mirror of
https://github.com/DarkMatterCore/nxdumptool.git
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491 lines
21 KiB
C
491 lines
21 KiB
C
/*
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* nca.h
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*
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* Copyright (c) 2020, DarkMatterCore <pabloacurielz@gmail.com>.
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*
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* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
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*
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* nxdumptool is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* nxdumptool is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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#ifndef __NCA_H__
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#define __NCA_H__
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#include "tik.h"
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#define NCA_FS_HEADER_COUNT 4
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#define NCA_FULL_HEADER_LENGTH (sizeof(NcaHeader) + (sizeof(NcaFsHeader) * NCA_FS_HEADER_COUNT))
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#define NCA_NCA0_MAGIC 0x4E434130 /* "NCA0". */
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#define NCA_NCA2_MAGIC 0x4E434132 /* "NCA2". */
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#define NCA_NCA3_MAGIC 0x4E434133 /* "NCA3". */
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#define NCA_USED_KEY_AREA_SIZE sizeof(NcaDecryptedKeyArea) /* Four keys, 0x40 bytes. */
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#define NCA_HIERARCHICAL_SHA256_MAX_REGION_COUNT 5
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#define NCA_IVFC_MAGIC 0x49564643 /* "IVFC". */
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#define NCA_IVFC_MAX_LEVEL_COUNT 7
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#define NCA_IVFC_LEVEL_COUNT (NCA_IVFC_MAX_LEVEL_COUNT - 1)
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#define NCA_IVFC_BLOCK_SIZE(x) (1U << (x))
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#define NCA_BKTR_MAGIC 0x424B5452 /* "BKTR". */
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#define NCA_FS_SECTOR_SIZE 0x200
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#define NCA_FS_SECTOR_OFFSET(x) ((u64)(x) * NCA_FS_SECTOR_SIZE)
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#define NCA_AES_XTS_SECTOR_SIZE 0x200
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typedef enum {
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NcaDistributionType_Download = 0,
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NcaDistributionType_GameCard = 1
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} NcaDistributionType;
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typedef enum {
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NcaContentType_Program = 0,
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NcaContentType_Meta = 1,
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NcaContentType_Control = 2,
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NcaContentType_Manual = 3,
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NcaContentType_Data = 4,
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NcaContentType_PublicData = 5
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} NcaContentType;
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typedef enum {
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NcaKeyGenerationOld_100_230 = 0,
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NcaKeyGenerationOld_300 = 2
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} NcaKeyGenerationOld;
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typedef enum {
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NcaKeyAreaEncryptionKeyIndex_Application = 0,
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NcaKeyAreaEncryptionKeyIndex_Ocean = 1,
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NcaKeyAreaEncryptionKeyIndex_System = 2
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} NcaKeyAreaEncryptionKeyIndex;
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typedef struct {
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u32 NcaSdkAddOnVersion_Relstep : 8;
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u32 NcaSdkAddOnVersion_Micro : 8;
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u32 NcaSdkAddOnVersion_Minor : 8;
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u32 NcaSdkAddOnVersion_Major : 8;
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} NcaSdkAddOnVersion;
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/// 'NcaKeyGeneration_Current' will always point to the last known key generation value.
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typedef enum {
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NcaKeyGeneration_301_302 = 3,
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NcaKeyGeneration_400_410 = 4,
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NcaKeyGeneration_500_510 = 5,
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NcaKeyGeneration_600_610 = 6,
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NcaKeyGeneration_620 = 7,
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NcaKeyGeneration_700_801 = 8,
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NcaKeyGeneration_810_811 = 9,
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NcaKeyGeneration_900_901 = 10,
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NcaKeyGeneration_910_1004 = 11,
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NcaKeyGeneration_Current = NcaKeyGeneration_910_1004
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} NcaKeyGeneration;
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typedef struct {
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u32 start_sector; ///< Expressed in NCA_FS_SECTOR_SIZE sectors.
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u32 end_sector; ///< Expressed in NCA_FS_SECTOR_SIZE sectors.
