/* * 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 #include "../amsmitm_fs_utils.hpp" #include "../amsmitm_initialization.hpp" #include "fs_shim.h" #include "fs_mitm_service.hpp" #include "fsmitm_boot0storage.hpp" #include "fsmitm_calibration_binary_storage.hpp" #include "fsmitm_layered_romfs_storage.hpp" #include "fsmitm_save_utils.hpp" #include "fsmitm_readonly_layered_filesystem.hpp" namespace ams::mitm::fs { using namespace ams::fs; namespace { constexpr const ams::fs::Path AtmosphereHblWebContentDirPath = fs::MakeConstantPath("/atmosphere/hbl_html/"); constexpr const char ProgramWebContentDir[] = "/manual_html/"; constinit os::SdkMutex g_boot0_detect_lock; constinit bool g_detected_boot0_kind = false; constinit bool g_is_boot0_custom_public_key = false; constinit fssrv::impl::ProgramIndexMapInfoManager g_program_index_map_info_manager; bool IsBoot0CustomPublicKey(::FsStorage &storage) { if (AMS_UNLIKELY(!g_detected_boot0_kind)) { std::scoped_lock lk(g_boot0_detect_lock); if (AMS_LIKELY(!g_detected_boot0_kind)) { g_is_boot0_custom_public_key = DetectBoot0CustomPublicKey(storage); g_detected_boot0_kind = true; } } return g_is_boot0_custom_public_key; } bool GetSettingsItemBooleanValue(const char *name, const char *key) { u8 tmp = 0; AMS_ABORT_UNLESS(settings::fwdbg::GetSettingsItemValue(std::addressof(tmp), sizeof(tmp), name, key) == sizeof(tmp)); return (tmp != 0); } template constexpr ALWAYS_INLINE auto MakeSharedFileSystem(Arguments &&... args) { return sf::CreateSharedObjectEmplaced(std::forward(args)...); } template constexpr ALWAYS_INLINE auto MakeSharedStorage(Arguments &&... args) { return sf::CreateSharedObjectEmplaced(std::forward(args)...); } Result OpenHblWebContentFileSystem(sf::Out> &out, ncm::ProgramId program_id) { /* Verify eligibility. */ bool is_hbl; R_UNLESS(R_SUCCEEDED(pm::info::IsHblProgramId(std::addressof(is_hbl), program_id)), sm::mitm::ResultShouldForwardToSession()); R_UNLESS(is_hbl, sm::mitm::ResultShouldForwardToSession()); /* Hbl html directory must exist. */ { FsDir d; R_UNLESS(R_SUCCEEDED(mitm::fs::OpenSdDirectory(std::addressof(d), AtmosphereHblWebContentDirPath.GetString(), fs::OpenDirectoryMode_Directory)), sm::mitm::ResultShouldForwardToSession()); fsDirClose(std::addressof(d)); } /* Open the SD card using fs.mitm's session. */ FsFileSystem sd_fs; R_TRY(fsOpenSdCardFileSystem(std::addressof(sd_fs))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(sd_fs.s))}; std::unique_ptr sd_ifs = std::make_unique(sd_fs); auto subdir_fs = std::make_unique(std::move(sd_ifs)); R_TRY(subdir_fs->Initialize(AtmosphereHblWebContentDirPath)); out.SetValue(MakeSharedFileSystem(std::make_shared(std::move(subdir_fs)), false), target_object_id); R_SUCCEED(); } Result OpenProgramSpecificWebContentFileSystem(sf::Out> &out, ncm::ProgramId program_id, FsFileSystemType filesystem_type, Service *fwd, const fssrv::sf::Path *path, bool with_id) { /* Directory must exist. */ { FsDir d; R_UNLESS(R_SUCCEEDED(mitm::fs::OpenAtmosphereSdDirectory(std::addressof(d), program_id, ProgramWebContentDir, fs::OpenDirectoryMode_Directory)), sm::mitm::ResultShouldForwardToSession()); fsDirClose(std::addressof(d)); } /* Open the SD card using fs.mitm's session. */ FsFileSystem sd_fs; R_TRY(fsOpenSdCardFileSystem(std::addressof(sd_fs))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(sd_fs.s))}; std::unique_ptr sd_ifs = std::make_unique(sd_fs); /* Format the subdirectory path. */ char program_web_content_raw_path[0x100]; FormatAtmosphereSdPath(program_web_content_raw_path, sizeof(program_web_content_raw_path), program_id, ProgramWebContentDir); ams::fs::Path program_web_content_path; R_TRY(program_web_content_path.SetShallowBuffer(program_web_content_raw_path)); /* Make a new filesystem. */ { auto subdir_fs = std::make_unique(std::move(sd_ifs)); R_TRY(subdir_fs->Initialize(program_web_content_path)); std::shared_ptr new_fs = nullptr; /* Try to open the existing fs. */ FsFileSystem base_fs; bool