// Copyright 2017 Citra Emulator Project // Licensed under GPLv2 or any later version // Refer to the license.txt file included. #pragma once #include #include #include #include #include "common/bit_field.h" #include "common/common_types.h" #include "common/file_util.h" #include "common/swap.h" #include "core/core.h" #include "core/file_sys/romfs_reader.h" //////////////////////////////////////////////////////////////////////////////////////////////////// /// NCCH header (Note: "NCCH" appears to be a publicly unknown acronym) struct NCCH_Header { u8 signature[0x100]; u32_le magic; u32_le content_size; u8 partition_id[8]; u16_le maker_code; u16_le version; u8 reserved_0[4]; u64_le program_id; u8 reserved_1[0x10]; u8 logo_region_hash[0x20]; u8 product_code[0x10]; u8 extended_header_hash[0x20]; u32_le extended_header_size; u8 reserved_2[4]; u8 reserved_flag[3]; u8 secondary_key_slot; u8 platform; enum class ContentType : u8 { Application = 0, SystemUpdate = 1, Manual = 2, Child = 3, Trial = 4, }; union { BitField<0, 1, u8> is_data; BitField<1, 1, u8> is_executable; BitField<2, 3, ContentType> content_type; }; u8 content_unit_size; union { BitField<0, 1, u8> fixed_key; BitField<1, 1, u8> no_romfs; BitField<2, 1, u8> no_crypto; BitField<5, 1, u8> seed_crypto; }; u32_le plain_region_offset; u32_le plain_region_size; u32_le logo_region_offset; u32_le logo_region_size; u32_le exefs_offset; u32_le exefs_size; u32_le exefs_hash_region_size; u8 reserved_3[4]; u32_le romfs_offset; u32_le romfs_size; u32_le romfs_hash_region_size; u8 reserved_4[4]; u8 exefs_super_block_hash[0x20]; u8 romfs_super_block_hash[0x20]; }; static_assert(sizeof(NCCH_Header) == 0x200, "NCCH header structure size is wrong"); //////////////////////////////////////////////////////////////////////////////////////////////////// // ExeFS (executable file system) headers struct ExeFs_SectionHeader { char name[8]; u32 offset; u32 size; }; struct ExeFs_Header { ExeFs_SectionHeader section[8]; u8 reserved[0x80]; u8 hashes[8][0x20]; }; //////////////////////////////////////////////////////////////////////////////////////////////////// // ExHeader (executable file system header) headers struct ExHeader_SystemInfoFlags { u8 reserved[5]; u8 flag; u8 remaster_version[2]; }; struct ExHeader_CodeSegmentInfo { u32 address; u32 num_max_pages; u32 code_size; }; struct ExHeader_CodeSetInfo { u8 name[8]; ExHeader_SystemInfoFlags flags; ExHeader_CodeSegmentInfo text; u32 stack_size; ExHeader_CodeSegmentInfo ro; u8 reserved[4]; ExHeader_CodeSegmentInfo data; u32 bss_size; }; struct ExHeader_DependencyList { u8 program_id[0x30][8]; }; struct ExHeader_SystemInfo { u64 save_data_size; u64_le jump_id; u8 reserved_2[0x30]; }; struct ExHeader_StorageInfo { union { u64_le ext_save_data_id; // When using extended savedata access // Prefer the ID specified in the most significant bits BitField<40, 20, u64> extdata_id3; BitField<20, 20, u64> extdata_id4; BitField<0, 20, u64> extdata_id5; }; u8 system_save_data_id[8]; union { u64_le storage_accessible_unique_ids; // When using extended savedata access // Prefer the ID specified in the most significant bits BitField<40, 20, u64> extdata_id0; BitField<20, 20, u64> extdata_id1; BitField<0, 20, u64> extdata_id2; }; u8 access_info[7]; u8 other_attributes; }; struct ExHeader_ARM11_SystemLocalCaps { u64_le program_id; u32_le core_version; u8 reserved_flags[2]; union { u8 flags0; BitField<0, 2, u8> ideal_processor; BitField<2, 2, u8> affinity_mask; BitField<4, 4, u8> system_mode; }; u8 priority; u8 resource_limit_descriptor[0x10][2]; ExHeader_StorageInfo storage_info; u8 service_access_control[0x20][8]; u8 ex_service_access_control[0x2][8]; u8 reserved[0xf]; u8 resource_limit_category; }; struct ExHeader_ARM11_KernelCaps { u32_le descriptors[28]; u8 reserved[0x10]; }; struct ExHeader_ARM9_AccessControl { u8 descriptors[15]; u8 descversion; }; struct ExHeader_Header { ExHeader_CodeSetInfo codeset_info; ExHeader_DependencyList dependency_list; ExHeader_SystemInfo system_info; ExHeader_ARM11_SystemLocalCaps arm11_system_local_caps; ExHeader_ARM11_KernelCaps arm11_kernel_caps; ExHeader_ARM9_AccessControl arm9_access_control; struct { u8 signature[0x100]; u8 ncch_public_key_modulus[0x100]; ExHeader_ARM11_SystemLocalCaps arm11_system_local_caps; ExHeader_ARM11_KernelCaps