/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include
namespace ams::fs {
namespace {
Result ConvertNcaCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultNcaCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultInvalidNcaFileSystemType, fs::ResultInvalidRomNcaFileSystemType())
R_CONVERT(fs::ResultInvalidAcidFileSize, fs::ResultInvalidRomAcidFileSize())
R_CONVERT(fs::ResultInvalidAcidSize, fs::ResultInvalidRomAcidSize())
R_CONVERT(fs::ResultInvalidAcid, fs::ResultInvalidRomAcid())
R_CONVERT(fs::ResultAcidVerificationFailed, fs::ResultRomAcidVerificationFailed())
R_CONVERT(fs::ResultInvalidNcaSignature, fs::ResultInvalidRomNcaSignature())
R_CONVERT(fs::ResultNcaHeaderSignature1VerificationFailed, fs::ResultRomNcaHeaderSignature1VerificationFailed())
R_CONVERT(fs::ResultNcaHeaderSignature2VerificationFailed, fs::ResultRomNcaHeaderSignature2VerificationFailed())
R_CONVERT(fs::ResultNcaFsHeaderHashVerificationFailed, fs::ResultRomNcaFsHeaderHashVerificationFailed())
R_CONVERT(fs::ResultInvalidNcaKeyIndex, fs::ResultInvalidRomNcaKeyIndex())
R_CONVERT(fs::ResultInvalidNcaFsHeaderHashType, fs::ResultInvalidRomNcaFsHeaderHashType())
R_CONVERT(fs::ResultInvalidNcaFsHeaderEncryptionType, fs::ResultInvalidRomNcaFsHeaderEncryptionType())
R_CONVERT(fs::ResultInvalidHierarchicalSha256BlockSize, fs::ResultInvalidRomHierarchicalSha256BlockSize())
R_CONVERT(fs::ResultInvalidHierarchicalSha256LayerCount, fs::ResultInvalidRomHierarchicalSha256LayerCount())
R_CONVERT(fs::ResultHierarchicalSha256BaseStorageTooLarge, fs::ResultRomHierarchicalSha256BaseStorageTooLarge())
R_CONVERT(fs::ResultHierarchicalSha256HashVerificationFailed, fs::ResultRomHierarchicalSha256HashVerificationFailed())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultNcaCorrupted());
}
Result ConvertIntegrityVerificationStorageCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultIntegrityVerificationStorageCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultIncorrectIntegrityVerificationMagic, fs::ResultIncorrectRomIntegrityVerificationMagic())
R_CONVERT(fs::ResultInvalidZeroHash, fs::ResultInvalidRomZeroHash())
R_CONVERT(fs::ResultNonRealDataVerificationFailed, fs::ResultRomNonRealDataVerificationFailed())
R_CONVERT(fs::ResultInvalidHierarchicalIntegrityVerificationLayerCount, fs::ResultInvalidRomHierarchicalIntegrityVerificationLayerCount())
R_CONVERT(fs::ResultClearedRealDataVerificationFailed, fs::ResultClearedRomRealDataVerificationFailed())
R_CONVERT(fs::ResultUnclearedRealDataVerificationFailed, fs::ResultUnclearedRomRealDataVerificationFailed())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultIntegrityVerificationStorageCorrupted());
}
Result ConvertBuiltInStorageCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultBuiltInStorageCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultGptHeaderVerificationFailed, fs::ResultRomGptHeaderVerificationFailed())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultBuiltInStorageCorrupted());
}
Result ConvertPartitionFileSystemCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultPartitionFileSystemCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultInvalidSha256PartitionHashTarget, fs::ResultInvalidRomSha256PartitionHashTarget())