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u32 hash_sector;
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u8 reserved[0x4];
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} NcaFsInfo;
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typedef struct {
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u8 hash[SHA256_HASH_SIZE];
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} NcaFsHeaderHash;
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/// Encrypted NCA key area used to hold NCA FS section encryption keys. Zeroed out if the NCA uses titlekey crypto.
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/// Only the first 4 key entries are encrypted.
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/// If a particular key entry is unused, it is zeroed out before this area is encrypted.
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typedef struct {
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u8 aes_xts_1[AES_128_KEY_SIZE]; ///< AES-128-XTS key 0 used for NCA FS sections with NcaEncryptionType_AesXts crypto.
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u8 aes_xts_2[AES_128_KEY_SIZE]; ///< AES-128-XTS key 1 used for NCA FS sections with NcaEncryptionType_AesXts crypto.
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u8 aes_ctr[AES_128_KEY_SIZE]; ///< AES-128-CTR key used for NCA FS sections with NcaEncryptionType_AesCtr crypto.
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u8 aes_ctr_ex[AES_128_KEY_SIZE]; ///< AES-128-CTR key used for NCA FS sections with NcaEncryptionType_AesCtrEx crypto.
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u8 aes_ctr_hw[AES_128_KEY_SIZE]; ///< Unused AES-128-CTR key.
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u8 reserved[0xB0];
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} NcaEncryptedKeyArea;
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/// First 0x400 bytes from every NCA.
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typedef struct {
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u8 main_signature[0x100]; ///< RSA-PSS signature over header with fixed key.
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u8 acid_signature[0x100]; ///< RSA-PSS signature over header with key in NPDM.
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u32 magic; ///< "NCA0" / "NCA2" / "NCA3".
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u8 distribution_type; ///< NcaDistributionType.
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u8 content_type; ///< NcaContentType.
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u8 key_generation_old; ///< NcaKeyGenerationOld.
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u8 kaek_index; ///< NcaKeyAreaEncryptionKeyIndex.
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u64 content_size;
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u64 program_id;
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u32 content_index;
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NcaSdkAddOnVersion sdk_addon_version;
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u8 key_generation; ///< NcaKeyGeneration.
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u8 main_signature_key_generation;
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u8 reserved_1[0xE];
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FsRightsId rights_id; ///< Used for titlekey crypto.
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NcaFsInfo fs_info[NCA_FS_HEADER_COUNT]; ///< Start and end sectors for each NCA FS section.
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NcaFsHeaderHash fs_header_hash[NCA_FS_HEADER_COUNT]; ///< SHA-256 hashes calculated over each NCA FS section header.
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NcaEncryptedKeyArea encrypted_key_area;
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} NcaHeader;
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typedef enum {
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NcaFsType_RomFs = 0,
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NcaFsType_PartitionFs = 1
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} NcaFsType;
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typedef enum {
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NcaHashType_Auto = 0,
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NcaHashType_None = 1,
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NcaHashType_HierarchicalSha256 = 2, ///< Used by NcaFsType_PartitionFs.
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NcaHashType_HierarchicalIntegrity = 3 ///< Used by NcaFsType_RomFs.
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} NcaHashType;
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typedef enum {
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NcaEncryptionType_Auto = 0,
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NcaEncryptionType_None = 1,
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NcaEncryptionType_AesXts = 2,
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NcaEncryptionType_AesCtr = 3,
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NcaEncryptionType_AesCtrEx = 4
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} NcaEncryptionType;
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typedef struct {
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u64 offset;
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u64 size;
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} NcaRegion;
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/// Used by NcaFsType_PartitionFs and NCA0 NcaFsType_RomFs.
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typedef struct {
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u8 master_hash[SHA256_HASH_SIZE];
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u32 hash_block_size;
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u32 hash_region_count;
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NcaRegion hash_region[NCA_HIERARCHICAL_SHA256_MAX_REGION_COUNT];
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} NcaHierarchicalSha256Data;
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typedef struct {
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u64 offset;
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u64 size;
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u32 block_order; ///< Use NCA_IVFC_BLOCK_SIZE to calculate the actual block size using this value.
