mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
synced 2024-11-22 20:06:40 +00:00
ams.mitm: more romfs building space/time tradeoffs.
This is needed for Animal Crossing 2.0.0, which has >99000 fucking files. We now do several passes over dir/file tables instead of one pass, doing entire hash tables before we touch dir/file tables. Thus we no longer need to simultaneously allocate hash table and dir/file table space. In addition, we now do repeated passes building a segment of hash tables at a time, when insufficient memory is available. Similar is also now the case for file/dir tables, we try 0x40000 work buffer and divide by 2 until we successfully alloc. We don't allow a work buffer <0x4000, for write/perf reasons. If a game triggers that, let me know I guess. Hard to imagine a worse torture-test for this code than animal crossing.
This commit is contained in:
parent
a73e0e8f16
commit
5eabca7f04
2 changed files with 211 additions and 124 deletions
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@ -64,28 +64,61 @@ namespace ams::mitm::fs {
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};
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static_assert(util::is_pod<FileEntry>::value && sizeof(FileEntry) == 0x20);
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class DynamicTableCache {
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NON_COPYABLE(DynamicTableCache);
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NON_MOVEABLE(DynamicTableCache);
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private:
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static constexpr size_t MaxCachedSize = (1_MB / 4);
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private:
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size_t m_cache_bitsize;
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protected:
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void *m_cache;
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protected:
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DynamicTableCache(size_t sz) {
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size_t cache_size = util::CeilingPowerOfTwo(std::min(sz, MaxCachedSize));
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m_cache = std::malloc(cache_size);
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while (m_cache == nullptr) {
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cache_size >>= 1;
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AMS_ABORT_UNLESS(cache_size >= 16_KB);
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}
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m_cache_bitsize = util::CountTrailingZeros(cache_size);
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}
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~DynamicTableCache() {
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std::free(m_cache);
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}
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ALWAYS_INLINE size_t GetCacheSize() const { return static_cast<size_t>(1) << m_cache_bitsize; }
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};
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class HashTableStorage : public DynamicTableCache {
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public:
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HashTableStorage(size_t sz) : DynamicTableCache(sz) { /* ... */ }
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ALWAYS_INLINE u32 *GetBuffer() { return reinterpret_cast<u32 *>(m_cache); }
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ALWAYS_INLINE size_t GetBufferSize() const { return DynamicTableCache::GetCacheSize(); }
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};
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template<typename Entry>
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class TableReader {
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class TableReader : public DynamicTableCache {
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NON_COPYABLE(TableReader);
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NON_MOVEABLE(TableReader);
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private:
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static constexpr size_t MaxCachedSize = (1_MB / 4);
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static constexpr size_t FallbackCacheSize = 1_KB;
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private:
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ams::fs::IStorage *m_storage;
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size_t m_offset;
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size_t m_size;
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size_t m_cache_idx;
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void *m_cache;
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u8 m_fallback_cache[FallbackCacheSize];
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private:
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ALWAYS_INLINE void Read(size_t ofs, void *dst, size_t size) {
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R_ABORT_UNLESS(m_storage->Read(m_offset + ofs, dst, size));
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}
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ALWAYS_INLINE void ReloadCacheImpl(size_t idx) {
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const size_t rel_ofs = idx * MaxCachedSize;
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const size_t rel_ofs = idx * this->GetCacheSize();
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AMS_ABORT_UNLESS(rel_ofs < m_size);
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const size_t new_cache_size = std::min(m_size - rel_ofs, MaxCachedSize);
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const size_t new_cache_size = std::min(m_size - rel_ofs, this->GetCacheSize());
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this->Read(rel_ofs, m_cache, new_cache_size);
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m_cache_idx = idx;
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}
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@ -97,23 +130,18 @@ namespace ams::mitm::fs {
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}
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ALWAYS_INLINE size_t GetCacheIndex(u32 ofs) {
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return ofs / MaxCachedSize;
