/* * cnmt.h * * Copyright (c) 2020, DarkMatterCore . * * This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool). * * nxdumptool 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. * * nxdumptool 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 . */ #pragma once #ifndef __CNMT_H__ #define __CNMT_H__ #include "pfs.h" #define CNMT_DIGEST_SIZE SHA256_HASH_SIZE /// Equivalent to NcmContentMetaAttribute. typedef enum { ContentMetaAttribute_IncludesExFatDriver = BIT(0), ContentMetaAttribute_Rebootless = BIT(1), ContentMetaAttribute_Compacted = BIT(2), ContentMetaAttribute_Count = 3 ///< Total values supported by this enum. } ContentMetaAttribute; typedef enum { ContentMetaInstallState_Committed = BIT(0) } ContentMetaInstallState; /// Extended variation of NcmContentMetaHeader. This is essentially the start of every CNMT file. /// Depending on the content meta type value, this header may be followed by an additional extended header for that specific content meta type. /// NcmPackagedContentInfo and/or NcmContentMetaInfo entries may follow afterwards. /// If the extended data size field from the extended header (if available) is non-zero, this data is saved after the content info entries. /// Finally, a 0x20 byte long digest is appended to the EOF. typedef struct { u64 title_id; VersionType1 version; u8 content_meta_type; ///< NcmContentMetaType. u8 reserved_1; u16 extended_header_size; ///< Must match the size from the extended header struct for this content meta type (SystemUpdate, Application, Patch, AddOnContent, Delta). u16 content_count; ///< Determines how many NcmPackagedContentInfo entries are available after the extended header. u16 content_meta_count; ///< Determines how many NcmContentMetaInfo entries are available after the NcmPackagedContentInfo entries. Only used for SystemUpdate. u8 content_meta_attribute; ///< ContentMetaAttribute. u8 storage_id; ///< NcmStorageId. u8 content_install_type; ///< NcmContentInstallType. u8 install_state; ///< ContentMetaInstallState. VersionType1 required_download_system_version; u8 reserved_2[0x4]; } ContentMetaPackagedContentMetaHeader; /// Extended header for the SystemUpdate title. /// Equivalent to NcmSystemUpdateMetaExtendedHeader. typedef struct { u32 extended_data_size; } ContentMetaSystemUpdateMetaExtendedHeader; /// Extended header for Application titles. /// Equivalent to NcmApplicationMetaExtendedHeader, but using VersionType1 structs. typedef struct { u64 patch_id; VersionType1 required_system_version; VersionType1 required_application_version; } ContentMetaApplicationMetaExtendedHeader; /// Extended header for Patch titles. /// Equivalent to NcmPatchMetaExtendedHeader, but using a VersionType1 struct. typedef struct { u64 application_id; VersionType1 required_system_version; u32 extended_data_size; u8 reserved[0x8]; } ContentMetaPatchMetaExtendedHeader; /// Extended header for AddOnContent titles. /// Equivalent to NcmAddOnContentMetaExtendedHeader, but using a VersionType1 struct. typedef struct { u64 application_id; VersionType1 required_application_version; u8 reserved[0x4]; } ContentMetaAddOnContentMetaExtendedHeader; /// Extended header for Delta titles. typedef struct { u64 application_id; u32 extended_data_size; u8 reserved[0x4]; } ContentMetaDeltaMetaExtendedHeader; typedef enum { ContentMetaFirmwareVariationVersion_Invalid = 0, ContentMetaFirmwareVariationVersion_V1 = 1, ContentMetaFirmwareVariationVersion_V2 = 2, ContentMetaFirmwareVariationVersion_Unknown = 3 } ContentMetaFirmwareVariationVersion; /// Header for the extended data region in the SystemUpdate title, pointed to by the extended header. /// If version is ContentMetaFirmwareVariationVersion_V1, this is followed by 'variation_count' ContentMetaFirmwareVariationInfoV1 entries. /// Otherwise, if version is ContentMetaFirmwareVariationVersion_V2, this is followed by: /// * 'variation_count' firmware variation IDs (4 bytes each). /// * 'variation_count' ContentMetaFirmwareVariationInfoV2 entries. /// * (Optionally) A variable number of NcmContentMetaInfo entries, which is the sum of all 'meta_count' values from ContentMetaFirmwareVariationInfoV2 entries where 'refer_to_base' is set to false. typedef struct { u32 version; ///< ContentMetaFirmwareVariationVersion. u32 variation_count; ///< Determines how many firmware variation entries are available after this header. } ContentMetaSystemUpdateMetaExtendedDataHeader; /// Used