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Atmosphere/libraries/libstratosphere/source/fssrv/fssrv_access_control.cpp

407 lines
30 KiB
C++

/*
* 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::fssrv {
namespace {
constinit bool g_is_debug_flag_enabled = false;
}
bool IsDebugFlagEnabled() {
return g_is_debug_flag_enabled;
}
void SetDebugFlagEnabled(bool en) {
/* Set global debug flag. */
g_is_debug_flag_enabled = en;
}
namespace impl {
namespace {
constexpr u8 LatestFsAccessControlInfoVersion = 1;
}
AccessControl::AccessControl(const void *data, s64 data_size, const void *desc, s64 desc_size) : AccessControl(data, data_size, desc, desc_size, g_is_debug_flag_enabled ? AllFlagBitsMask : DebugFlagDisableMask) {
/* ... */
}
AccessControl::AccessControl(const void *fac_data, s64 data_size, const void *fac_desc, s64 desc_size, u64 flag_mask) {
/* If either our data or descriptor is null, give no permissions. */
if (fac_data == nullptr || fac_desc == nullptr) {
m_flag_bits.emplace(util::ToUnderlying(AccessControlBits::Bits::None));
return;
}
/* Check that data/desc are big enough. */
AMS_ABORT_UNLESS(data_size >= static_cast<s64>(sizeof(AccessControlDataHeader)));
AMS_ABORT_UNLESS(desc_size >= static_cast<s64>(sizeof(AccessControlDescriptor)));
/* Copy in the data/descriptor. */
AccessControlDataHeader data = {};
AccessControlDescriptor desc = {};
std::memcpy(std::addressof(data), fac_data, sizeof(data));
std::memcpy(std::addressof(desc), fac_desc, sizeof(desc));
/* If we don't know how to parse the descriptors, don't. */
if (data.version != desc.version || data.version < LatestFsAccessControlInfoVersion) {
m_flag_bits.emplace(util::ToUnderlying(AccessControlBits::Bits::None));
return;
}
/* Restrict the descriptor's flag bits. */
desc.flag_bits &= flag_mask;
/* Create our flag bits. */
m_flag_bits.emplace(data.flag_bits & desc.flag_bits);
/* Further check sizes. */
AMS_ABORT_UNLESS(data_size >= data.content_owner_infos_offset + data.content_owner_infos_size);
AMS_ABORT_UNLESS(desc_size >= static_cast<s64>(sizeof(AccessControlDescriptor) + desc.content_owner_id_count * sizeof(u64)));
/* Read out the content data owner infos. */
uintptr_t data_start = reinterpret_cast<uintptr_t>(fac_data);
uintptr_t desc_start = reinterpret_cast<uintptr_t>(fac_desc);
if (data.content_owner_infos_size > 0) {
/* Get the count. */
const u32 num_content_owner_infos = util::LoadLittleEndian<u32>(reinterpret_cast<u32 *>(data_start + data.content_owner_infos_offset));
/* Validate the id range. */
uintptr_t id_start = data_start + data.content_owner_infos_offset + sizeof(u32);
uintptr_t id_end = id_start + sizeof(u64) * num_content_owner_infos;
AMS_ABORT_UNLESS(id_end == data_start + data.content_owner_infos_offset + data.content_owner_infos_size);
for (u32 i = 0; i < num_content_owner_infos; ++i) {
/* Read the id. */
const u64 id = util::LoadLittleEndian<u64>(reinterpret_cast<u64 *>(id_start + i * sizeof(u64)));
/* Check that the descriptor allows it. */
bool allowed = false;
if (desc.content_owner_id_count != 0) {
for (u8 n = 0; n < desc.content_owner_id_count; ++n) {
if (id == util::LoadLittleEndian<u64>(reinterpret_cast<u64 *>(desc_start + sizeof(AccessControlDescriptor) + n * sizeof(u64)))) {
allowed = true;
break;
}
}
} else if ((desc.content_owner_id_min == 0 && desc.content_owner_id_max == 0) || (desc.content_owner_id_min <= id && id <= desc.content_owner_id_max)) {
allowed = true;
}
/* If the id is allowed, create it. */
if (allowed) {
if (auto *info = new ContentOwnerInfo(id); info != nullptr) {
m_content_owner_infos.push_front(*info);
}
}
}
}