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u8 reserved[0x4];
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} NcaHierarchicalIntegrityVerificationLevelInformation;
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typedef struct {
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u8 value[0x20];
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} NcaSignatureSalt;
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#pragma pack(push, 1)
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typedef struct {
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u32 max_level_count; ///< Always NCA_IVFC_MAX_LEVEL_COUNT.
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NcaHierarchicalIntegrityVerificationLevelInformation level_information[NCA_IVFC_LEVEL_COUNT];
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NcaSignatureSalt signature_salt;
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} NcaInfoLevelHash;
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#pragma pack(pop)
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/// Used by NcaFsType_RomFs.
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typedef struct {
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u32 magic; ///< "IVFC".
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u32 version;
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u32 master_hash_size; ///< Always SHA256_HASH_SIZE.
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NcaInfoLevelHash info_level_hash;
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u8 master_hash[SHA256_HASH_SIZE];
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} NcaIntegrityMetaInfo;
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typedef struct {
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union {
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struct {
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///< Used if hash_type == NcaHashType_HierarchicalSha256 (NcaFsType_PartitionFs and NCA0 NcaFsType_RomFs).
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NcaHierarchicalSha256Data hierarchical_sha256_data;
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u8 reserved_1[0x80];
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};
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struct {
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///< Used if hash_type == NcaHashType_HierarchicalIntegrity (NcaFsType_RomFs).
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NcaIntegrityMetaInfo integrity_meta_info;
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u8 reserved_2[0x18];
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};
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};
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} NcaHashData;
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typedef struct {
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u32 magic; ///< "BKTR".
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u32 version; ///< offset_count / node_count ?
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u32 entry_count;
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u8 reserved[0x4];
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} NcaBucketTreeHeader;
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typedef struct {
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u64 offset;
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u64 size;
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NcaBucketTreeHeader header;
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} NcaBucketInfo;
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/// Only used for NcaEncryptionType_AesCtrEx (PatchRomFs).
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typedef struct {
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NcaBucketInfo indirect_bucket;
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NcaBucketInfo aes_ctr_ex_bucket;
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} NcaPatchInfo;
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typedef struct {
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union {
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u8 value[0x8];
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struct {
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u32 generation;
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u32 secure_value;
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};
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};
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} NcaAesCtrUpperIv;
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/// Used in NCAs with sparse storage.
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typedef struct {
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NcaBucketInfo sparse_bucket;
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u64 physical_offset;
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u16 generation;
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u8 reserved[0x6];
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} NcaSparseInfo;
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/// Four NCA FS headers are placed right after the 0x400 byte long NCA header in NCA2 and NCA3.
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/// NCA0 place the FS headers at the start sector from the NcaFsInfo entries.
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typedef struct {
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u16 version;
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u8 fs_type; ///< NcaFsType.
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u8 hash_type; ///< NcaHashType.
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u8 encryption_type; ///< NcaEncryptionType.
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u8 reserved_1[0x3];
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NcaHashData hash_data;
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NcaPatchInfo patch_info;
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NcaAesCtrUpperIv aes_ctr_upper_iv;
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NcaSparseInfo sparse_info;
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u8 reserved_2[0x88];
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} NcaFsHeader;
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typedef enum {
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NcaFsSectionType_PartitionFs = 0, ///< NcaFsType_PartitionFs + NcaHashType_HierarchicalSha256.
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NcaFsSectionType_RomFs = 1, ///< NcaFsType_RomFs + NcaHashType_HierarchicalIntegrity.
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NcaFsSectionType_PatchRomFs = 2, ///< NcaFsType_RomFs + NcaHashType_HierarchicalIntegrity + NcaEncryptionType_AesCtrEx.
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NcaFsSectionType_Nca0RomFs = 3, ///< NcaFsType_RomFs + NcaHashType_HierarchicalSha256 + NcaVersion_Nca0.
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NcaFsSectionType_Invalid = 4
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} NcaFsSectionType;
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typedef struct {
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bool enabled;
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void *nca_ctx; ///< NcaContext. Used to perform NCA reads.
