mirror of
https://github.com/Atmosphere-NX/Atmosphere
synced 2024-11-16 01:49:32 +00:00
429 lines
No EOL
17 KiB
C++
429 lines
No EOL
17 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 <stratosphere.hpp>
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#include "ncm_file_mapper_file.hpp"
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#include "ncm_fs_utils.hpp"
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namespace ams::ncm {
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namespace impl {
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template<typename T>
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concept IsMappedMemorySpan = std::same_as<T, Span<u8>>;
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constexpr inline u64 InitialIdCounterValue = 0x12345;
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}
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class SingleCacheMapperBase : public IMapper {
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private:
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bool m_is_mapped;
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MappedMemory m_mapped_memory;
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size_t m_accessible_size;
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bool m_is_using;
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bool m_is_dirty;
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u64 m_id_counter;
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u8 *m_buffer;
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size_t m_buffer_size;
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public:
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SingleCacheMapperBase(Span<u8> span) : m_is_mapped(false), m_mapped_memory{}, m_accessible_size(0), m_is_using(false), m_is_dirty(false), m_id_counter(impl::InitialIdCounterValue), m_buffer(span.data()), m_buffer_size(span.size_bytes()) {
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/* ... */
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}
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protected:
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void Finalize() {
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/* If we're unused and mapped, we should unmap. */
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if (!m_is_using && m_is_mapped) {
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this->Unmap();
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}
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}
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private:
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Result Unmap() {
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/* Check pre-conditions. */
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AMS_ASSERT(m_is_mapped);
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/* If we're dirty, we'll need to flush the entry. */
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if (m_is_dirty) {
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/* Unmap our memory. */
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MappedMemory mem = m_mapped_memory;
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if (mem.offset + mem.buffer_size > m_accessible_size) {
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mem.buffer_size = m_accessible_size - mem.offset;
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}
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R_TRY(this->UnmapImpl(std::addressof(mem)));
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}
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/* Set as dirty/not mapped. */
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m_is_dirty = false;
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m_is_mapped = false;
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}
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Result GetMappedMemoryImpl(MappedMemory *out, size_t offset, size_t size) {
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/* Check pre-conditions. */
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AMS_ASSERT(m_is_mapped);
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/* Ensure the accessible size works. */
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const bool can_update = this->IsAccessibleSizeUpdatable();
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R_UNLESS((offset + size <= m_accessible_size || can_update), ncm::ResultMapperInvalidArgument());
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/* Update our accessible size. */
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m_accessible_size = std::max<size_t>(m_accessible_size, size + offset);
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/* Set the output memory. */
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*out = m_mapped_memory;
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out->buffer_size = std::min<size_t>(out->buffer_size, m_accessible_size - out->offset);
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R_SUCCEED();
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}
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public:
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virtual Result GetMappedMemory(MappedMemory *out, size_t offset, size_t size) override final {
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/* Ensure our memory is valid, if it's already mapped. */
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if (m_is_mapped) {
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/* If we can re-use the previous mapping, do so. */
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if (m_mapped_memory.IsIncluded(offset, size)) {
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/* If the memory is in use, we can't get a new mapping. */
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R_UNLESS(!m_is_using, ncm::ResultMapperBusy());
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/* Get the output memory. */
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R_RETURN(this->GetMappedMemoryImpl(out, offset, size));
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}
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/* We don't have the correct data mapped, so we need to map. */
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R_TRY(this->Unmap());
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}
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/* Map. */
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R_TRY(this->MapImpl(std::addressof(m_mapped_memory), Span<u8>(m_buffer, m_buffer_size), offset, size));
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/* Set our mapping id. */
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m_mapped_memory.id = m_id_counter++;
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/* Get the output memory. */
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R_RETURN(this->GetMappedMemoryImpl(out, offset, size));
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}
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virtual Result MarkUsing(u64 id) override final {
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/* Check that the mapping is correct. */
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R_UNLESS(m_is_mapped, ncm::ResultMapperNotMapped());
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R_UNLESS(m_mapped_memory.id == id, ncm::ResultMapperNotMapped());
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/* Mark as using. */
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m_is_using = true;
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R_SUCCEED();
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}
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virtual Result UnmarkUsing(u64 id) override final {
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/* Check that the mapping is correct. */
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R_UNLESS(m_is_mapped, ncm::ResultMapperNotMapped());
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R_UNLESS(m_mapped_memory.id == id, ncm::ResultMapperNotMapped());
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/* Mark as not using. */
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m_is_using = false;
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R_SUCCEED();
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}
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virtual Result MarkDirty(u64 id) override final {
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/* Check that the mapping is correct. */
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R_UNLESS(m_is_mapped, ncm::ResultMapperNotMapped());
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R_UNLESS(m_mapped_memory.id == id, ncm::ResultMapperNotMapped());
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/* Mark as dirty. */
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m_is_dirty = true;
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R_SUCCEED();
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}
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};
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template<size_t MaxEntries>
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class MultiCacheReadonlyMapperBase : public IMapper {
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private:
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struct Entry {
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MappedMemory memory;
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u64 lru_counter;
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u32 use_count;
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bool is_mapped;
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u8 *buffer;