R_CONVERT(fs::ResultSha256PartitionHashVerificationFailed, fs::ResultRomSha256PartitionHashVerificationFailed())
R_CONVERT(fs::ResultPartitionSignatureVerificationFailed, fs::ResultRomPartitionSignatureVerificationFailed())
R_CONVERT(fs::ResultSha256PartitionSignatureVerificationFailed, fs::ResultRomSha256PartitionSignatureVerificationFailed())
R_CONVERT(fs::ResultInvalidPartitionEntryOffset, fs::ResultInvalidRomPartitionEntryOffset())
R_CONVERT(fs::ResultInvalidSha256PartitionMetaDataSize, fs::ResultInvalidRomSha256PartitionMetaDataSize())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultPartitionFileSystemCorrupted());
}
Result ConvertFatFileSystemCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultFatFileSystemCorrupted::Includes(res));
R_RETURN(res);
}
Result ConvertHostFileSystemCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultHostFileSystemCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultHostEntryCorrupted, fs::ResultRomHostEntryCorrupted())
R_CONVERT(fs::ResultHostFileDataCorrupted, fs::ResultRomHostFileDataCorrupted())
R_CONVERT(fs::ResultHostFileCorrupted, fs::ResultRomHostFileCorrupted())
R_CONVERT(fs::ResultInvalidHostHandle, fs::ResultInvalidRomHostHandle())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultHostFileSystemCorrupted());
}
Result ConvertDatabaseCorruptedResult(Result res) {
AMS_ASSERT(fs::ResultDatabaseCorrupted::Includes(res));
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultInvalidAllocationTableBlock, fs::ResultInvalidRomAllocationTableBlock())
R_CONVERT(fs::ResultInvalidKeyValueListElementIndex, fs::ResultInvalidRomKeyValueListElementIndex())
R_CATCH_ALL() { /* ... */ }
} R_END_TRY_CATCH;
AMS_ASSERT(false);
R_THROW(fs::ResultDatabaseCorrupted());
}
Result ConvertRomFsResult(Result res) {
R_TRY_CATCH(res) {
R_CONVERT(fs::ResultUnsupportedVersion, fs::ResultUnsupportedRomVersion())
R_CONVERT(fs::ResultNcaCorrupted, ConvertNcaCorruptedResult(res))
R_CONVERT(fs::ResultIntegrityVerificationStorageCorrupted, ConvertIntegrityVerificationStorageCorruptedResult(res))
R_CONVERT(fs::ResultBuiltInStorageCorrupted, ConvertBuiltInStorageCorruptedResult(res))
R_CONVERT(fs::ResultPartitionFileSystemCorrupted, ConvertPartitionFileSystemCorruptedResult(res))
R_CONVERT(fs::ResultFatFileSystemCorrupted, ConvertFatFileSystemCorruptedResult(res))
R_CONVERT(fs::ResultHostFileSystemCorrupted, ConvertHostFileSystemCorruptedResult(res))
R_CONVERT(fs::ResultDatabaseCorrupted, ConvertDatabaseCorruptedResult(res))
R_CONVERT(fs::ResultNotFound, fs::ResultPathNotFound())
R_CONVERT(fs::ResultPermissionDenied, fs::ResultTargetLocked())
R_CONVERT(fs::ResultIncompatiblePath, fs::ResultPathNotFound())
} R_END_TRY_CATCH;
R_SUCCEED();
}
Result ReadFile(IStorage *storage, s64 offset, void *buffer, size_t size) {
AMS_ASSERT(storage != nullptr);
AMS_ASSERT(offset >= 0);
AMS_ASSERT(buffer != nullptr || size == 0);
R_RETURN(ConvertRomFsResult(storage->Read(offset, buffer, size)));
}
Result ReadFileHeader(IStorage *storage, RomFileSystemInformation *out) {
AMS_ASSERT(storage != nullptr);
AMS_ASSERT(out != nullptr);
R_RETURN(ReadFile(storage, 0, out, sizeof(*out)));
}
constexpr size_t CalculateRequiredWorkingMemorySize(const RomFileSystemInformation &header) {