opened_base_fs = false; if (with_id) { opened_base_fs = R_SUCCEEDED(fsOpenFileSystemWithIdFwd(fwd, std::addressof(base_fs), static_cast(program_id), filesystem_type, path->str)); } else { opened_base_fs = R_SUCCEEDED(fsOpenFileSystemWithPatchFwd(fwd, std::addressof(base_fs), static_cast(program_id), filesystem_type)); } if (opened_base_fs) { /* Create a layered adapter. */ new_fs = std::make_shared(std::move(subdir_fs), std::make_unique(base_fs)); } else { /* Without an existing FS, just make a read only adapter to the subdirectory. */ new_fs = std::make_shared(std::move(subdir_fs)); } out.SetValue(MakeSharedFileSystem(std::move(new_fs), false), target_object_id); } R_SUCCEED(); } Result OpenWebContentFileSystem(sf::Out> &out, ncm::ProgramId client_program_id, ncm::ProgramId program_id, FsFileSystemType filesystem_type, Service *fwd, const fssrv::sf::Path *path, bool with_id, bool try_program_specific) { /* Check first that we're a web applet opening web content. */ R_UNLESS(ncm::IsWebAppletId(client_program_id), sm::mitm::ResultShouldForwardToSession()); R_UNLESS(filesystem_type == FsFileSystemType_ContentManual, sm::mitm::ResultShouldForwardToSession()); /* Try to mount the HBL web filesystem. If this succeeds then we're done. */ R_SUCCEED_IF(R_SUCCEEDED(OpenHblWebContentFileSystem(out, program_id))); /* If program specific override shouldn't be attempted, fall back. */ R_UNLESS(try_program_specific, sm::mitm::ResultShouldForwardToSession()); /* If we're not opening a HBL filesystem, just try to open a generic one. */ return OpenProgramSpecificWebContentFileSystem(out, program_id, filesystem_type, fwd, path, with_id); } } Result FsMitmService::OpenFileSystemWithPatch(sf::Out> out, ncm::ProgramId program_id, u32 _filesystem_type) { return OpenWebContentFileSystem(out, m_client_info.program_id, program_id, static_cast(_filesystem_type), m_forward_service.get(), nullptr, false, m_client_info.override_status.IsProgramSpecific()); } Result FsMitmService::OpenFileSystemWithId(sf::Out> out, const fssrv::sf::Path &path, ncm::ProgramId program_id, u32 _filesystem_type) { return OpenWebContentFileSystem(out, m_client_info.program_id, program_id, static_cast(_filesystem_type), m_forward_service.get(), std::addressof(path), true, m_client_info.override_status.IsProgramSpecific()); } Result FsMitmService::OpenSdCardFileSystem(sf::Out> out) { /* We only care about redirecting this for NS/emummc. */ R_UNLESS(m_client_info.program_id == ncm::SystemProgramId::Ns, sm::mitm::ResultShouldForwardToSession()); R_UNLESS(emummc::IsActive(), sm::mitm::ResultShouldForwardToSession()); /* Create a new SD card filesystem. */ FsFileSystem sd_fs; R_TRY(fsOpenSdCardFileSystemFwd(m_forward_service.get(), std::addressof(sd_fs))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(sd_fs.s))}; /* Return output filesystem. */ auto redir_fs = std::make_shared(std::make_unique(sd_fs)); R_TRY(redir_fs->InitializeWithFixedPath("/Nintendo", emummc::GetNintendoDirPath())); out.SetValue(MakeSharedFileSystem(std::move(redir_fs), false), target_object_id); R_SUCCEED(); } Result FsMitmService::OpenSaveDataFileSystem(sf::Out> out, u8 _space_id, const fs::SaveDataAttribute &attribute) { /* We only want to intercept saves for games, right now. */ const bool is_game_or_hbl = m_client_info.override_status.IsHbl() || ncm::IsApplicationId(m_client_info.program_id); R_UNLESS(is_game_or_hbl, sm::mitm::ResultShouldForwardToSession()); /* Only redirect if the appropriate system setting is set. */ R_UNLESS(GetSettingsItemBooleanValue("atmosphere", "fsmitm_redirect_saves_to_sd"), sm::mitm::ResultShouldForwardToSession()); /* Only redirect if the specific title being accessed has a redirect save flag. */ R_UNLESS(cfg::HasContentSpecificFlag(m_client_info.program_id, "redirect_save"), sm::mitm::ResultShouldForwardToSession()); /* Only redirect account savedata. */ R_UNLESS(attribute.type == fs::SaveDataType::Account, sm::mitm::ResultShouldForwardToSession()); /* Get