if the firmware variation version matches ContentMetaFirmwareVariationVersion_V1. typedef struct { u32 firmware_variation_id; u8 reserved[0x1C]; } ContentMetaFirmwareVariationInfoV1; /// Used if the firmware variation version matches ContentMetaFirmwareVariationVersion_V2. typedef struct { bool refer_to_base; u8 reserved_1[0x3]; u32 meta_count; u8 reserved_2[0x18]; } ContentMetaFirmwareVariationInfoV2; /// Header for the extended data region in Patch titles, pointed to by the extended header. /// This is followed by: /// * 'history_count' ContentMetaPatchHistoryHeader entries. /// * 'delta_history_count' ContentMetaPatchDeltaHistory entries. /// * 'delta_count' ContentMetaPatchDeltaHeader entries. /// * 'fragment_set_count' ContentMetaFragmentSet entries. /// * 'history_content_count' NcmContentInfo entries. /// * 'delta_content_count' NcmPackagedContentInfo entries. /// * A variable number of ContentMetaFragmentIndicator entries, which is the sum of all 'fragment_count' values from ContentMetaFragmentSet entries. typedef struct { u32 history_count; u32 delta_history_count; u32 delta_count; u32 fragment_set_count; u32 history_content_count; u32 delta_content_count; u8 reserved[0x4]; } ContentMetaPatchMetaExtendedDataHeader; typedef struct { NcmContentMetaKey content_meta_key; u8 digest[CNMT_DIGEST_SIZE]; u16 content_info_count; u8 reserved[0x6]; } ContentMetaPatchHistoryHeader; typedef struct { u64 source_patch_id; u64 destination_patch_id; VersionType1 source_version; VersionType1 destination_version; u64 download_size; u8 reserved[0x8]; } ContentMetaPatchDeltaHistory; typedef struct { u64 source_patch_id; u64 destination_patch_id; VersionType1 source_version; VersionType1 destination_version; u16 fragment_set_count; u8 reserved_1[0x6]; u16 content_info_count; u8 reserved_2[0x6]; } ContentMetaPatchDeltaHeader; typedef enum { ContentMetaUpdateType_ApplyAsDelta = 0, ContentMetaUpdateType_Overwrite = 1, ContentMetaUpdateType_Create = 2 } ContentMetaUpdateType; #pragma pack(push, 1) typedef struct { NcmContentId source_content_id; NcmContentId destination_content_id; u32 source_size_low; u16 source_size_high; u32 destination_size_low; u16 destination_size_high; u16 fragment_count; u8 fragment_target_content_type; ///< NcmContentType. u8 update_type; ///< ContentMetaUpdateType. u8 reserved[0x4]; } ContentMetaFragmentSet; #pragma pack(pop) typedef struct { u16 content_info_index; u16 fragment_index; } ContentMetaFragmentIndicator; /// Header for the extended data region in Delta titles, pointed to by the extended header. /// This is followed by: /// * 'fragment_set_count' ContentMetaFragmentSet entries. /// * A variable number of ContentMetaFragmentIndicator entries, which is the sum of all 'fragment_count' values from ContentMetaFragmentSet entries. typedef struct { u64 source_patch_id; u64 destination_patch_id; VersionType1 source_version; VersionType1 destination_version; u16 fragment_set_count; u8 reserved[0x6]; } ContentMetaDeltaMetaExtendedDataHeader; typedef struct { NcaContext *nca_ctx; ///< Pointer to the NCA context for the Meta NCA from which CNMT data is retrieved. PartitionFileSystemContext pfs_ctx; ///< PartitionFileSystemContext for the Meta NCA FS section #0, which is where the CNMT is stored. PartitionFileSystemEntry *pfs_entry; ///< PartitionFileSystemEntry for the CNMT in the Meta NCA FS section #0. Used to generate a NcaHierarchicalSha256Patch if needed. NcaHierarchicalSha256Patch nca_patch; ///< NcaHierarchicalSha256Patch generated if CNMT modifications are needed. Used to seamlessly replace Meta NCA data while writing it. ///< Bear in mind that generating a patch modifies the NCA context. char *cnmt_filename; ///< Pointer to the CNMT filename in the Meta NCA FS section #0. u8 *raw_data; ///< Pointer to a dynamically allocated buffer that holds the raw CNMT. u64 raw_data_size; ///< Raw CNMT size. Kept here for convenience - this is part of 'pfs_entry'. u8 raw_data_hash[SHA256_HASH_SIZE]; ///< SHA-256 checksum calculated over the whole raw CNMT. Used to determine if NcaHierarchicalSha256Patch generation is truly needed. ContentMetaPackagedContentMetaHeader *packaged_header; ///< Pointer to the ContentMetaPackagedContentMetaHeader within 'raw_data'. u8 *extended_header; ///< Pointer to the extended header within 'raw_data', if available. May be casted to other types. Its size is stored in 