/* Read out the save data owner infos. */
AMS_ABORT_UNLESS(data_size >= data.save_data_owner_infos_offset + data.save_data_owner_infos_size);
AMS_ABORT_UNLESS(desc_size >= static_cast<s64>(sizeof(AccessControlDescriptor) + desc.content_owner_id_count * sizeof(u64) + desc.save_data_owner_id_count * sizeof(u64)));
if (data.save_data_owner_infos_size > 0) {
/* Get the count. */
const u32 num_save_data_owner_infos = util::LoadLittleEndian<u32>(reinterpret_cast<u32 *>(data_start + data.save_data_owner_infos_offset));
/* Get accessibility region.*/
uintptr_t accessibility_start = data_start + data.save_data_owner_infos_offset + sizeof(u32);
/* Validate the id range. */
uintptr_t id_start = accessibility_start + util::AlignUp(num_save_data_owner_infos * sizeof(Accessibility), alignof(u32));
uintptr_t id_end = id_start + sizeof(u64) * num_save_data_owner_infos;
AMS_ABORT_UNLESS(id_end == data_start + data.save_data_owner_infos_offset + data.save_data_owner_infos_size);
for (u32 i = 0; i < num_save_data_owner_infos; ++i) {
/* Read the accessibility/id. */
static_assert(sizeof(Accessibility) == 1);
const Accessibility accessibility = *reinterpret_cast<Accessibility *>(accessibility_start + i * sizeof(Accessibility));
const u64 id = util::LoadLittleEndian<u64>(reinterpret_cast<u64 *>(id_start + i * sizeof(u64)));
/* Check that the descriptor allows it. */
bool allowed = false;
if (desc.save_data_owner_id_count != 0) {
for (u8 n = 0; n < desc.save_data_owner_id_count; ++n) {
if (id == util::LoadLittleEndian<u64>(reinterpret_cast<u64 *>(desc_start + sizeof(AccessControlDescriptor) + desc.content_owner_id_count * sizeof(u64) + n * sizeof(u64)))) {
allowed = true;
break;
}
}
} else if ((desc.save_data_owner_id_min == 0 && desc.save_data_owner_id_max == 0) || (desc.save_data_owner_id_min <= id && id <= desc.save_data_owner_id_max)) {
allowed = true;
}
/* If the id is allowed, create it. */
if (allowed) {
if (auto *info = new SaveDataOwnerInfo(id, accessibility); info != nullptr) {
m_save_data_owner_infos.push_front(*info);
}
}
}
}
}
AccessControl::~AccessControl() {
/* Delete all content owner infos. */
while (!m_content_owner_infos.empty()) {
auto *info = std::addressof(*m_content_owner_infos.rbegin());
m_content_owner_infos.erase(m_content_owner_infos.iterator_to(*info));
delete info;
}
/* Delete all save data owner infos. */
while (!m_save_data_owner_infos.empty()) {
auto *info = std::addressof(*m_save_data_owner_infos.rbegin());
m_save_data_owner_infos.erase(m_save_data_owner_infos.iterator_to(*info));
delete info;
}
}
bool AccessControl::HasContentOwnerId(u64 owner_id) const {
/* Check if we have a matching id. */
for (const auto &info : m_content_owner_infos) {
if (info.GetId() == owner_id) {
return true;
}
}
return false;
}
Accessibility AccessControl::GetAccessibilitySaveDataOwnedBy(u64 owner_id) const {
/* Find a matching save data owner. */
for (const auto &info : m_save_data_owner_infos) {
if (info.GetId() == owner_id) {
return info.GetAccessibility();
}
}
/* Default to no accessibility. */
return Accessibility::MakeAccessibility(false, false);
}
void AccessControl::ListContentOwnerId(s32 *out_count, u64 *out_owner_ids, s32 offset, s32 count) const {
/* If we have nothing to read, just give the count. */
if (count == 0) {
*out_count = m_content_owner_infos.size();
return;
}
/* Read out the ids. */
s32 read_offset = 0;
s32 read_count = 0;
if (out_owner_ids != nullptr) {
auto *cur_out = out_owner_ids;
for (const auto &info : m_content_owner_infos) {
/* Skip until we get to the desired offset. */
if (read_offset < offset) {
++read_offset;
continue;
}