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NcaFsHeader header; ///< NCA FS section header.
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u8 section_num;
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u64 section_offset;
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u64 section_size;
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u8 section_type; ///< NcaFsSectionType.
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u8 encryption_type; ///< NcaEncryptionType.
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u8 ctr[AES_BLOCK_SIZE]; ///< Used to update the AES CTR context IV based on the desired offset.
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Aes128CtrContext ctr_ctx;
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Aes128XtsContext xts_decrypt_ctx;
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Aes128XtsContext xts_encrypt_ctx;
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} NcaFsSectionContext;
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typedef enum {
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NcaVersion_Nca0 = 0,
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NcaVersion_Nca2 = 2,
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NcaVersion_Nca3 = 3
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} NcaVersion;
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typedef struct {
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u8 aes_xts_1[AES_128_KEY_SIZE]; ///< AES-128-XTS key 0 used for NCA FS sections with NcaEncryptionType_AesXts crypto.
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u8 aes_xts_2[AES_128_KEY_SIZE]; ///< AES-128-XTS key 1 used for NCA FS sections with NcaEncryptionType_AesXts crypto.
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u8 aes_ctr[AES_128_KEY_SIZE]; ///< AES-128-CTR key used for NCA FS sections with NcaEncryptionType_AesCtr crypto.
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u8 aes_ctr_ex[AES_128_KEY_SIZE]; ///< AES-128-CTR key used for NCA FS sections with NcaEncryptionType_AesCtrEx crypto.
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} NcaDecryptedKeyArea;
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typedef struct {
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u8 storage_id; ///< NcmStorageId.
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NcmContentStorage *ncm_storage; ///< Pointer to a NcmContentStorage instance. Used to read NCA data from eMMC/SD.
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u64 gamecard_offset; ///< Used to read NCA data from a gamecard using a FsStorage instance when storage_id == NcmStorageId_GameCard.
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NcmContentId content_id; ///< Also used to read NCA data.
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char content_id_str[0x21];
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u8 hash[SHA256_HASH_SIZE]; ///< Manually calculated (if needed).
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char hash_str[0x41];
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u8 format_version; ///< NcaVersion.
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u8 content_type; ///< NcmContentType. Retrieved from NcmContentInfo.
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u64 content_size; ///< Retrieved from NcmContentInfo.
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u8 key_generation; ///< NcaKeyGenerationOld / NcaKeyGeneration. Retrieved from the decrypted header.
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u8 id_offset; ///< Retrieved from NcmContentInfo.
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bool rights_id_available;
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bool titlekey_retrieved;
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u8 titlekey[AES_128_KEY_SIZE]; ///< Decrypted titlekey from the ticket.
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bool dirty_header;
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NcaHeader header; ///< NCA header.
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NcaFsSectionContext fs_contexts[NCA_FS_HEADER_COUNT];
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NcaDecryptedKeyArea decrypted_key_area;
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} NcaContext;
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typedef struct {
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u64 offset; ///< New data offset (relative to the start of the NCA content file).
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u64 size; ///< New data size.
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u8 *data; ///< New data.
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} NcaHashDataPatch;
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typedef struct {
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NcmContentId content_id;
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u32 hash_region_count;
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NcaHashDataPatch hash_region_patch[NCA_HIERARCHICAL_SHA256_MAX_REGION_COUNT];
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} NcaHierarchicalSha256Patch;
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typedef struct {
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NcmContentId content_id;
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NcaHashDataPatch hash_level_patch[NCA_IVFC_LEVEL_COUNT];
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} NcaHierarchicalIntegrityPatch;
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/// Functions to control the internal heap buffer used by NCA FS section crypto operations.
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/// Must be called at startup.
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bool ncaAllocateCryptoBuffer(void);
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void ncaFreeCryptoBuffer(void);
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/// Initializes a NCA context.
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/// If 'storage_id' == NcmStorageId_GameCard, the 'hfs_partition_type' argument must be a valid GameCardHashFileSystemPartitionType value.