const size_t needed_size = header.directory_bucket_size + header.directory_entry_size + header.file_bucket_size + header.file_entry_size;
return util::AlignUp(needed_size, 8);
}
class RomFsFile : public fsa::IFile, public impl::Newable {
private:
RomFsFileSystem *m_parent;
s64 m_start;
s64 m_end;
public:
RomFsFile(RomFsFileSystem *p, s64 s, s64 e) : m_parent(p), m_start(s), m_end(e) { /* ... */ }
virtual ~RomFsFile() { /* ... */ }
Result VerifyArguments(size_t *out, s64 offset, void *buf, size_t size, const fs::ReadOption &option) {
R_TRY(DryRead(out, offset, size, option, fs::OpenMode_Read));
AMS_ASSERT(this->GetStorage() != nullptr);
AMS_ASSERT(offset >= 0);
AMS_ASSERT(buf != nullptr || size == 0);
AMS_UNUSED(buf);
R_SUCCEED();
}
Result ConvertResult(Result res) const {
R_RETURN(ConvertRomFsResult(res));
}
s64 GetOffset() const {
return m_start;
}
s64 GetSize() const {
return m_end - m_start;
}
IStorage *GetStorage() {
return m_parent->GetBaseStorage();
}
public:
virtual Result DoRead(size_t *out, s64 offset, void *buffer, size_t size, const fs::ReadOption &option) override {
size_t read_size = 0;
R_TRY(this->VerifyArguments(std::addressof(read_size), offset, buffer, size, option));
R_TRY(this->ConvertResult(this->GetStorage()->Read(offset + m_start, buffer, size)));
*out = read_size;
R_SUCCEED();
}
virtual Result DoGetSize(s64 *out) override {
*out = this->GetSize();
R_SUCCEED();
}
virtual Result DoFlush() override {
R_SUCCEED();
}
virtual Result DoWrite(s64 offset, const void *buffer, size_t size, const fs::WriteOption &option) override {
AMS_UNUSED(offset, buffer, size, option);
R_THROW(fs::ResultUnsupportedWriteForRomFsFile());
}
virtual Result DoSetSize(s64 size) override {
AMS_UNUSED(size);
R_THROW(fs::ResultUnsupportedWriteForRomFsFile());
}
virtual Result DoOperateRange(void *dst, size_t dst_size, fs::OperationId op_id, s64 offset, s64 size, const void *src, size_t src_size) override {
switch (op_id) {
case OperationId::Invalidate:
case OperationId::QueryRange:
{
R_UNLESS(offset >= 0, fs::ResultOutOfRange());
R_UNLESS(this->GetSize() >= 0, fs::ResultOutOfRange());
auto operate_size = size;
if (offset + operate_size > this->GetSize() || offset + operate_size < offset) {
operate_size = this->GetSize() - offset;
}
R_RETURN(this->GetStorage()->OperateRange(dst, dst_size, op_id, m_start + offset, operate_size, src, src_size));
}
default:
R_THROW(fs::ResultUnsupportedOperateRangeForRomFsFile());
}
}
public:
virtual sf::cmif::DomainObjectId GetDomainObjectId() const override {
AMS_ABORT();
}
};
class RomFsDirectory : public fsa::IDirectory, public impl::Newable {
private:
using FindPosition = RomFsFileSystem::RomFileTable::FindPosition;
private:
RomFsFileSystem *m_parent;
FindPosition m_current_find;
FindPosition m_first_find;
fs::OpenDirectoryMode m_mode;
public:
RomFsDirectory(RomFsFileSystem *p, const FindPosition &f, fs::OpenDirectoryMode m) : m_parent(p), m_current_find(f), m_first_find(f), m_mode(m) { /* ... */ }
virtual ~RomFsDirectory() override { /* ... */ }
public:
virtual Result DoRead(s64 *out_count, DirectoryEntry *out_entries, s64 max_entries) override {
R_RETURN(this->ReadInternal(out_count, std::addressof(m_current_find), out_entries, max_entries));