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return ofs / this->GetCacheSize();
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}
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public:
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TableReader(ams::fs::IStorage *s, size_t ofs, size_t sz) : m_storage(s), m_offset(ofs), m_size(sz), m_cache_idx(0) {
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m_cache = std::malloc(std::min(sz, MaxCachedSize));
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TableReader(ams::fs::IStorage *s, size_t ofs, size_t sz) : DynamicTableCache(sz), m_storage(s), m_offset(ofs), m_size(sz), m_cache_idx(0) {
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AMS_ABORT_UNLESS(m_cache != nullptr);
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this->ReloadCacheImpl(0);
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}
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~TableReader() {
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std::free(m_cache);
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}
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const Entry *GetEntry(u32 entry_offset) {
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this->ReloadCache(this->GetCacheIndex(entry_offset));
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const size_t ofs = entry_offset % MaxCachedSize;
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const size_t ofs = entry_offset % this->GetCacheSize();
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const Entry *entry = reinterpret_cast<const Entry *>(reinterpret_cast<uintptr_t>(m_cache) + ofs);
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if (AMS_UNLIKELY(this->GetCacheIndex(entry_offset) != this->GetCacheIndex(entry_offset + sizeof(Entry) + entry->name_size + sizeof(u32)))) {
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@ -125,18 +153,16 @@ namespace ams::mitm::fs {
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};
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template<typename Entry>
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class TableWriter {
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class TableWriter : public DynamicTableCache {
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NON_COPYABLE(TableWriter);
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NON_MOVEABLE(TableWriter);
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private:
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static constexpr size_t MaxCachedSize = (1_MB / 4);
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static constexpr size_t FallbackCacheSize = 1_KB;
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private:
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::FsFile *m_file;
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size_t m_offset;
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size_t m_size;
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size_t m_cache_idx;
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void *m_cache;
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u8 m_fallback_cache[FallbackCacheSize];
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size_t m_fallback_cache_entry_offset;
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size_t m_fallback_cache_entry_size;
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@ -157,8 +183,8 @@ namespace ams::mitm::fs {
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AMS_ABORT_UNLESS(!(m_cache_dirty && m_fallback_cache_dirty));
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if (m_cache_dirty) {
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const size_t ofs = m_cache_idx * MaxCachedSize;
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this->Write(ofs, m_cache, std::min(m_size - ofs, MaxCachedSize));
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const size_t ofs = m_cache_idx * this->GetCacheSize();
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this->Write(ofs, m_cache, std::min(m_size - ofs, this->GetCacheSize()));
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m_cache_dirty = false;
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}
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if (m_fallback_cache_dirty) {
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@ -168,12 +194,12 @@ namespace ams::mitm::fs {
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}
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ALWAYS_INLINE size_t GetCacheIndex(u32 ofs) {
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return ofs / MaxCachedSize;
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return ofs / this->GetCacheSize();
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}
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ALWAYS_INLINE void RefreshCacheImpl() {
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const size_t cur_cache = m_cache_idx * MaxCachedSize;
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this->Read(cur_cache, m_cache, std::min(m_size - cur_cache, MaxCachedSize));
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const size_t cur_cache = m_cache_idx * this->GetCacheSize();
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this->Read(cur_cache, m_cache, std::min(m_size - cur_cache, this->GetCacheSize()));
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}
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ALWAYS_INLINE void RefreshCache(u32 entry_offset) {
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@ -184,29 +210,27 @@ namespace ams::mitm::fs {
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}
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}
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public:
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TableWriter(::FsFile *f, size_t ofs, size_t sz) : m_file(f), m_offset(ofs), m_size(sz), m_cache_idx(0), m_fallback_cache_entry_offset(), m_fallback_cache_entry_size(), m_cache_dirty(), m_fallback_cache_dirty() {
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const size_t cache_size = std::min(sz, MaxCachedSize);
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m_cache = std::malloc(cache_size);
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TableWriter(::FsFile *f, size_t ofs, size_t sz) : DynamicTableCache(sz), m_file(f), m_offset(ofs), m_size(sz), m_cache_idx(0), m_fallback_cache_entry_offset(), m_fallback_cache_entry_size(), m_cache_dirty(), m_fallback_cache_dirty() {