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size_t buffer_size;
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};
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private:
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Entry m_entry_storages[MaxEntries];
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Entry * const m_entries;
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size_t m_entry_count;
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u64 m_id_counter;
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u64 m_lru_counter;
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size_t m_accessible_size;
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public:
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template<impl::IsMappedMemorySpan... Args>
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MultiCacheReadonlyMapperBase(Args... args) : m_entries(m_entry_storages), m_entry_count(sizeof...(Args)), m_id_counter(impl::InitialIdCounterValue), m_lru_counter(1), m_accessible_size(0) {
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/* Check the argument count is valid. */
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static_assert(sizeof...(Args) <= MaxEntries);
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/* Initialize entries. */
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auto InitializeEntry = [](Entry *entry, Span<u8> span) ALWAYS_INLINE_LAMBDA -> void {
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*entry = {};
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entry->buffer = span.data();
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entry->buffer_size = span.size_bytes();
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};
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Entry *cur_entry = m_entries;
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(InitializeEntry(cur_entry++, args), ...);
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}
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size_t GetSize() {
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return m_accessible_size;
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}
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protected:
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void SetSize(size_t size) {
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m_accessible_size = size;
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}
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void Finalize() {
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/* Mark all entries as unmapped. */
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for (size_t i = 0; i < m_entry_count; ++i) {
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/* We can't mark unmapped an entry which is in use. */
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if (m_entries[i].use_count > 0) {
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break;
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}
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if (m_entries[i].is_mapped) {
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m_entries[i].is_mapped = false;
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}
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}
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}
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private:
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Result GetMappedMemoryImpl(MappedMemory *out, const MappedMemory &src) {
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/* Set the output memory. */
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*out = src;
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out->buffer_size = std::min<size_t>(out->buffer_size, m_accessible_size - out->offset);
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R_SUCCEED();
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}
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public:
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virtual Result GetMappedMemory(MappedMemory *out, size_t offset, size_t size) override final {
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/* Try to find an entry which contains the desired region. */
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for (size_t i = 0; i < m_entry_count; ++i) {
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if (m_entries[i].is_mapped && m_entries[i].memory.IsIncluded(offset, size)) {
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R_RETURN(this->GetMappedMemoryImpl(out, m_entries[i].memory));
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}
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}
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/* Find the oldest entry. */
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Entry *oldest = nullptr;
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Entry *best_entry = nullptr;
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for (size_t i = 0; i < m_entry_count; ++i) {
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if (m_entries[i].is_mapped) {
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if (m_entries[i].use_count == 0) {
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if (oldest == nullptr || m_entries[i].lru_counter < oldest->lru_counter) {
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oldest = std::addressof(m_entries[i]);
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}
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}
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} else {
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best_entry = std::addressof(m_entries[i]);
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}
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}
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/* If we didn't find a free entry, use the oldest. */
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best_entry = best_entry != nullptr ? best_entry : oldest;
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R_UNLESS(best_entry != nullptr, ncm::ResultMapperBusy());
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/* Ensure the best entry isn't mapped. */
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if (best_entry->is_mapped) {
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best_entry->is_mapped = false;
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}
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/* Map. */
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R_TRY(this->MapImpl(std::addressof(best_entry->memory), Span<u8>(best_entry->buffer, best_entry->buffer_size), offset, size));
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/* Set our mapping id. */
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best_entry->memory.id = m_id_counter++;
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/* Get the output memory. */
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R_RETURN(this->GetMappedMemoryImpl(out, best_entry->memory));
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}
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virtual Result MarkUsing(u64 id) override final {
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/* Try to unmark the entry. */
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for (size_t i = 0; i < m_entry_count; ++i) {
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if (m_entries[i].memory.id == id) {
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++m_entries[i].use_count;
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m_entries[i].lru_counter = m_lru_counter++;
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R_SUCCEED();
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}
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}
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/* We failed to unmark. */
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R_THROW(ncm::ResultMapperNotMapped());
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}
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virtual Result UnmarkUsing(u64 id) override final {
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/* Try to unmark the entry. */
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for (size_t i = 0; i < m_entry_count; ++i) {
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if (m_entries[i].memory.id == id) {
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--m_entries[i].use_count;
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R_SUCCEED();
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}
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}
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/* We failed to unmark. */
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R_THROW(ncm::ResultMapperNotMapped());
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}
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virtual Result MarkDirty(u64) override final{
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R_THROW(ncm::ResultMapperNotSupported());
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}
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};
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template<typename CacheMapperBase>
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class ExtendedDataMapperBase : public CacheMapperBase {
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private:
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static constexpr size_t MappingAlignment = 1_KB;
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private:
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util::optional<impl::MountNameString> m_mount_name = util::nullopt;
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ncm::FileMapperFile m_file_mapper{};