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/// If the NCA holds a populated Rights ID field, and if the Ticket element pointed to by 'tik' hasn't been filled, ticket data will be retrieved.
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/// If ticket data can't be retrieved, the context will still be initialized, but anything that involves working with encrypted NCA FS section blocks won't be possible (e.g. ncaReadFsSection()).
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bool ncaInitializeContext(NcaContext *out, u8 storage_id, u8 hfs_partition_type, const NcmContentInfo *content_info, Ticket *tik);
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/// Reads raw encrypted data from a NCA using an input context, previously initialized by ncaInitializeContext().
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/// Input offset must be relative to the start of the NCA content file.
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bool ncaReadContentFile(NcaContext *ctx, void *out, u64 read_size, u64 offset);
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/// Reads decrypted data from a NCA FS section using an input context.
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/// Input offset must be relative to the start of the NCA FS section.
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/// If dealing with Patch RomFS sections, this function should only be used when *not* reading BKTR AesCtrEx storage data. Use ncaReadAesCtrExStorageFromBktrSection() for that.
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bool ncaReadFsSection(NcaFsSectionContext *ctx, void *out, u64 read_size, u64 offset);
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/// Reads decrypted BKTR AesCtrEx storage data from a NCA Patch RomFS section using an input context and a AesCtrEx CTR value.
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/// Input offset must be relative to the start of the NCA FS section.
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bool ncaReadAesCtrExStorageFromBktrSection(NcaFsSectionContext *ctx, void *out, u64 read_size, u64 offset, u32 ctr_val);
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/// Returns a pointer to a heap-allocated buffer used to encrypt the input plaintext data, based on the encryption type used by the input NCA FS section, as well as its offset and size.
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/// Input offset must be relative to the start of the NCA FS section.
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/// Output size and offset are guaranteed to be aligned to the AES sector size used by the encryption type from the FS section.
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/// Output offset is relative to the start of the NCA content file, making it easier to use the output encrypted block to seamlessly replace data while dumping a NCA.
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/// This function isn't compatible with Patch RomFS sections.
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void *ncaGenerateEncryptedFsSectionBlock(NcaFsSectionContext *ctx, const void *data, u64 data_size, u64 data_offset, u64 *out_block_size, u64 *out_block_offset);
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/// Generates HierarchicalSha256 FS section patch data, which can be used to seamlessly replace NCA data.
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/// Input offset must be relative to the start of the last HierarchicalSha256 hash region (actual underlying FS).
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/// Bear in mind that this function recalculates both the NcaHashData block master hash and the NCA FS header hash from the NCA header, and enables the 'dirty_header' flag from the NCA context.
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/// As such, this function is not designed to generate more than one patch per HierarchicalSha256 FS section.
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bool ncaGenerateHierarchicalSha256Patch(NcaFsSectionContext *ctx, const void *data, u64 data_size, u64 data_offset, NcaHierarchicalSha256Patch *out);
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/// Overwrites block(s) from a buffer holding raw NCA data using previously initialized NcaContext and NcaHierarchicalSha256Patch.
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/// 'buf_offset' must hold the raw NCA offset where the data stored in 'buf' was read from.
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void ncaWriteHierarchicalSha256PatchToMemoryBuffer(NcaContext *ctx, NcaHierarchicalSha256Patch *patch, void *buf, u64 buf_size, u64 buf_offset);
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/// Generates HierarchicalIntegrity FS section patch data, which can be used to seamlessly replace NCA data.
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/// Input offset must be relative to the start of the last HierarchicalIntegrity hash level (actual underlying FS).
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/// Bear in mind that this function recalculates both the NcaHashData block master hash and the NCA FS header hash from the NCA header, and enables the 'dirty_header' flag from the NCA context.
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/// As such, this function is not designed to generate more than one patch per HierarchicalIntegrity FS section.
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bool ncaGenerateHierarchicalIntegrityPatch(NcaFsSectionContext *ctx, const void *data, u64 data_size, u64 data_offset, NcaHierarchicalIntegrityPatch *out);
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/// Overwrites block(s) from a buffer holding raw NCA data using a previously initialized NcaContext and NcaHierarchicalIntegrityPatch.
