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Atmosphere/libraries/libstratosphere/source/fssystem/fssystem_indirect_storage.cpp

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/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
namespace ams::fssystem {
Result IndirectStorage::Initialize(IAllocator *allocator, fs::SubStorage table_storage) {
/* Read and verify the bucket tree header. */
BucketTree::Header header;
R_TRY(table_storage.Read(0, std::addressof(header), sizeof(header)));
R_TRY(header.Verify());
/* Determine extents. */
const auto node_storage_size = QueryNodeStorageSize(header.entry_count);
const auto entry_storage_size = QueryEntryStorageSize(header.entry_count);
const auto node_storage_offset = QueryHeaderStorageSize();
const auto entry_storage_offset = node_storage_offset + node_storage_size;
/* Initialize. */
R_RETURN(this->Initialize(allocator, fs::SubStorage(std::addressof(table_storage), node_storage_offset, node_storage_size), fs::SubStorage(std::addressof(table_storage), entry_storage_offset, entry_storage_size), header.entry_count));
}
void IndirectStorage::Finalize() {
if (this->IsInitialized()) {
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m_table.Finalize();
for (auto i = 0; i < StorageCount; i++) {
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m_data_storage[i] = fs::SubStorage();
}
}
}
Result IndirectStorage::GetEntryList(Entry *out_entries, s32 *out_entry_count, s32 entry_count, s64 offset, s64 size) {
/* Validate pre-conditions. */
AMS_ASSERT(offset >= 0);
AMS_ASSERT(size >= 0);
AMS_ASSERT(this->IsInitialized());
/* Clear the out count. */
R_UNLESS(out_entry_count != nullptr, fs::ResultNullptrArgument());
*out_entry_count = 0;
/* Succeed if there's no range. */
R_SUCCEED_IF(size == 0);
/* If we have an output array, we need it to be non-null. */
R_UNLESS(out_entries != nullptr || entry_count == 0, fs::ResultNullptrArgument());
/* Check that our range is valid. */
BucketTree::Offsets table_offsets;
R_TRY(m_table.GetOffsets(std::addressof(table_offsets)));
R_UNLESS(table_offsets.IsInclude(offset, size), fs::ResultOutOfRange());
/* Find the offset in our tree. */
BucketTree::Visitor visitor;
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R_TRY(m_table.Find(std::addressof(visitor), offset));
{
const auto entry_offset = visitor.Get<Entry>()->GetVirtualOffset();
R_UNLESS(0 <= entry_offset && table_offsets.IsInclude(entry_offset), fs::ResultInvalidIndirectEntryOffset());
}
/* Prepare to loop over entries. */
const auto end_offset = offset + static_cast<s64>(size);
s32 count = 0;
auto cur_entry = *visitor.Get<Entry>();
while (cur_entry.GetVirtualOffset() < end_offset) {
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/* Try to write the entry to the out list. */
if (entry_count != 0) {
if (count >= entry_count) {
break;
}
std::memcpy(out_entries + count, std::addressof(cur_entry), sizeof(Entry));
}
count++;
/* Advance. */
if (visitor.CanMoveNext()) {
R_TRY(visitor.MoveNext());
cur_entry = *visitor.Get<Entry>();
} else {
break;
}
}
/* Write the output count. */
*out_entry_count = count;
R_SUCCEED();
}
Result IndirectStorage::Read(s64 offset, void *buffer, size_t size) {
/* Validate pre-conditions. */
AMS_ASSERT(offset >= 0);
AMS_ASSERT(this->IsInitialized());
/* Succeed if there's nothing to read. */
R_SUCCEED_IF(size == 0);
/* Ensure that we have a buffer to read to. */
R_UNLESS(buffer != nullptr, fs::ResultNullptrArgument());
R_TRY((this->OperatePerEntry<true, true>(offset, size, [=](fs::IStorage *storage, s64 data_offset, s64 cur_offset, s64 cur_size) -> Result {
R_TRY(storage->Read(data_offset, reinterpret_cast<u8 *>(buffer) + (cur_offset - offset), static_cast<size_t>(cur_size)));
R_SUCCEED();
})));
R_SUCCEED();
}
Result IndirectStorage::OperateRange(void *dst, size_t dst_size, fs::OperationId op_id, s64 offset, s64 size, const void *src, size_t src_size) {
/* Validate pre-conditions. */
AMS_ASSERT(offset >= 0);
AMS_ASSERT(size >= 0);
AMS_ASSERT(this->IsInitialized());
switch (op_id) {
case fs::OperationId::Invalidate:
{
if (!m_table.IsEmpty()) {
/* Invalidate our table's cache. */
R_TRY(m_table.InvalidateCache());
/* Invalidate our storages. */
for (auto &storage : m_data_storage) {
R_TRY(storage.OperateRange(fs::OperationId::Invalidate, 0, std::numeric_limits<s64>::max()));
}
}
R_SUCCEED();
}
case fs::OperationId::QueryRange:
{
/* Validate that we have an output range info. */
R_UNLESS(dst != nullptr, fs::ResultNullptrArgument());
R_UNLESS(dst_size == sizeof(fs::QueryRangeInfo), fs::ResultInvalidSize());
if (size > 0) {
/* Validate arguments. */
BucketTree::Offsets table_offsets;
R_TRY(m_table.GetOffsets(std::addressof(table_offsets)));
R_UNLESS(table_offsets.IsInclude(offset, size), fs::ResultOutOfRange());
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if (!m_table.IsEmpty()) {
/* Create a new info. */
fs::QueryRangeInfo merged_info;
merged_info.Clear();
/* Operate on our entries. */
R_TRY((this->OperatePerEntry<false, true>(offset, size, [=, &merged_info](fs::IStorage *storage, s64 data_offset, s64 cur_offset, s64 cur_size) -> Result {
AMS_UNUSED(cur_offset);
fs::QueryRangeInfo cur_info;
R_TRY(storage->OperateRange(std::addressof(cur_info), sizeof(cur_info), op_id, data_offset, cur_size, src, src_size));
merged_info.Merge(cur_info);
R_SUCCEED();
})));
/* Write the merged info. */
*reinterpret_cast<fs::QueryRangeInfo *>(dst) = merged_info;
}
}
R_SUCCEED();
}
default:
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R_THROW(fs::ResultUnsupportedOperateRangeForIndirectStorage());
}
R_SUCCEED();
}
}