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AMS_ABORT_UNLESS(m_cache != nullptr);
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std::memset(m_cache, 0, cache_size);
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std::memset(m_cache, 0, this->GetCacheSize());
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std::memset(m_fallback_cache, 0, sizeof(m_fallback_cache));
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for (size_t cur = 0; cur < m_size; cur += MaxCachedSize) {
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this->Write(cur, m_cache, std::min(m_size - cur, MaxCachedSize));
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for (size_t cur = 0; cur < m_size; cur += this->GetCacheSize()) {
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this->Write(cur, m_cache, std::min(m_size - cur, this->GetCacheSize()));
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}
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}
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~TableWriter() {
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this->Flush();
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std::free(m_cache);
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}
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Entry *GetEntry(u32 entry_offset, u32 name_len) {
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this->RefreshCache(entry_offset);
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const size_t ofs = entry_offset % MaxCachedSize;
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const size_t ofs = entry_offset % this->GetCacheSize();
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Entry *entry = reinterpret_cast<Entry *>(reinterpret_cast<uintptr_t>(m_cache) + ofs);
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if (ofs + sizeof(Entry) + util::AlignUp(name_len, sizeof(u32)) > MaxCachedSize) {
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if (ofs + sizeof(Entry) + util::AlignUp(name_len, sizeof(u32)) > this->GetCacheSize()) {
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this->Flush();
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m_fallback_cache_entry_offset = entry_offset;
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@ -226,7 +250,6 @@ namespace ams::mitm::fs {
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using DirectoryTableWriter = TableWriter<DirectoryEntry>;
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using FileTableWriter = TableWriter<FileEntry>;
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constexpr inline u32 CalculatePathHash(u32 parent, const char *_path, u32 start, size_t path_len) {
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const unsigned char *path = reinterpret_cast<const unsigned char *>(_path);
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u32 hash = parent ^ 123456789;
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@ -526,17 +549,73 @@ namespace ams::mitm::fs {
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}
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}
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/* Populate file tables. */
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/* Set all files' hash value = hash index. */
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for (const auto &it : m_files) {
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BuildFileContext *cur_file = it.get();
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cur_file->hash_value = CalculatePathHash(cur_file->parent->entry_offset, cur_file->path.get(), 0, cur_file->path_len) % num_file_hash_table_entries;
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}
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/* Set all directories' hash value = hash index. */
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for (const auto &it : m_directories) {
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BuildDirectoryContext *cur_dir = it.get();
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cur_dir->hash_value = CalculatePathHash(cur_dir == m_root ? 0 : cur_dir->parent->entry_offset, cur_dir->path.get(), 0, cur_dir->path_len) % num_dir_hash_table_entries;
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}
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/* Write hash tables. */
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{
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/* Allocate the hash table. */
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void *fht_buf = std::malloc(m_file_hash_table_size);
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AMS_ABORT_UNLESS(fht_buf != nullptr);
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u32 *file_hash_table = reinterpret_cast<u32 *>(fht_buf);
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std::memset(file_hash_table, 0xFF, m_file_hash_table_size);
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ON_SCOPE_EXIT {
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R_ABORT_UNLESS(fsFileWrite(std::addressof(metadata_file), m_dir_hash_table_size + m_dir_table_size, file_hash_table, m_file_hash_table_size, FsWriteOption_None));
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std::free(fht_buf);
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};
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HashTableStorage hash_table_storage(std::max(m_dir_hash_table_size, m_file_hash_table_size));
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u32 *hash_table = hash_table_storage.GetBuffer();
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size_t hash_table_size = hash_table_storage.GetBufferSize();
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/* Write the file hash table. */
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for (size_t ofs = 0; ofs < m_file_hash_table_size; ofs += hash_table_size) {
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std::memset(hash_table, 0xFF, hash_table_size);
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const u32 ofs_ind = ofs / sizeof(u32);
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const u32 end_ind = (ofs + hash_table_size) / sizeof(u32);
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for (const auto &it : m_files) {
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BuildFileContext *cur_file = it.get();
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if (cur_file->HasHashMark()) {
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continue;
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}