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/// 'buf_offset' must hold the raw NCA offset where the data stored in 'buf' was read from.
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void ncaWriteHierarchicalIntegrityPatchToMemoryBuffer(NcaContext *ctx, NcaHierarchicalIntegrityPatch *patch, void *buf, u64 buf_size, u64 buf_offset);
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/// Returns a pointer to a string holding the name of the provided NCA FS section type.
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const char *ncaGetFsSectionTypeName(u8 section_type);
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/// Removes titlekey crypto dependency from a NCA context by wiping the Rights ID from the underlying NCA header and copying the decrypted titlekey to the NCA key area.
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void ncaRemoveTitlekeyCrypto(NcaContext *ctx);
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/// Encrypts NCA header and NCA FS headers from a NCA context.
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bool ncaEncryptHeader(NcaContext *ctx);
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/// Miscellaneous functions.
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NX_INLINE void ncaSetDownloadDistributionType(NcaContext *ctx)
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{
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if (!ctx || ctx->header.distribution_type == NcaDistributionType_Download) return;
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ctx->header.distribution_type = NcaDistributionType_Download;
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ctx->dirty_header = true;
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}
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NX_INLINE bool ncaValidateHierarchicalSha256Offsets(NcaHierarchicalSha256Data *hierarchical_sha256_data, u64 section_size)
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{
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if (!hierarchical_sha256_data || !section_size || !hierarchical_sha256_data->hash_block_size || !hierarchical_sha256_data->hash_region_count || \
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hierarchical_sha256_data->hash_region_count > NCA_HIERARCHICAL_SHA256_MAX_REGION_COUNT) return false;
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for(u32 i = 0; i < hierarchical_sha256_data->hash_region_count; i++)
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{
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if (hierarchical_sha256_data->hash_region[i].offset >= section_size || !hierarchical_sha256_data->hash_region[i].size || \
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(hierarchical_sha256_data->hash_region[i].offset + hierarchical_sha256_data->hash_region[i].size) > section_size) return false;
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}
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return true;
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}
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NX_INLINE bool ncaValidateHierarchicalIntegrityOffsets(NcaIntegrityMetaInfo *integrity_meta_info, u64 section_size)
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{
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if (!integrity_meta_info || !section_size || __builtin_bswap32(integrity_meta_info->magic) != NCA_IVFC_MAGIC || integrity_meta_info->master_hash_size != SHA256_HASH_SIZE || \
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integrity_meta_info->info_level_hash.max_level_count != NCA_IVFC_MAX_LEVEL_COUNT) return false;
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for(u32 i = 0; i < NCA_IVFC_LEVEL_COUNT; i++)
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{
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if (integrity_meta_info->info_level_hash.level_information[i].offset >= section_size || !integrity_meta_info->info_level_hash.level_information[i].size || \
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!integrity_meta_info->info_level_hash.level_information[i].block_order || \
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(integrity_meta_info->info_level_hash.level_information[i].offset + integrity_meta_info->info_level_hash.level_information[i].size) > section_size) return false;
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}
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return true;
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}
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NX_INLINE void ncaFreeHierarchicalSha256Patch(NcaHierarchicalSha256Patch *patch)
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{
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if (!patch) return;
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for(u32 i = 0; i < NCA_HIERARCHICAL_SHA256_MAX_REGION_COUNT; i++)
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{
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if (patch->hash_region_patch[i].data) free(patch->hash_region_patch[i].data);
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}
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memset(patch, 0, sizeof(NcaHierarchicalSha256Patch));
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}
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NX_INLINE void ncaFreeHierarchicalIntegrityPatch(NcaHierarchicalIntegrityPatch *patch)
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{
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if (!patch) return;
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for(u32 i = 0; i < NCA_IVFC_LEVEL_COUNT; i++)
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{
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if (patch->hash_level_patch[i].data) free(patch->hash_level_patch[i].data);
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}
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memset(patch, 0, sizeof(NcaHierarchicalIntegrityPatch));
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}
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#endif /* __NCA_H__ */
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