#include nn::hac::DeltaMetaExtendedHeader::DeltaMetaExtendedHeader() { clear(); } nn::hac::DeltaMetaExtendedHeader::DeltaMetaExtendedHeader(const DeltaMetaExtendedHeader& other) { *this = other; } void nn::hac::DeltaMetaExtendedHeader::operator=(const DeltaMetaExtendedHeader& other) { clear(); mRawBinary = other.mRawBinary; mApplicationId = other.mApplicationId; mExtendedDataSize = other.mExtendedDataSize; } bool nn::hac::DeltaMetaExtendedHeader::operator==(const DeltaMetaExtendedHeader& other) const { return (mApplicationId == other.mApplicationId) \ && (mExtendedDataSize == other.mExtendedDataSize); } bool nn::hac::DeltaMetaExtendedHeader::operator!=(const DeltaMetaExtendedHeader& other) const { return !(*this == other); } void nn::hac::DeltaMetaExtendedHeader::toBytes() { mRawBinary.alloc(sizeof(sDeltaMetaExtendedHeader)); sDeltaMetaExtendedHeader* info = (sDeltaMetaExtendedHeader*)mRawBinary.data(); info->application_id = mApplicationId; info->extended_data_size = mExtendedDataSize; } void nn::hac::DeltaMetaExtendedHeader::fromBytes(const byte_t* bytes, size_t len) { if (len < sizeof(sDeltaMetaExtendedHeader)) { throw fnd::Exception(kModuleName, "DeltaMetaExtendedHeader too small"); } const sDeltaMetaExtendedHeader* info = (const sDeltaMetaExtendedHeader*)bytes; mApplicationId = info->application_id.get(); mExtendedDataSize = info->extended_data_size.get(); } const fnd::Vec& nn::hac::DeltaMetaExtendedHeader::getBytes() const { return mRawBinary; } void nn::hac::DeltaMetaExtendedHeader::clear() { mRawBinary.clear(); mApplicationId = 0; mExtendedDataSize = 0; } uint64_t nn::hac::DeltaMetaExtendedHeader::getApplicationId() const { return mApplicationId; } void nn::hac::DeltaMetaExtendedHeader::setApplicationId(uint64_t application_id) { mApplicationId = application_id; } uint32_t nn::hac::DeltaMetaExtendedHeader::getExtendedDataSize() const { return mExtendedDataSize; } void nn::hac::DeltaMetaExtendedHeader::setExtendedDataSize(uint32_t size) { mExtendedDataSize = size; }