}
virtual Result DoGetEntryCount(s64 *out) override {
FindPosition find = m_first_find;
R_RETURN(this->ReadInternal(out, std::addressof(find), nullptr, 0));
}
private:
Result ReadInternal(s64 *out_count, FindPosition *find, DirectoryEntry *out_entries, s64 max_entries) {
AMS_ASSERT(out_count != nullptr);
AMS_ASSERT(find != nullptr);
constexpr size_t NameBufferSize = fs::EntryNameLengthMax + 1;
char *name_buf = static_cast(::ams::fs::impl::Allocate(NameBufferSize));
R_UNLESS(name_buf != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemE());
ON_SCOPE_EXIT { ::ams::fs::impl::Deallocate(name_buf, NameBufferSize); };
s32 i = 0;
if (m_mode & fs::OpenDirectoryMode_Directory) {
while (i < max_entries || out_entries == nullptr) {
R_TRY_CATCH(m_parent->GetRomFileTable()->FindNextDirectory(name_buf, find, NameBufferSize)) {
R_CATCH(fs::ResultDbmFindFinished) { break; }
} R_END_TRY_CATCH;
if (out_entries) {
const size_t name_len = util::Strnlen(name_buf, NameBufferSize);
R_UNLESS(name_len < NameBufferSize, fs::ResultTooLongPath());
std::memcpy(out_entries[i].name, name_buf, name_len);
out_entries[i].name[name_len] = '\x00';
out_entries[i].type = fs::DirectoryEntryType_Directory;
out_entries[i].file_size = 0;
}
i++;
}
}
if (m_mode & fs::OpenDirectoryMode_File) {
while (i < max_entries || out_entries == nullptr) {
auto file_pos = find->next_file;
R_TRY_CATCH(m_parent->GetRomFileTable()->FindNextFile(name_buf, find, NameBufferSize)) {
R_CATCH(fs::ResultDbmFindFinished) { break; }
} R_END_TRY_CATCH;
if (out_entries) {
const size_t name_len = util::Strnlen(name_buf, NameBufferSize);
R_UNLESS(name_len < NameBufferSize, fs::ResultTooLongPath());
std::memcpy(out_entries[i].name, name_buf, name_len);
out_entries[i].name[name_len] = '\x00';
out_entries[i].type = fs::DirectoryEntryType_File;
RomFsFileSystem::RomFileTable::FileInfo file_info;
R_TRY(m_parent->GetRomFileTable()->OpenFile(std::addressof(file_info), m_parent->GetRomFileTable()->PositionToFileId(file_pos)));
out_entries[i].file_size = file_info.size.Get();
}
i++;
}
}
*out_count = i;
R_SUCCEED();
}
public:
virtual sf::cmif::DomainObjectId GetDomainObjectId() const override {
AMS_ABORT();
}
};
}
RomFsFileSystem::RomFsFileSystem() : m_base_storage() {
/* ... */
}
RomFsFileSystem::~RomFsFileSystem() {
/* ... */
}
Result RomFsFileSystem::GetRequiredWorkingMemorySize(size_t *out, IStorage *storage) {
RomFileSystemInformation header;
R_TRY(ReadFileHeader(storage, std::addressof(header)));
*out = CalculateRequiredWorkingMemorySize(header);
R_SUCCEED();
}
Result RomFsFileSystem::Initialize(IStorage *base, void *work, size_t work_size, bool use_cache) {
AMS_ABORT_UNLESS(!use_cache || work != nullptr);
AMS_ABORT_UNLESS(base != nullptr);
/* Read the header. */
RomFileSystemInformation header;
R_TRY(ReadFileHeader(base, std::addressof(header)));
/* Set up our storages. */
if (use_cache) {
const size_t needed_size = CalculateRequiredWorkingMemorySize(header);
R_UNLESS(work_size >= needed_size, fs::ResultPreconditionViolation());
u8 *buf = static_cast(work);
auto dir_bucket_buf = buf; buf += header.directory_bucket_size;
auto dir_entry_buf = buf; buf += header.directory_entry_size;
