#pragma once #include #include #include #include #include namespace nn { namespace hac { class ContentMetaBinary : public fnd::ISerialisable { public: struct ContentInfo { fnd::sha::sSha256Hash hash; byte_t nca_id[cnmt::kContentIdLen]; size_t size; cnmt::ContentType type; void operator=(const ContentInfo& other) { hash = other.hash; memcpy(nca_id, other.nca_id, cnmt::kContentIdLen); size = other.size; type = other.type; } bool operator==(const ContentInfo& other) const { return (hash == other.hash) \ && (memcmp(nca_id, other.nca_id, cnmt::kContentIdLen) == 0) \ && (size == other.size) \ && (type == other.type); } bool operator!=(const ContentInfo& other) const { return !operator==(other); } }; struct ContentMetaInfo { uint64_t id; uint32_t version; cnmt::ContentMetaType type; byte_t attributes; void operator=(const ContentMetaInfo& other) { id = other.id; version = other.version; type = other.type; attributes = other.attributes; } bool operator==(const ContentMetaInfo& other) const { return (id == other.id) \ && (version == other.version) \ && (type == other.type) \ && (attributes == other.attributes); } bool operator!=(const ContentMetaInfo& other) const { return !operator==(other); } }; struct ApplicationMetaExtendedHeader { uint64_t patch_id; uint32_t required_system_version; void operator=(const ApplicationMetaExtendedHeader& other) { patch_id = other.patch_id; required_system_version = other.required_system_version; } bool operator==(const ApplicationMetaExtendedHeader& other) const { return (patch_id == other.patch_id) \ && (required_system_version == other.required_system_version); } bool operator!=(const ApplicationMetaExtendedHeader& other) const { return !operator==(other); } }; struct PatchMetaExtendedHeader { uint64_t application_id; uint32_t required_system_version; void operator=(const PatchMetaExtendedHeader& other) { application_id = other.application_id; required_system_version = other.required_system_version; } bool operator==(const PatchMetaExtendedHeader& other) const { return (application_id == other.application_id) \ && (required_system_version == other.required_system_version); } bool operator!=(const PatchMetaExtendedHeader& other) const { return !operator==(other); } }; struct AddOnContentMetaExtendedHeader { uint64_t application_id; uint32_t required_system_version; void operator=(const AddOnContentMetaExtendedHeader& other) { application_id = other.application_id; required_system_version = other.required_system_version; } bool operator==(const AddOnContentMetaExtendedHeader& other) const { return (application_id == other.application_id) \ && (required_system_version == other.required_system_version); } bool operator!=(const AddOnContentMetaExtendedHeader& other) const { return !operator==(other); } }; struct DeltaMetaExtendedHeader { uint64_t application_id; void operator=(const DeltaMetaExtendedHeader& other) { application_id = other.application_id; } bool operator==(const DeltaMetaExtendedHeader& other) const { return (application_id == other.application_id); } bool operator!=(const DeltaMetaExtendedHeader& other) const { return !operator==(other); } }; ContentMetaBinary(); ContentMetaBinary(const ContentMetaBinary& other); void operator=(const ContentMetaBinary& other); bool operator==(const ContentMetaBinary& other) const; bool operator!=(const ContentMetaBinary& other) const; // export/import binary void toBytes(); void fromBytes(const byte_t* bytes, size_t len); const fnd::Vec& getBytes() const; // variables void clear(); uint64_t getTitleId() const; void setTitleId(uint64_t title_id); uint32_t getTitleVersion() const; void setTitleVersion(uint32_t version); cnmt::ContentMetaType getType() const; void setType(cnmt::ContentMetaType type); byte_t getAttributes() const; void setAttributes(byte_t attributes); uint32_t getRequiredDownloadSystemVersion() const; void setRequiredDownloadSystemVersion(uint32_t version); const ApplicationMetaExtendedHeader& getApplicationMetaExtendedHeader() const; void setApplicationMetaExtendedHeader(const ApplicationMetaExtendedHeader& exhdr); const PatchMetaExtendedHeader& getPatchMetaExtendedHeader() const; void setPatchMetaExtendedHeader(const PatchMetaExtendedHeader& exhdr); const AddOnContentMetaExtendedHeader& getAddOnContentMetaExtendedHeader() const; void setAddOnContentMetaExtendedHeader(const AddOnContentMetaExtendedHeader& exhdr); const DeltaMetaExtendedHeader& getDeltaMetaExtendedHeader() const; void setDeltaMetaExtendedHeader(const DeltaMetaExtendedHeader& exhdr); const fnd::List& getContentInfo() const; void setContentInfo(const fnd::List& info); const fnd::List& getContentMetaInfo() const; void setContentMetaInfo(const fnd::List& info); const fnd::Vec& getExtendedData() const; void setExtendedData(const fnd::Vec& data); const nn::hac::sDigest& getDigest() const; void setDigest(const nn::hac::sDigest& digest); private: const std::string kModuleName = "CONTENT_META_BINARY"; // binary blob fnd::Vec mRawBinary; // variables uint64_t mTitleId; uint32_t mTitleVersion; cnmt::ContentMetaType mType; byte_t mAttributes; uint32_t mRequiredDownloadSystemVersion; fnd::Vec mExtendedHeader; ApplicationMetaExtendedHeader mApplicationMetaExtendedHeader; PatchMetaExtendedHeader mPatchMetaExtendedHeader; AddOnContentMetaExtendedHeader mAddOnContentMetaExtendedHeader; DeltaMetaExtendedHeader mDeltaMetaExtendedHeader; fnd::List mContentInfo; fnd::List mContentMetaInfo; fnd::Vec mExtendedData; nn::hac::sDigest mDigest; inline size_t getExtendedHeaderOffset() const { return sizeof(sContentMetaHeader); } inline size_t getContentInfoOffset(size_t exhdrSize) const { return getExtendedHeaderOffset() + exhdrSize; } inline size_t getContentMetaInfoOffset(size_t exhdrSize, size_t contentInfoNum) const { return getContentInfoOffset(exhdrSize) + contentInfoNum * sizeof(sContentInfo); } inline size_t getExtendedDataOffset(size_t exhdrSize, size_t contentInfoNum, size_t contentMetaNum) const { return getContentMetaInfoOffset(exhdrSize, contentInfoNum) + contentMetaNum * sizeof(sContentMetaInfo); } inline size_t getDigestOffset(size_t exhdrSize, size_t contentInfoNum, size_t contentMetaNum, size_t exdataSize) const { return getExtendedDataOffset(exhdrSize, contentInfoNum, contentMetaNum) + exdataSize; } inline size_t getTotalSize(size_t exhdrSize, size_t contentInfoNum, size_t contentMetaNum, size_t exdataSize) const { return getDigestOffset(exhdrSize, contentInfoNum, contentMetaNum, exdataSize) + cnmt::kDigestLen; } bool validateExtendedHeaderSize(cnmt::ContentMetaType type, size_t exhdrSize) const; size_t getExtendedDataSize(cnmt::ContentMetaType type, const byte_t* data) const; void validateBinary(const byte_t* bytes, size_t len) const; }; } }