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if (const auto hash_ind = cur_file->hash_value; ofs_ind <= hash_ind && hash_ind < end_ind) {
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cur_file->hash_value = hash_table[hash_ind - ofs_ind];
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hash_table[hash_ind - ofs_ind] = cur_file->entry_offset;
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cur_file->SetHashMark();
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}
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}
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R_ABORT_UNLESS(fsFileWrite(std::addressof(metadata_file), m_dir_hash_table_size + m_dir_table_size + ofs, hash_table, std::min(m_file_hash_table_size - ofs, hash_table_size), FsWriteOption_None));
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}
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/* Write the directory hash table. */
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for (size_t ofs = 0; ofs < m_dir_hash_table_size; ofs += hash_table_size) {
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std::memset(hash_table, 0xFF, hash_table_size);
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const u32 ofs_ind = ofs / sizeof(u32);
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const u32 end_ind = (ofs + hash_table_size) / sizeof(u32);
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for (const auto &it : m_directories) {
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BuildDirectoryContext *cur_dir = it.get();
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if (cur_dir->HasHashMark()) {
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continue;
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}
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if (const auto hash_ind = cur_dir->hash_value; ofs_ind <= hash_ind && hash_ind < end_ind) {
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cur_dir->hash_value = hash_table[hash_ind - ofs_ind];
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hash_table[hash_ind - ofs_ind] = cur_dir->entry_offset;
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cur_dir->SetHashMark();
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}
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}
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R_ABORT_UNLESS(fsFileWrite(std::addressof(metadata_file), ofs, hash_table, std::min(m_dir_hash_table_size - ofs, hash_table_size), FsWriteOption_None));
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}
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}
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/* Write the file table. */
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{
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BuildFileContext *cur_file = it.get();
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FileEntry *cur_entry = file_table.GetEntry(cur_file->entry_offset, cur_file->path_len);
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cur_file->ClearHashMark();
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/* Set entry fields. */
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cur_entry->parent = cur_file->parent->entry_offset;
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cur_entry->sibling = (cur_file->sibling == nullptr) ? EmptyEntry : cur_file->sibling->entry_offset;
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cur_entry->offset = cur_file->offset;
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cur_entry->size = cur_file->size;
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/* Insert into hash table. */
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const u32 name_size = cur_file->path_len;
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const size_t hash_ind = CalculatePathHash(cur_entry->parent, cur_file->path.get(), 0, name_size) % num_file_hash_table_entries;
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cur_entry->hash = file_hash_table[hash_ind];
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file_hash_table[hash_ind] = cur_file->entry_offset;
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cur_entry->hash = cur_file->hash_value;
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/* Set name. */
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const u32 name_size = cur_file->path_len;
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cur_entry->name_size = name_size;
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if (name_size) {
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std::memcpy(cur_entry->name, cur_file->path.get(), name_size);
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@ -592,21 +669,8 @@ namespace ams::mitm::fs {
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}
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}
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}
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}
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/* Populate directory tables. */
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{
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/* Allocate the hash table. */
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void *dht_buf = std::malloc(m_dir_hash_table_size);
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AMS_ABORT_UNLESS(dht_buf != nullptr);
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u32 *dir_hash_table = reinterpret_cast<u32 *>(dht_buf);
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std::memset(dir_hash_table, 0xFF, m_dir_hash_table_size);
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ON_SCOPE_EXIT {
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R_ABORT_UNLESS(fsFileWrite(std::addressof(metadata_file), 0, dir_hash_table, m_dir_hash_table_size, FsWriteOption_None));
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std::free(dht_buf);
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};
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/* Write the file table. */
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/* Write the directory table. */
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{
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DirectoryTableWriter dir_table(std::addressof(metadata_file), m_dir_hash_table_size, m_dir_table_size);
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BuildDirectoryContext *cur_dir = it.get();