/* Set the output value. */
*cur_out = info.GetId();
++cur_out;
++read_count;
/* If we've read as many as we can, finish. */
if (read_count == count) {
break;
}
}
}
/* Set the out value. */
*out_count = read_count;
}
void AccessControl::ListSaveDataOwnedId(s32 *out_count, ncm::ApplicationId *out_owner_ids, s32 offset, s32 count) const {
/* If we have nothing to read, just give the count. */
if (count == 0) {
*out_count = m_save_data_owner_infos.size();
return;
}
/* Read out the ids. */
s32 read_offset = 0;
s32 read_count = 0;
if (out_owner_ids != nullptr) {
auto *cur_out = out_owner_ids;
for (const auto &info : m_save_data_owner_infos) {
/* Skip until we get to the desired offset. */
if (read_offset < offset) {
++read_offset;
continue;
}
/* Set the output value. */
cur_out->value = info.GetId();
++cur_out;
++read_count;
/* If we've read as many as we can, finish. */
if (read_count == count) {
break;
}
}
}
/* Set the out value. */
*out_count = read_count;
}
Accessibility AccessControl::GetAccessibilityFor(AccessibilityType type) const {
switch (type) {
using enum AccessibilityType;
case MountLogo: return Accessibility::MakeAccessibility(m_flag_bits->CanMountLogoRead(), false);
case MountContentMeta: return Accessibility::MakeAccessibility(m_flag_bits->CanMountContentMetaRead(), false);
case MountContentControl: return Accessibility::MakeAccessibility(m_flag_bits->CanMountContentControlRead(), false);
case MountContentManual: return Accessibility::MakeAccessibility(m_flag_bits->CanMountContentManualRead(), false);
case MountContentData: return Accessibility::MakeAccessibility(m_flag_bits->CanMountContentDataRead(), false);
case MountApplicationPackage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountApplicationPackageRead(), false);
case MountSaveDataStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountSaveDataStorageRead(), m_flag_bits->CanMountSaveDataStorageWrite());
case MountContentStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountContentStorageRead(), m_flag_bits->CanMountContentStorageWrite());
case MountImageAndVideoStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountImageAndVideoStorageRead(), m_flag_bits->CanMountImageAndVideoStorageWrite());
case MountCloudBackupWorkStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountCloudBackupWorkStorageRead(), m_flag_bits->CanMountCloudBackupWorkStorageWrite());
case MountCustomStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanMountCustomStorage0Read(), m_flag_bits->CanMountCustomStorage0Write());
case MountBisCalibrationFile: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisCalibrationFileRead(), m_flag_bits->CanMountBisCalibrationFileWrite());
case MountBisSafeMode: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisSafeModeRead(), m_flag_bits->CanMountBisSafeModeWrite());
case MountBisUser: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisUserRead(), m_flag_bits->CanMountBisUserWrite());
case MountBisSystem: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisSystemRead(), m_flag_bits->CanMountBisSystemWrite());
case MountBisSystemProperEncryption: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisSystemProperEncryptionRead(), m_flag_bits->CanMountBisSystemProperEncryptionWrite());
case MountBisSystemProperPartition: return Accessibility::MakeAccessibility(m_flag_bits->CanMountBisSystemProperPartitionRead(), m_flag_bits->CanMountBisSystemProperPartitionWrite());
case MountSdCard: return Accessibility::MakeAccessibility(m_flag_bits->CanMountSdCardRead(), m_flag_bits->CanMountSdCardWrite());