arm11_kernel_caps; ExHeader_ARM9_AccessControl arm9_access_control; } access_desc; }; static_assert(sizeof(ExHeader_Header) == 0x800, "ExHeader structure size is wrong"); //////////////////////////////////////////////////////////////////////////////////////////////////// // FileSys namespace namespace FileSys { /** * Helper which implements an interface to deal with NCCH containers which can * contain ExeFS archives or RomFS archives for games or other applications. */ class NCCHContainer { public: NCCHContainer(const std::string& filepath, u32 ncch_offset = 0); NCCHContainer() {} Loader::ResultStatus OpenFile(const std::string& filepath, u32 ncch_offset = 0); /** * Ensure ExeFS and exheader is loaded and ready for reading sections * @return ResultStatus result of function */ Loader::ResultStatus Load(); /** * Attempt to find overridden sections for the NCCH and mark the container as tainted * if any are found. * @return ResultStatus result of function */ Loader::ResultStatus LoadOverrides(); /** * Reads an application ExeFS section of an NCCH file (e.g. .code, .logo, etc.) * @param name Name of section to read out of NCCH file * @param buffer Vector to read data into * @return ResultStatus result of function */ Loader::ResultStatus LoadSectionExeFS(const char* name, std::vector& buffer); /** * Reads an application ExeFS section from external files instead of an NCCH file, * (e.g. code.bin, logo.bcma.lz, icon.icn, banner.bnr) * @param name Name of section to read from external files * @param buffer Vector to read data into * @return ResultStatus result of function */ Loader::ResultStatus LoadOverrideExeFSSection(const char* name, std::vector& buffer); /** * Get the RomFS of the NCCH container * Since the RomFS can be huge, we return a file reference instead of copying to a buffer * @param romfs_file The file containing the RomFS * @param offset The offset the romfs begins on * @param size The size of the romfs * @return ResultStatus result of function */ Loader::ResultStatus ReadRomFS(std::shared_ptr& romfs_file, bool use_layered_fs = true); /** * Dump the RomFS of the NCCH container to the user folder. * @param target_path target path to dump to * @return ResultStatus result of function. */ Loader::ResultStatus DumpRomFS(const std::string& target_path); /** * Get the override RomFS of the NCCH container * Since the RomFS can be huge, we return a file reference instead of copying to a buffer * @param romfs_file The file containing the RomFS * @param offset The offset the romfs begins on * @param size The size of the romfs * @return ResultStatus result of function */ Loader::ResultStatus ReadOverrideRomFS(std::shared_ptr& romfs_file); /** * Get the Program ID of the NCCH container * @return ResultStatus result of function */ Loader::ResultStatus ReadProgramId(u64_le& program_id); /** * Get the Extdata ID of the NCCH container * @return ResultStatus result of function */ Loader::ResultStatus ReadExtdataId(u64& extdata_id); /** * Apply a patch for .code (if it exists). * This should only be called after allocating .bss. * @return ResultStatus success if a patch was applied, ErrorNotUsed if no patch was found */ Loader::ResultStatus ApplyCodePatch(std::vector& code) const; /** * Checks whether the NCCH container contains an ExeFS * @return bool check result */ bool HasExeFS(); /** * Checks whether the NCCH container contains a RomFS * @return bool check result */ bool HasRomFS(); /** * Checks whether the NCCH container contains an ExHeader * @return bool check result */ bool HasExHeader(); NCCH_Header ncch_header; ExeFs_Header exefs_header; ExHeader_Header exheader_header; private: bool has_header = false; bool has_exheader = false; bool has_exefs = false; bool has_romfs = false; bool is_tainted = false; // Are there parts of this container being overridden? bool is_loaded = false; bool is_compressed = false; bool is_encrypted = false; // for decrypting exheader, exefs header and icon/banner section std::array primary_key{}; std::array secondary_key{}; // for decrypting romfs and .code section std::array exheader_ctr{}; std::array exefs_ctr{}; std::array romfs_ctr{}; u32 ncch_offset = 0; // Offset to NCCH header, can be 0 for NCCHs or non-zero for CIAs/NCSDs u32 exefs_offset = 0; std::string filepath; FileUtil::IOFile file; FileUtil::IOFile exefs_file; }; } // namespace FileSys