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DirectoryEntry *cur_entry = dir_table.GetEntry(cur_dir->entry_offset, cur_dir->path_len);
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cur_dir->ClearHashMark();
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/* Set entry fields. */
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cur_entry->parent = cur_dir == m_root ? 0 : cur_dir->parent->entry_offset;
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cur_entry->sibling = (cur_dir->sibling == nullptr) ? EmptyEntry : cur_dir->sibling->entry_offset;
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cur_entry->child = (cur_dir->child == nullptr) ? EmptyEntry : cur_dir->child->entry_offset;
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cur_entry->file = (cur_dir->file == nullptr) ? EmptyEntry : cur_dir->file->entry_offset;
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/* Insert into hash table. */
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const u32 name_size = cur_dir->path_len;
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const size_t hash_ind = CalculatePathHash(cur_entry->parent, cur_dir->path.get(), 0, name_size) % num_dir_hash_table_entries;
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cur_entry->hash = dir_hash_table[hash_ind];
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dir_hash_table[hash_ind] = cur_dir->entry_offset;
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cur_entry->hash = cur_dir->hash_value;
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/* Set name. */
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const u32 name_size = cur_dir->path_len;
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cur_entry->name_size = name_size;
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if (name_size) {
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std::memcpy(cur_entry->name, cur_dir->path.get(), name_size);
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@ -636,7 +698,6 @@ namespace ams::mitm::fs {
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}
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}
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}
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}
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/* Delete maps. */
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m_root = nullptr;
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@ -19,7 +19,7 @@
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namespace ams::mitm::fs::romfs {
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enum class DataSourceType {
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enum class DataSourceType : u8 {
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Storage,
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File,
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LooseSdFile,
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@ -120,10 +120,11 @@ namespace ams::mitm::fs::romfs {
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BuildFileContext *file;
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u32 path_len;
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u32 entry_offset;
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u32 hash_value;
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struct RootTag{};
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BuildDirectoryContext(RootTag) : parent(nullptr), child(nullptr), sibling(nullptr), file(nullptr), path_len(0), entry_offset(0) {
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BuildDirectoryContext(RootTag) : parent(nullptr), child(nullptr), sibling(nullptr), file(nullptr), path_len(0), entry_offset(0), hash_value(0xFFFFFFFF) {
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this->path = std::make_unique<char[]>(1);
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}
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@ -154,6 +155,18 @@ namespace ams::mitm::fs::romfs {
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dst[parent_len + 1 + this->path_len] = '\x00';
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return parent_len + 1 + this->path_len;
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}
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bool HasHashMark() const {
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return reinterpret_cast<uintptr_t>(this->sibling) & UINT64_C(0x8000000000000000);
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}
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void SetHashMark() {
|
||||
this->sibling = reinterpret_cast<BuildDirectoryContext *>(reinterpret_cast<uintptr_t>(this->sibling) | UINT64_C(0x8000000000000000));
|
||||
}
|
||||
|
||||
void ClearHashMark() {
|
||||
this->sibling = reinterpret_cast<BuildDirectoryContext *>(reinterpret_cast<uintptr_t>(this->sibling) & ~UINT64_C(0x8000000000000000));
|
||||
}
|
||||
};
|
||||
|
||||
struct BuildFileContext {
|
||||
|
@ -168,9 +181,10 @@ namespace ams::mitm::fs::romfs {
|
|||
s64 orig_offset;
|
||||
u32 path_len;
|
||||
u32 entry_offset;
|
||||
u32 hash_value;
|
||||
DataSourceType source_type;
|
||||
|
||||
BuildFileContext(const char *entry_name, size_t entry_name_len, s64 sz, s64 o_o, DataSourceType type) : parent(nullptr), sibling(nullptr), offset(0), size(sz), orig_offset(o_o), entry_offset(0), source_type(type) {
|
||||
BuildFileContext(const char *entry_name, size_t entry_name_len, s64 sz, s64 o_o, DataSourceType type) : parent(nullptr), sibling(nullptr), offset(0), size(sz), orig_offset(o_o), entry_offset(0), hash_value(0xFFFFFFFF), source_type(type) {
|
||||
this->path_len = entry_name_len;
|
||||
this->path = std::unique_ptr<char[]>(new char[this->path_len + 1]);
|
||||
std::memcpy(this->path.get(), entry_name, entry_name_len);
|
||||
|
@ -197,6 +211,18 @@ namespace ams::mitm::fs::romfs {
|
|||
dst[parent_len + 1 + this->path_len] = '\x00';
|
||||
return parent_len + 1 + this->path_len;
|
||||
}
|
||||
|
||||
bool HasHashMark() const {
|
||||
return reinterpret_cast<uintptr_t>(this->sibling) & UINT64_C(0x8000000000000000);
|
||||
}
|
||||
|
||||
void SetHashMark() {
|
||||
this->sibling = reinterpret_cast<BuildFileContext *>(reinterpret_cast<uintptr_t>(this->sibling) | UINT64_C(0x8000000000000000));
|
||||
}
|
||||
|
||||
void ClearHashMark() {
|
||||
this->sibling = reinterpret_cast<BuildFileContext *>(reinterpret_cast<uintptr_t>(this->sibling) & ~UINT64_C(0x8000000000000000));
|
||||
}
|
||||
};
|
||||
|
||||
class DirectoryTableReader;
|
||||
|
|
Loading…
Reference in a new issue