'packaged_header'. NcmPackagedContentInfo *packaged_content_info; ///< Pointer to the NcmPackagedContentInfo entries within 'raw_data', if available. The content count is stored in 'packaged_header'. NcmContentMetaInfo *content_meta_info; ///< Pointer to the NcmContentMetaInfo entries within 'raw_data', if available. The content meta count is stored in 'packaged_header'. u8 *extended_data; ///< Pointer to the extended data block within 'raw_data', if available. u32 extended_data_size; ///< Size of the extended data block within 'raw_data', if available. Kept here for convenience - this is part of the header in 'extended_data'. u8 *digest; ///< Pointer to the digest within 'raw_data'. char *authoring_tool_xml; ///< Pointer to a dynamically allocated, NULL-terminated buffer that holds AuthoringTool-like XML data. ///< This is always NULL unless cnmtGenerateAuthoringToolXml() is used on this ContentMetaContext. u64 authoring_tool_xml_size; ///< Size for the AuthoringTool-like XML. This is essentially the same as using strlen() on 'authoring_tool_xml'. ///< This is always 0 unless cnmtGenerateAuthoringToolXml() is used on this ContentMetaContext. } ContentMetaContext; /// Initializes a ContentMetaContext using a previously initialized NcaContext (which must belong to a Meta NCA). bool cnmtInitializeContext(ContentMetaContext *out, NcaContext *nca_ctx); /// Generates an AuthoringTool-like XML using information from a previously initialized ContentMetaContext, as well as a pointer to 'nca_ctx_count' NcaContext with content information. /// If the function succeeds, XML data and size will get saved to the 'authoring_tool_xml' and 'authoring_tool_xml_size' members from the ContentMetaContext. bool cnmtGenerateAuthoringToolXml(ContentMetaContext *cnmt_ctx, NcaContext *nca_ctx, u32 nca_ctx_count); /// Helper inline functions. NX_INLINE void cnmtFreeContext(ContentMetaContext *cnmt_ctx) { if (!cnmt_ctx) return; pfsFreeContext(&(cnmt_ctx->pfs_ctx)); pfsFreeEntryPatch(&(cnmt_ctx->nca_patch)); if (cnmt_ctx->raw_data) free(cnmt_ctx->raw_data); if (cnmt_ctx->authoring_tool_xml) free(cnmt_ctx->authoring_tool_xml); memset(cnmt_ctx, 0, sizeof(ContentMetaContext)); } NX_INLINE bool cnmtIsValidContext(ContentMetaContext *cnmt_ctx) { return (cnmt_ctx && cnmt_ctx->nca_ctx && cnmt_ctx->pfs_entry && cnmt_ctx->cnmt_filename && cnmt_ctx->raw_data && cnmt_ctx->raw_data_size && cnmt_ctx->packaged_header && \ ((cnmt_ctx->packaged_header->extended_header_size && cnmt_ctx->extended_header) || (!cnmt_ctx->packaged_header->extended_header_size && !cnmt_ctx->extended_header)) && \ ((cnmt_ctx->packaged_header->content_count && cnmt_ctx->packaged_content_info) || (!cnmt_ctx->packaged_header->content_count && !cnmt_ctx->packaged_content_info)) && \ ((cnmt_ctx->packaged_header->content_meta_count && cnmt_ctx->content_meta_info) || (!cnmt_ctx->packaged_header->content_meta_count && !cnmt_ctx->content_meta_info)) && \ ((cnmt_ctx->extended_data_size && cnmt_ctx->extended_data) || (!cnmt_ctx->extended_data_size && !cnmt_ctx->extended_data)) && cnmt_ctx->digest); } NX_INLINE bool cnmtIsNcaPatchRequired(ContentMetaContext *cnmt_ctx) { if (!cnmtIsValidContext(cnmt_ctx)) return false; u8 tmp_hash[SHA256_HASH_SIZE] = {0}; sha256CalculateHash(tmp_hash, cnmt_ctx->raw_data, cnmt_ctx->raw_data_size); return (memcmp(tmp_hash, cnmt_ctx->raw_data_hash, SHA256_HASH_SIZE) != 0); } NX_INLINE bool cnmtGenerateNcaPatch(ContentMetaContext *cnmt_ctx) { return (cnmtIsValidContext(cnmt_ctx) && pfsGenerateEntryPatch(&(cnmt_ctx->pfs_ctx), cnmt_ctx->pfs_entry, cnmt_ctx->raw_data, cnmt_ctx->raw_data_size, 0, &(cnmt_ctx->nca_patch))); } NX_INLINE u64 cnmtGetRequiredTitleId(ContentMetaContext *cnmt_ctx) { return ((cnmtIsValidContext(cnmt_ctx) && (cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_Application || \ cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_Patch || cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_AddOnContent)) ? \ *((u64*)cnmt_ctx->extended_header) : 0); } NX_INLINE u32 cnmtGetRequiredTitleVersion(ContentMetaContext *cnmt_ctx) { return ((cnmtIsValidContext(cnmt_ctx) && (cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_Application || \ cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_Patch || cnmt_ctx->packaged_header->content_meta_type == NcmContentMetaType_AddOnContent)) ? \ ((VersionType1*)(cnmt_ctx->extended_header + sizeof(u64)))->value : 0); } #endif /* __CNMT_H__ */