auto file_bucket_buf = buf; buf += header.file_bucket_size;
auto file_entry_buf = buf; buf += header.file_entry_size;
R_TRY(ReadFile(base, header.directory_bucket_offset, dir_bucket_buf, header.directory_bucket_size));
R_TRY(ReadFile(base, header.directory_entry_offset, dir_entry_buf, header.directory_entry_size));
R_TRY(ReadFile(base, header.file_bucket_offset, file_bucket_buf, header.file_bucket_size));
R_TRY(ReadFile(base, header.file_entry_offset, file_entry_buf, header.file_entry_size));
m_dir_bucket_storage.reset(new MemoryStorage(dir_bucket_buf, header.directory_bucket_size));
m_dir_entry_storage.reset(new MemoryStorage(dir_entry_buf, header.directory_entry_size));
m_file_bucket_storage.reset(new MemoryStorage(file_bucket_buf, header.file_bucket_size));
m_file_entry_storage.reset(new MemoryStorage(file_entry_buf, header.file_entry_size));
} else {
m_dir_bucket_storage.reset(new SubStorage(base, header.directory_bucket_offset, header.directory_bucket_size));
m_dir_entry_storage.reset(new SubStorage(base, header.directory_entry_offset, header.directory_entry_size));
m_file_bucket_storage.reset(new SubStorage(base, header.file_bucket_offset, header.file_bucket_size));
m_file_entry_storage.reset(new SubStorage(base, header.file_entry_offset, header.file_entry_size));
}
/* Ensure we allocated storages successfully. */
R_UNLESS(m_dir_bucket_storage != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemA());
R_UNLESS(m_dir_entry_storage != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemA());
R_UNLESS(m_file_bucket_storage != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemA());
R_UNLESS(m_file_entry_storage != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemA());
/* Initialize the rom table. */
{
SubStorage db(m_dir_bucket_storage.get(), 0, header.directory_bucket_size);
SubStorage de(m_dir_entry_storage.get(), 0, header.directory_entry_size);
SubStorage fb(m_file_bucket_storage.get(), 0, header.file_bucket_size);
SubStorage fe(m_file_entry_storage.get(), 0, header.file_entry_size);
R_TRY(m_rom_file_table.Initialize(db, de, fb, fe));
}
/* Set members. */
m_entry_size = header.body_offset;
m_base_storage = base;
R_SUCCEED();
}
Result RomFsFileSystem::Initialize(std::unique_ptr&& base, void *work, size_t work_size, bool use_cache) {
m_unique_storage = std::move(base);
R_RETURN(this->Initialize(m_unique_storage.get(), work, work_size, use_cache));
}
Result RomFsFileSystem::GetFileInfo(RomFileTable::FileInfo *out, const char *path) {
R_TRY_CATCH(m_rom_file_table.OpenFile(out, path)) {
R_CONVERT(fs::ResultDbmNotFound, fs::ResultPathNotFound());
R_CONVERT(fs::ResultDbmInvalidOperation, fs::ResultPathNotFound());
} R_END_TRY_CATCH;
R_SUCCEED();
}
IStorage *RomFsFileSystem::GetBaseStorage() {
return m_base_storage;
}
RomFsFileSystem::RomFileTable *RomFsFileSystem::GetRomFileTable() {
return std::addressof(m_rom_file_table);
}
Result RomFsFileSystem::GetFileBaseOffset(s64 *out, const char *path) {
AMS_ABORT_UNLESS(out != nullptr);
AMS_ABORT_UNLESS(path != nullptr);
RomFileTable::FileInfo info;
R_TRY(this->GetFileInfo(std::addressof(info), path));
*out = m_entry_size + info.offset.Get();
R_SUCCEED();
}
Result RomFsFileSystem::DoCreateFile(const fs::Path &path, s64 size, int flags) {