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size_t m_extended_data_offset;
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bool m_suppress_fs_auto_abort;
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public:
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template<typename... Args>
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ExtendedDataMapperBase(Args &&... args) : CacheMapperBase(std::forward<Args>(args)...) { /* ... */ }
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virtual ~ExtendedDataMapperBase() override {
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/* Finalize. */
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this->Finalize();
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}
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Result Initialize(const char *content_path, bool suppress_fs_auto_abort) {
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/* Set whether we should suppress fs aborts. */
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m_suppress_fs_auto_abort = suppress_fs_auto_abort;
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/* Suppress fs auto abort, if we need to. */
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auto disable_aborts = this->GetFsAutoAbortDisabler();
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/* Mount the content. */
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auto mount_name = impl::CreateUniqueMountName();
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R_TRY(impl::MountContentMetaImpl(mount_name.str, content_path));
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/* Set our mount name. */
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m_mount_name.emplace(mount_name.str);
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/* Open the root directory. */
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auto root_path = impl::GetRootDirectoryPath(mount_name);
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fs::DirectoryHandle dir;
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R_TRY(fs::OpenDirectory(std::addressof(dir), root_path.str, fs::OpenDirectoryMode_File));
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ON_SCOPE_EXIT { fs::CloseDirectory(dir); };
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/* Loop directory reading until we find the entry we're looking for. */
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while (true) {
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/* Read one entry, and finish when we fail to read. */
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fs::DirectoryEntry entry;
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s64 num_read;
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R_TRY(fs::ReadDirectory(std::addressof(num_read), std::addressof(entry), dir, 1));
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if (num_read == 0) {
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break;
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}
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/* If this is the content meta file, parse it. */
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if (IsContentMetaFileName(entry.name)) {
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/* Create the file path. */
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impl::FilePathString file_path(root_path.str);
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file_path.Append(entry.name);
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/* Setup our file mapped. */
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R_TRY(m_file_mapper.Initialize(file_path, FileMapperFile::OpenMode::Read));
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/* Read the extended header. */
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PackagedContentMetaHeader pkg_header;
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R_TRY(m_file_mapper.Read(0, std::addressof(pkg_header), sizeof(pkg_header)));
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/* Set our extended data offset. */
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m_extended_data_offset = PackagedContentMetaReader(std::addressof(pkg_header), sizeof(pkg_header)).GetExtendedDataOffset();
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const size_t accessible_size = m_file_mapper.GetFileSize() >= m_extended_data_offset;
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R_UNLESS(accessible_size, ncm::ResultInvalidContentMetaFileSize());
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/* Set our accessible size. */
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this->SetSize(accessible_size);
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R_SUCCEED();
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}
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}
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R_THROW(ncm::ResultContentMetaNotFound());
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}
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void Finalize() {
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/* Suppress fs auto abort, if we need to. */
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auto disable_aborts = this->GetFsAutoAbortDisabler();
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/* Finalize our implementation. */
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CacheMapperBase::Finalize();
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/* Finalize our file mapper. */
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m_file_mapper.Finalize();
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/* Finalize our mount name. */
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if (m_mount_name.has_value()) {
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fs::Unmount(m_mount_name.value().Get());
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m_mount_name = util::nullopt;
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}
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}
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protected:
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virtual Result MapImpl(MappedMemory *out, Span<u8> data, size_t offset, size_t size) override final {
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/* Suppress fs auto abort, if we need to. */
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auto disable_aborts = this->GetFsAutoAbortDisabler();
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/* Get the requested map offset/size. */
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u8 *map_data = data.data();
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size_t map_size = data.size_bytes();
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/* Align the mapping, and ensure it remains valid. */
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const size_t aligned_offset = util::AlignDown(offset, MappingAlignment);
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R_UNLESS((offset + size) - aligned_offset <= map_size, ncm::ResultMapperInvalidArgument());
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/* Read the data. */
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const size_t map_offset = m_extended_data_offset + aligned_offset;
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if (map_offset + map_size >= m_file_mapper.GetFileSize()) {
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map_size = m_file_mapper.GetFileSize() - map_offset;
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}
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R_TRY(m_file_mapper.Read(map_offset, map_data, map_size));
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/* Create the output mapped memory. */
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*out = MappedMemory {
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.id = 0,
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.offset = aligned_offset,
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.buffer = map_data,
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.buffer_size = map_size,
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};
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R_SUCCEED();
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}
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virtual Result UnmapImpl(MappedMemory *) override final {
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R_THROW(ncm::ResultMapperNotSupported());
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}
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virtual bool IsAccessibleSizeUpdatable() override final {
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return false;
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}
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private:
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util::optional<fs::ScopedAutoAbortDisabler> GetFsAutoAbortDisabler() {
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/* Create an abort disabler, if we should disable aborts. */
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util::optional<fs::ScopedAutoAbortDisabler> disable_abort{util::nullopt};
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if (m_suppress_fs_auto_abort) {
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disable_abort.emplace();
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}
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return disable_abort;
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}
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};
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template<size_t N>
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using MultiCacheReadonlyMapper = ExtendedDataMapperBase<MultiCacheReadonlyMapperBase<N>>;
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} |