case MountGameCard: return Accessibility::MakeAccessibility(m_flag_bits->CanMountGameCardRead(), false);
case MountDeviceSaveData: return Accessibility::MakeAccessibility(m_flag_bits->CanMountDeviceSaveDataRead(), m_flag_bits->CanMountDeviceSaveDataWrite());
case MountSystemSaveData: return Accessibility::MakeAccessibility(m_flag_bits->CanMountSystemSaveDataRead(), m_flag_bits->CanMountSystemSaveDataWrite());
case MountOthersSaveData: return Accessibility::MakeAccessibility(m_flag_bits->CanMountOthersSaveDataRead(), m_flag_bits->CanMountOthersSaveDataWrite());
case MountOthersSystemSaveData: return Accessibility::MakeAccessibility(m_flag_bits->CanMountOthersSystemSaveDataRead(), m_flag_bits->CanMountOthersSystemSaveDataWrite());
case OpenBisPartitionBootPartition1Root: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootPartition1RootRead(), m_flag_bits->CanOpenBisPartitionBootPartition1RootWrite());
case OpenBisPartitionBootPartition2Root: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootPartition2RootRead(), m_flag_bits->CanOpenBisPartitionBootPartition2RootWrite());
case OpenBisPartitionUserDataRoot: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionUserDataRootRead(), m_flag_bits->CanOpenBisPartitionUserDataRootWrite());
case OpenBisPartitionBootConfigAndPackage2Part1: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part1Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part1Write());
case OpenBisPartitionBootConfigAndPackage2Part2: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part2Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part2Write());
case OpenBisPartitionBootConfigAndPackage2Part3: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part3Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part3Write());
case OpenBisPartitionBootConfigAndPackage2Part4: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part4Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part4Write());
case OpenBisPartitionBootConfigAndPackage2Part5: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part5Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part5Write());
case OpenBisPartitionBootConfigAndPackage2Part6: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part6Read(), m_flag_bits->CanOpenBisPartitionBootConfigAndPackage2Part6Write());
case OpenBisPartitionCalibrationBinary: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionCalibrationBinaryRead(), m_flag_bits->CanOpenBisPartitionCalibrationBinaryWrite());
case OpenBisPartitionCalibrationFile: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionCalibrationFileRead(), m_flag_bits->CanOpenBisPartitionCalibrationFileWrite());
case OpenBisPartitionSafeMode: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionSafeModeRead(), m_flag_bits->CanOpenBisPartitionSafeModeWrite());
case OpenBisPartitionUser: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionUserRead(), m_flag_bits->CanOpenBisPartitionUserWrite());
case OpenBisPartitionSystem: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionSystemRead(), m_flag_bits->CanOpenBisPartitionSystemWrite());
case OpenBisPartitionSystemProperEncryption: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionSystemProperEncryptionRead(), m_flag_bits->CanOpenBisPartitionSystemProperEncryptionWrite());
case OpenBisPartitionSystemProperPartition: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenBisPartitionSystemProperPartitionRead(), m_flag_bits->CanOpenBisPartitionSystemProperPartitionWrite());
case OpenSdCardStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenSdCardStorageRead(), m_flag_bits->CanOpenSdCardStorageWrite());
case OpenGameCardStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenGameCardStorageRead(), m_flag_bits->CanOpenGameCardStorageWrite());
case MountSystemDataPrivate: return Accessibility::MakeAccessibility(m_flag_bits->CanMountSystemDataPrivateRead(), false);
case MountHost: return Accessibility::MakeAccessibility(m_flag_bits->CanMountHostRead(), m_flag_bits->CanMountHostWrite());
case MountRegisteredUpdatePartition: return Accessibility::MakeAccessibility(m_flag_bits->CanMountRegisteredUpdatePartitionRead() && g_is_debug_flag_enabled, false);
case MountSaveDataInternalStorage: return Accessibility::MakeAccessibility(m_flag_bits->CanOpenSaveDataInternalStorageRead(), m_flag_bits->CanOpenSaveDataInternalStorageWrite());
case MountTemporaryDirectory: return Accessibility::MakeAccessibility(m_flag_bits->CanMountTemporaryDirectoryRead(), m_flag_bits->CanMountTemporaryDirectoryWrite());
case MountAllBaseFileSystem: return Accessibility::MakeAccessibility(m_flag_bits->CanMountAllBaseFileSystemRead(), m_flag_bits->CanMountAllBaseFileSystemWrite());
case NotMount: return Accessibility::MakeAccessibility(false, false);
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
bool AccessControl::CanCall(OperationType type) const {
switch (type) {
using enum OperationType;
case InvalidateBisCache: return m_flag_bits->CanInvalidateBisCache();
case EraseMmc: return m_flag_bits->CanEraseMmc();
case GetGameCardDeviceCertificate: return m_flag_bits->CanGetGameCardDeviceCertificate();
case GetGameCardIdSet: return m_flag_bits->CanGetGameCardIdSet();
case FinalizeGameCardDriver: return m_flag_bits->CanFinalizeGameCardDriver();
case GetGameCardAsicInfo: return m_flag_bits->CanGetGameCardAsicInfo();
case CreateSaveData: return m_flag_bits->CanCreateSaveData();
case DeleteSaveData: return m_flag_bits->CanDeleteSaveData();
case CreateSystemSaveData: return m_flag_bits->CanCreateSystemSaveData();
case CreateOthersSystemSaveData: return m_flag_bits->CanCreateOthersSystemSaveData();
case DeleteSystemSaveData: return m_flag_bits->CanDeleteSystemSaveData();
case OpenSaveDataInfoReader: return m_flag_bits->CanOpenSaveDataInfoReader();
case OpenSaveDataInfoReaderForSystem: return m_flag_bits->CanOpenSaveDataInfoReaderForSystem();
case OpenSaveDataInfoReaderForInternal: return m_flag_bits->CanOpenSaveDataInfoReaderForInternal();
case OpenSaveDataMetaFile: return m_flag_bits->CanOpenSaveDataMetaFile();
case SetCurrentPosixTime: return m_flag_bits->CanSetCurrentPosixTime();
case ReadSaveDataFileSystemExtraData: return m_flag_bits->CanReadSaveDataFileSystemExtraData();
case SetGlobalAccessLogMode: return m_flag_bits->CanSetGlobalAccessLogMode();
case SetSpeedEmulationMode: return m_flag_bits->CanSetSpeedEmulationMode();
case FillBis: return m_flag_bits->CanFillBis();
case CorruptSaveData: return m_flag_bits->CanCorruptSaveData();
case CorruptSystemSaveData: return m_flag_bits->CanCorruptSystemSaveData();
case VerifySaveData: return m_flag_bits->CanVerifySaveData();
case DebugSaveData: return m_flag_bits->CanDebugSaveData();
case FormatSdCard: return m_flag_bits->CanFormatSdCard();
case GetRightsId: return m_flag_bits->CanGetRightsId();
case RegisterExternalKey: return m_flag_bits->CanRegisterExternalKey();
case SetEncryptionSeed: return m_flag_bits->CanSetEncryptionSeed();
case WriteSaveDataFileSystemExtraDataTimeStamp: return m_flag_bits->CanWriteSaveDataFileSystemExtraDataTimeStamp();
case WriteSaveDataFileSystemExtraDataFlags: return m_flag_bits->CanWriteSaveDataFileSystemExtraDataFlags();
case WriteSaveDataFileSystemExtraDataCommitId: return m_flag_bits->CanWriteSaveDataFileSystemExtraDataCommitId();