AMS_UNUSED(path, size, flags);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoDeleteFile(const fs::Path &path) {
AMS_UNUSED(path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoCreateDirectory(const fs::Path &path) {
AMS_UNUSED(path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoDeleteDirectory(const fs::Path &path) {
AMS_UNUSED(path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoDeleteDirectoryRecursively(const fs::Path &path) {
AMS_UNUSED(path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoRenameFile(const fs::Path &old_path, const fs::Path &new_path) {
AMS_UNUSED(old_path, new_path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoRenameDirectory(const fs::Path &old_path, const fs::Path &new_path) {
AMS_UNUSED(old_path, new_path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoGetEntryType(fs::DirectoryEntryType *out, const fs::Path &path) {
RomDirectoryInfo dir_info;
R_TRY_CATCH(m_rom_file_table.GetDirectoryInformation(std::addressof(dir_info), path.GetString())) {
R_CONVERT(fs::ResultDbmNotFound, fs::ResultPathNotFound())
R_CATCH(fs::ResultDbmInvalidOperation) {
RomFileTable::FileInfo file_info;
R_TRY(this->GetFileInfo(std::addressof(file_info), path.GetString()));
*out = fs::DirectoryEntryType_File;
R_SUCCEED();
}
} R_END_TRY_CATCH;
*out = fs::DirectoryEntryType_Directory;
R_SUCCEED();
}
Result RomFsFileSystem::DoOpenFile(std::unique_ptr *out_file, const fs::Path &path, fs::OpenMode mode) {
AMS_ASSERT(out_file != nullptr);
R_UNLESS((mode & fs::OpenMode_All) == fs::OpenMode_Read, fs::ResultInvalidOpenMode());
RomFileTable::FileInfo file_info;
R_TRY(this->GetFileInfo(std::addressof(file_info), path.GetString()));
auto file = std::make_unique(this, m_entry_size + file_info.offset.Get(), m_entry_size + file_info.offset.Get() + file_info.size.Get());
R_UNLESS(file != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemB());
*out_file = std::move(file);
R_SUCCEED();
}
Result RomFsFileSystem::DoOpenDirectory(std::unique_ptr *out_dir, const fs::Path &path, fs::OpenDirectoryMode mode) {
AMS_ASSERT(out_dir != nullptr);
RomFileTable::FindPosition find;
R_TRY_CATCH(m_rom_file_table.FindOpen(std::addressof(find), path.GetString())) {
R_CONVERT(fs::ResultDbmNotFound, fs::ResultPathNotFound())
R_CONVERT(fs::ResultDbmInvalidOperation, fs::ResultPathNotFound())
} R_END_TRY_CATCH;
auto dir = std::make_unique(this, find, mode);
R_UNLESS(dir != nullptr, fs::ResultAllocationMemoryFailedInRomFsFileSystemC());
*out_dir = std::move(dir);
R_SUCCEED();
}
Result RomFsFileSystem::DoCommit() {
R_SUCCEED();
}
Result RomFsFileSystem::DoGetFreeSpaceSize(s64 *out, const fs::Path &path) {
AMS_UNUSED(path);
*out = 0;
R_SUCCEED();
}
Result RomFsFileSystem::DoGetTotalSpaceSize(s64 *out, const fs::Path &path) {
AMS_UNUSED(out, path);
R_THROW(fs::ResultUnsupportedGetTotalSpaceSizeForRomFsFileSystem());
}
Result RomFsFileSystem::DoCleanDirectoryRecursively(const fs::Path &path) {
AMS_UNUSED(path);
R_THROW(fs::ResultUnsupportedWriteForRomFsFileSystem());
}
Result RomFsFileSystem::DoCommitProvisionally(s64 counter) {
AMS_UNUSED(counter);
R_THROW(fs::ResultUnsupportedCommitProvisionallyForRomFsFileSystem());
}
Result RomFsFileSystem::DoRollback() {
R_SUCCEED();
}
}