enum type for space id. */ auto space_id = static_cast(_space_id); /* Verify we can open the save. */ static_assert(sizeof(fs::SaveDataAttribute) == sizeof(::FsSaveDataAttribute)); FsFileSystem save_fs; R_UNLESS(R_SUCCEEDED(fsOpenSaveDataFileSystemFwd(m_forward_service.get(), std::addressof(save_fs), space_id, reinterpret_cast(std::addressof(attribute)))), sm::mitm::ResultShouldForwardToSession()); std::unique_ptr save_ifs = std::make_unique(save_fs); /* Mount the SD card using fs.mitm's session. */ FsFileSystem sd_fs; R_TRY(fsOpenSdCardFileSystem(std::addressof(sd_fs))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(sd_fs.s))}; std::shared_ptr sd_ifs = std::make_shared(sd_fs); /* Verify that we can open the save directory, and that it exists. */ const ncm::ProgramId application_id = attribute.program_id == ncm::InvalidProgramId ? m_client_info.program_id : attribute.program_id; char save_dir_raw_path[0x100]; R_TRY(mitm::fs::SaveUtil::GetDirectorySaveDataPath(save_dir_raw_path, sizeof(save_dir_raw_path), application_id, space_id, attribute)); ams::fs::Path save_dir_path; R_TRY(save_dir_path.SetShallowBuffer(save_dir_raw_path)); /* Check if this is the first time we're making the save. */ bool is_new_save = false; { fs::DirectoryEntryType ent; R_TRY_CATCH(sd_ifs->GetEntryType(std::addressof(ent), save_dir_path)) { R_CATCH(fs::ResultPathNotFound) { is_new_save = true; } R_CATCH_ALL() { /* ... */ } } R_END_TRY_CATCH; } /* Ensure the directory exists. */ R_TRY(fssystem::EnsureDirectory(sd_ifs.get(), save_dir_path)); /* Create directory savedata filesystem. */ auto subdir_fs = std::make_unique(sd_ifs); R_TRY(subdir_fs->Initialize(save_dir_path)); std::shared_ptr dirsave_ifs = std::make_shared(std::move(subdir_fs)); /* Ensure correct directory savedata filesystem state. */ R_TRY(dirsave_ifs->Initialize(true, true, true)); /* If it's the first time we're making the save, copy existing savedata over. */ if (is_new_save) { /* TODO: Check error? */ fs::DirectoryEntry work_entry; constexpr const fs::Path root_path = fs::MakeConstantPath("/"); u8 savedata_copy_buffer[2_KB]; fssystem::CopyDirectoryRecursively(dirsave_ifs.get(), save_ifs.get(), root_path, root_path, std::addressof(work_entry), savedata_copy_buffer, sizeof(savedata_copy_buffer)); } /* Set output. */ out.SetValue(MakeSharedFileSystem(std::move(dirsave_ifs), false), target_object_id); R_SUCCEED(); } Result FsMitmService::OpenBisStorage(sf::Out> out, u32 _bis_partition_id) { const ::FsBisPartitionId bis_partition_id = static_cast<::FsBisPartitionId>(_bis_partition_id); /* Try to open a storage for the partition. */ FsStorage bis_storage; R_TRY(fsOpenBisStorageFwd(m_forward_service.get(), std::addressof(bis_storage), bis_partition_id)); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(bis_storage.s))}; const bool is_sysmodule = ncm::IsSystemProgramId(m_client_info.program_id); const bool is_hbl = m_client_info.override_status.IsHbl(); const bool can_write_bis = is_sysmodule || (is_hbl && GetSettingsItemBooleanValue("atmosphere", "enable_hbl_bis_write")); /* Allow HBL to write to boot1 (safe firm) + package2. */ /* This is needed to not break compatibility with ChoiDujourNX, which does not check for write access before beginning an update. */ /* TODO: get fixed so that this can be turned off without causing bricks :/ */ const bool is_package2 = (FsBisPartitionId_BootConfigAndPackage2Part1 <= bis_partition_id && bis_partition_id <= FsBisPartitionId_BootConfigAndPackage2Part6); const bool is_boot1 = bis_partition_id == FsBisPartitionId_BootPartition2Root; const bool can_write_bis_for_choi_support = is_hbl && (is_package2 || is_boot1); /* Set output storage. */ if (bis_partition_id == FsBisPartitionId_BootPartition1Root) { if (IsBoot0CustomPublicKey(bis_storage)) { out.SetValue(MakeSharedStorage(std::make_shared(bis_storage, m_client_info, spl::GetSocType())), target_object_id); } else { out.SetValue(MakeSharedStorage(std::make_shared(bis_storage, m_client_info)), target_object_id); } } else