#ifndef CRYPTOPP_VMAC_H #define CRYPTOPP_VMAC_H #include "cryptlib.h" #include "iterhash.h" #include "seckey.h" #if CRYPTOPP_BOOL_X32 # define CRYPTOPP_DISABLE_VMAC_ASM #endif NAMESPACE_BEGIN(CryptoPP) //! \class VMAC_Base //! \brief Class specific methods used to operate the MAC. class VMAC_Base : public IteratedHashBase { public: std::string AlgorithmName() const {return std::string("VMAC(") + GetCipher().AlgorithmName() + ")-" + IntToString(DigestSize()*8);} unsigned int IVSize() const {return GetCipher().BlockSize();} unsigned int MinIVLength() const {return 1;} void Resynchronize(const byte *nonce, int length=-1); void GetNextIV(RandomNumberGenerator &rng, byte *IV); unsigned int DigestSize() const {return m_is128 ? 16 : 8;}; void UncheckedSetKey(const byte *userKey, unsigned int keylength, const NameValuePairs ¶ms); void TruncatedFinal(byte *mac, size_t size); unsigned int BlockSize() const {return m_L1KeyLength;} ByteOrder GetByteOrder() const {return LITTLE_ENDIAN_ORDER;} unsigned int OptimalDataAlignment() const; protected: virtual BlockCipher & AccessCipher() =0; virtual int DefaultDigestSize() const =0; const BlockCipher & GetCipher() const {return const_cast(this)->AccessCipher();} void HashEndianCorrectedBlock(const word64 *data); size_t HashMultipleBlocks(const word64 *input, size_t length); void Init() {} word64* StateBuf() {return NULL;} word64* DataBuf() {return (word64 *)m_data();} void VHASH_Update_SSE2(const word64 *data, size_t blocksRemainingInWord64, int tagPart); #if !(defined(_MSC_VER) && _MSC_VER < 1300) // can't use function template here with VC6 template #endif void VHASH_Update_Template(const word64 *data, size_t blockRemainingInWord128); void VHASH_Update(const word64 *data, size_t blocksRemainingInWord128); #if CRYPTOPP_DOXYGEN_PROCESSING private: // hide from documentation #endif CRYPTOPP_BLOCK_1(polyState, word64, 4*(m_is128+1)) CRYPTOPP_BLOCK_2(nhKey, word64, m_L1KeyLength/sizeof(word64) + 2*m_is128) CRYPTOPP_BLOCK_3(data, byte, m_L1KeyLength) CRYPTOPP_BLOCK_4(l3Key, word64, 2*(m_is128+1)) CRYPTOPP_BLOCK_5(nonce, byte, IVSize()) CRYPTOPP_BLOCK_6(pad, byte, IVSize()) CRYPTOPP_BLOCKS_END(6) bool m_is128, m_padCached, m_isFirstBlock; int m_L1KeyLength; }; //! \class VMAC //! \brief The VMAC message authentication code //! \details VMAC is a block cipher-based message authentication code algorithm //! using a universal hash proposed by Ted Krovetz and Wei Dai in April 2007. The //! algorithm was designed for high performance backed by a formal analysis. //! \tparam T_BlockCipher block cipher //! \tparam T_DigestBitSize digest size, in bits //! \sa VMAC at the Crypto Lounge. template class VMAC : public SimpleKeyingInterfaceImpl > { public: static std::string StaticAlgorithmName() {return std::string("VMAC(") + T_BlockCipher::StaticAlgorithmName() + ")-" + IntToString(T_DigestBitSize);} private: BlockCipher & AccessCipher() {return m_cipher;} int DefaultDigestSize() const {return T_DigestBitSize/8;} typename T_BlockCipher::Encryption m_cipher; }; NAMESPACE_END #endif