()->Deallocate(m_entry, m_tree->m_entry_size);
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m_tree = nullptr;
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m_entry = nullptr;
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}
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}
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bool IsValid() const { return m_entry_index >= 0; }
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bool CanMoveNext() const { return this->IsValid() && (m_entry_index + 1 < m_entry_set.info.count || m_entry_set.info.index + 1 < m_entry_set_count); }
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bool CanMovePrevious() const { return this->IsValid() && (m_entry_index > 0 || m_entry_set.info.index > 0); }
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Result MoveNext();
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Result MovePrevious();
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template<typename EntryType>
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Result ScanContinuousReading(ContinuousReadingInfo *out_info, s64 offset, size_t size) const;
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const void *Get() const { AMS_ASSERT(this->IsValid()); return m_entry; }
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template<typename T>
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const T *Get() const { AMS_ASSERT(this->IsValid()); return reinterpret_cast<const T *>(m_entry); }
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const BucketTree *GetTree() const { return m_tree; }
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private:
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Result Initialize(const BucketTree *tree);
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Result Find(s64 virtual_address);
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Result FindEntrySet(s32 *out_index, s64 virtual_address, s32 node_index);
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Result FindEntrySetWithBuffer(s32 *out_index, s64 virtual_address, s32 node_index, char *buffer);
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Result FindEntrySetWithoutBuffer(s32 *out_index, s64 virtual_address, s32 node_index);
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Result FindEntry(s64 virtual_address, s32 entry_set_index);
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Result FindEntryWithBuffer(s64 virtual_address, s32 entry_set_index, char *buffer);
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Result FindEntryWithoutBuffer(s64 virtual_address, s32 entry_set_index);
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};
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}
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