if (bis_partition_id == FsBisPartitionId_CalibrationBinary) { out.SetValue(MakeSharedStorage(std::make_shared(bis_storage, m_client_info)), target_object_id); } else { if (can_write_bis || can_write_bis_for_choi_support) { /* We can write, so create a writable storage. */ out.SetValue(MakeSharedStorage(std::make_shared(bis_storage)), target_object_id); } else { /* We can only read, so create a readable storage. */ std::unique_ptr unique_bis = std::make_unique(bis_storage); out.SetValue(MakeSharedStorage(std::make_shared(std::move(unique_bis))), target_object_id); } } R_SUCCEED(); } Result FsMitmService::OpenDataStorageByCurrentProcess(sf::Out> out) { /* Only mitm if we should override contents for the current process. */ R_UNLESS(m_client_info.override_status.IsProgramSpecific(), sm::mitm::ResultShouldForwardToSession()); /* Only mitm if there is actually an override romfs. */ R_UNLESS(mitm::fs::HasSdRomfsContent(m_client_info.program_id), sm::mitm::ResultShouldForwardToSession()); /* Try to open the process romfs. */ FsStorage data_storage; R_TRY(fsOpenDataStorageByCurrentProcessFwd(m_forward_service.get(), std::addressof(data_storage))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(data_storage.s))}; /* Get a layered storage for the process romfs. */ out.SetValue(MakeSharedStorage(GetLayeredRomfsStorage(m_client_info.program_id, data_storage, true)), target_object_id); R_SUCCEED(); } Result FsMitmService::OpenDataStorageByDataId(sf::Out> out, ncm::DataId _data_id, u8 storage_id) { /* Only mitm if we should override contents for the current process. */ R_UNLESS(m_client_info.override_status.IsProgramSpecific(), sm::mitm::ResultShouldForwardToSession()); /* TODO: Decide how to handle DataId vs ProgramId for this API. */ const ncm::ProgramId data_id = {_data_id.value}; /* Only mitm if there is actually an override romfs. */ R_UNLESS(mitm::fs::HasSdRomfsContent(data_id), sm::mitm::ResultShouldForwardToSession()); /* Try to open the data id. */ FsStorage data_storage; R_TRY(fsOpenDataStorageByDataIdFwd(m_forward_service.get(), std::addressof(data_storage), static_cast(data_id), static_cast(storage_id))); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(data_storage.s))}; /* Get a layered storage for the data id. */ out.SetValue(MakeSharedStorage(GetLayeredRomfsStorage(data_id, data_storage, false)), target_object_id); R_SUCCEED(); } Result FsMitmService::OpenDataStorageWithProgramIndex(sf::Out> out, u8 program_index) { /* Only mitm if we should override contents for the current process. */ R_UNLESS(m_client_info.override_status.IsProgramSpecific(), sm::mitm::ResultShouldForwardToSession()); /* Get the relevant program id. */ const ncm::ProgramId program_id = g_program_index_map_info_manager.GetProgramId(m_client_info.program_id, program_index); /* If we don't know about the program or don't have content, forward. */ R_UNLESS(program_id != ncm::InvalidProgramId, sm::mitm::ResultShouldForwardToSession()); R_UNLESS(mitm::fs::HasSdRomfsContent(program_id), sm::mitm::ResultShouldForwardToSession()); /* Try to open the process romfs. */ FsStorage data_storage; R_TRY(fsOpenDataStorageWithProgramIndexFwd(m_forward_service.get(), std::addressof(data_storage), program_index)); const sf::cmif::DomainObjectId target_object_id{serviceGetObjectId(std::addressof(data_storage.s))}; /* Get a layered storage for the process romfs. */ out.SetValue(MakeSharedStorage(GetLayeredRomfsStorage(program_id, data_storage, true)), target_object_id); R_SUCCEED(); } Result FsMitmService::RegisterProgramIndexMapInfo(const sf::InBuffer &info_buffer, s32 info_count) { /* Try to register with FS. */ R_TRY(fsRegisterProgramIndexMapInfoFwd(m_forward_service.get(), info_buffer.GetPointer(), info_buffer.GetSize(), info_count)); /* Register with ourselves. */ R_ABORT_UNLESS(g_program_index_map_info_manager.Reset(reinterpret_cast(info_buffer.GetPointer()), info_count)); R_SUCCEED(); } }