case WriteSaveDataFileSystemExtraDataAll: return m_flag_bits->CanWriteSaveDataFileSystemExtraDataAll();
case ExtendSaveData: return m_flag_bits->CanExtendSaveData();
case ExtendSystemSaveData: return m_flag_bits->CanExtendSystemSaveData();
case ExtendOthersSystemSaveData: return m_flag_bits->CanExtendOthersSystemSaveData();
case RegisterUpdatePartition: return m_flag_bits->CanRegisterUpdatePartition() && g_is_debug_flag_enabled;
case OpenSaveDataTransferManager: return m_flag_bits->CanOpenSaveDataTransferManager();
case OpenSaveDataTransferManagerVersion2: return m_flag_bits->CanOpenSaveDataTransferManagerVersion2();
case OpenSaveDataTransferManagerForSaveDataRepair: return m_flag_bits->CanOpenSaveDataTransferManagerForSaveDataRepair();
case OpenSaveDataTransferManagerForSaveDataRepairTool: return m_flag_bits->CanOpenSaveDataTransferManagerForSaveDataRepairTool();
case OpenSaveDataTransferProhibiter: return m_flag_bits->CanOpenSaveDataTransferProhibiter();
case OpenSaveDataMover: return m_flag_bits->CanOpenSaveDataMover();
case OpenBisWiper: return m_flag_bits->CanOpenBisWiper();
case ListAccessibleSaveDataOwnerId: return m_flag_bits->CanListAccessibleSaveDataOwnerId();
case ControlMmcPatrol: return m_flag_bits->CanControlMmcPatrol();
case OverrideSaveDataTransferTokenSignVerificationKey: return m_flag_bits->CanOverrideSaveDataTransferTokenSignVerificationKey();
case OpenSdCardDetectionEventNotifier: return m_flag_bits->CanOpenSdCardDetectionEventNotifier();
case OpenGameCardDetectionEventNotifier: return m_flag_bits->CanOpenGameCardDetectionEventNotifier();
case OpenSystemDataUpdateEventNotifier: return m_flag_bits->CanOpenSystemDataUpdateEventNotifier();
case NotifySystemDataUpdateEvent: return m_flag_bits->CanNotifySystemDataUpdateEvent();
case OpenAccessFailureDetectionEventNotifier: return m_flag_bits->CanOpenAccessFailureDetectionEventNotifier();
case GetAccessFailureDetectionEvent: return m_flag_bits->CanGetAccessFailureDetectionEvent();
case IsAccessFailureDetected: return m_flag_bits->CanIsAccessFailureDetected();
case ResolveAccessFailure: return m_flag_bits->CanResolveAccessFailure();
case AbandonAccessFailure: return m_flag_bits->CanAbandonAccessFailure();
case QuerySaveDataInternalStorageTotalSize: return m_flag_bits->CanQuerySaveDataInternalStorageTotalSize();
case GetSaveDataCommitId: return m_flag_bits->CanGetSaveDataCommitId();
case SetSdCardAccessibility: return m_flag_bits->CanSetSdCardAccessibility();
case SimulateDevice: return m_flag_bits->CanSimulateDevice();
case CreateSaveDataWithHashSalt: return m_flag_bits->CanCreateSaveDataWithHashSalt();
case RegisterProgramIndexMapInfo: return m_flag_bits->CanRegisterProgramIndexMapInfo();
case ChallengeCardExistence: return m_flag_bits->CanChallengeCardExistence();
case CreateOwnSaveData: return m_flag_bits->CanCreateOwnSaveData();
case DeleteOwnSaveData: return m_flag_bits->CanDeleteOwnSaveData();
case ReadOwnSaveDataFileSystemExtraData: return m_flag_bits->CanReadOwnSaveDataFileSystemExtraData();
case ExtendOwnSaveData: return m_flag_bits->CanExtendOwnSaveData();
case OpenOwnSaveDataTransferProhibiter: return m_flag_bits->CanOpenOwnSaveDataTransferProhibiter();
case FindOwnSaveDataWithFilter: return m_flag_bits->CanFindOwnSaveDataWithFilter();
case OpenSaveDataTransferManagerForRepair: return m_flag_bits->CanOpenSaveDataTransferManagerForRepair();
case SetDebugConfiguration: return m_flag_bits->CanSetDebugConfiguration();
case OpenDataStorageByPath: return m_flag_bits->CanOpenDataStorageByPath();
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
}
}