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219 lines
9.8 KiB
C++
219 lines
9.8 KiB
C++
// kalyna.h - written and placed in the public domain by Jeffrey Walton
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// Based on public domain code by Keru Kuro.
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/// \file kalyna.h
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/// \brief Classes for the Kalyna block cipher
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/// \details The Crypto++ implementation relied upon three sources. First was Oliynykov, Gorbenko, Kazymyrov,
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/// Ruzhentsev, Kuznetsov, Gorbenko, Dyrda, Dolgov, Pushkaryov, Mordvinov and Kaidalov's "A New Encryption
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/// Standard of Ukraine: The Kalyna Block Cipher" (http://eprint.iacr.org/2015/650.pdf). Second was Roman
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/// Oliynykov and Oleksandr Kazymyrov's GitHub with the reference implementation
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/// (http://github.com/Roman-Oliynykov/Kalyna-reference). The third resource was Keru Kuro's implementation
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/// of Kalyna in CppCrypto (http://sourceforge.net/projects/cppcrypto/). Kuro has an outstanding
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/// implementation that performed better than the reference implementation and our initial attempts.
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#ifndef CRYPTOPP_KALYNA_H
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#define CRYPTOPP_KALYNA_H
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#include "config.h"
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#include "seckey.h"
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#include "secblock.h"
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NAMESPACE_BEGIN(CryptoPP)
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/// \brief Kalyna-128 block cipher information
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/// \since Crypto++ 6.0
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struct CRYPTOPP_NO_VTABLE Kalyna128_Info : public FixedBlockSize<16>, VariableKeyLength<16, 16, 32>
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{
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static const char* StaticAlgorithmName()
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{
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// Format is Cipher-Blocksize(Keylength)
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return "Kalyna-128";
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}
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};
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/// \brief Kalyna-256 block cipher information
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/// \since Crypto++ 6.0
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struct CRYPTOPP_NO_VTABLE Kalyna256_Info : public FixedBlockSize<32>, VariableKeyLength<32, 32, 64>
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{
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static const char* StaticAlgorithmName()
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{
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// Format is Cipher-Blocksize(Keylength)
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return "Kalyna-256";
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}
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};
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/// \brief Kalyna-512 block cipher information
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/// \since Crypto++ 6.0
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struct CRYPTOPP_NO_VTABLE Kalyna512_Info : public FixedBlockSize<64>, FixedKeyLength<64>
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{
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static const char* StaticAlgorithmName()
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{
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// Format is Cipher-Blocksize(Keylength)
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return "Kalyna-512";
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}
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};
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/// \brief Kalyna block cipher base class
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/// \since Crypto++ 6.0
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class CRYPTOPP_NO_VTABLE Kalyna_Base
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{
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public:
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virtual ~Kalyna_Base() {}
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protected:
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typedef SecBlock<word64, AllocatorWithCleanup<word64, true> > AlignedSecBlock64;
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mutable AlignedSecBlock64 m_wspace; // work space
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AlignedSecBlock64 m_mkey; // master key
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AlignedSecBlock64 m_rkeys; // round keys
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unsigned int m_kl, m_nb, m_nk; // number 64-bit blocks and keys
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};
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/// \brief Kalyna 128-bit block cipher
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/// \details Kalyna128 provides 128-bit block size. The valid key sizes are 128-bit and 256-bit.
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/// \since Crypto++ 6.0
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class Kalyna128 : public Kalyna128_Info, public BlockCipherDocumentation
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{
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public:
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class CRYPTOPP_NO_VTABLE Base : public Kalyna_Base, public BlockCipherImpl<Kalyna128_Info>
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{
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public:
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/// \brief Provides the name of this algorithm
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/// \return the standard algorithm name
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/// \details If the object is unkeyed, then the generic name "Kalyna" is returned
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/// to the caller. If the algorithm is keyed, then a two or three part name is
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/// returned to the caller. The name follows DSTU 7624:2014, where block size is
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/// provided first and then key length. The library uses a dash to identify block size
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/// and parenthesis to identify key length. For example, Kalyna-128(256) is Kalyna
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/// with a 128-bit block size and a 256-bit key length. If a mode is associated
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/// with the object, then it follows as expected. For example, Kalyna-128(256)/ECB.
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/// DSTU is a little more complex with more parameters, dashes, underscores, but the
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/// library does not use the delimiters or full convention.
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std::string AlgorithmName() const {
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return std::string("Kalyna-128") + "(" + IntToString(m_kl*8) + ")";
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}
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/// \brief Provides input and output data alignment for optimal performance.
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/// \return the input data alignment that provides optimal performance
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/// \sa GetAlignment() and OptimalBlockSize()
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unsigned int OptimalDataAlignment() const {
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return GetAlignmentOf<word64>();
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}
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protected:
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void UncheckedSetKey(const byte *key, unsigned int keylen, const NameValuePairs ¶ms);
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void ProcessAndXorBlock(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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protected:
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void SetKey_22(const word64 key[2]);
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void SetKey_24(const word64 key[4]);
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void ProcessBlock_22(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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void ProcessBlock_24(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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};
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typedef BlockCipherFinal<ENCRYPTION, Base> Encryption;
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typedef BlockCipherFinal<DECRYPTION, Base> Decryption;
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};
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/// \brief Kalyna 256-bit block cipher
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/// \details Kalyna256 provides 256-bit block size. The valid key sizes are 256-bit and 512-bit.
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/// \since Crypto++ 6.0
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class Kalyna256 : public Kalyna256_Info, public BlockCipherDocumentation
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{
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public:
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class CRYPTOPP_NO_VTABLE Base : public Kalyna_Base, public BlockCipherImpl<Kalyna256_Info>
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{
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public:
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/// \brief Provides the name of this algorithm
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/// \return the standard algorithm name
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/// \details If the object is unkeyed, then the generic name "Kalyna" is returned
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/// to the caller. If the algorithm is keyed, then a two or three part name is
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/// returned to the caller. The name follows DSTU 7624:2014, where block size is
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/// provided first and then key length. The library uses a dash to identify block size
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/// and parenthesis to identify key length. For example, Kalyna-128(256) is Kalyna
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/// with a 128-bit block size and a 256-bit key length. If a mode is associated
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/// with the object, then it follows as expected. For example, Kalyna-128(256)/ECB.
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/// DSTU is a little more complex with more parameters, dashes, underscores, but the
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/// library does not use the delimiters or full convention.
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std::string AlgorithmName() const {
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return std::string("Kalyna-256") + "(" + IntToString(m_kl*8) + ")";
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}
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/// \brief Provides input and output data alignment for optimal performance.
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/// \return the input data alignment that provides optimal performance
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/// \sa GetAlignment() and OptimalBlockSize()
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unsigned int OptimalDataAlignment() const {
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return GetAlignmentOf<word64>();
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}
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protected:
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void UncheckedSetKey(const byte *key, unsigned int keylen, const NameValuePairs ¶ms);
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void ProcessAndXorBlock(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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protected:
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void SetKey_44(const word64 key[4]);
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void SetKey_48(const word64 key[8]);
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void ProcessBlock_44(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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void ProcessBlock_48(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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};
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typedef BlockCipherFinal<ENCRYPTION, Base> Encryption;
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typedef BlockCipherFinal<DECRYPTION, Base> Decryption;
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};
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/// \brief Kalyna 512-bit block cipher
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/// \details Kalyna512 provides 512-bit block size. The valid key size is 512-bit.
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/// \since Crypto++ 6.0
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class Kalyna512 : public Kalyna512_Info, public BlockCipherDocumentation
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{
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public:
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class CRYPTOPP_NO_VTABLE Base : public Kalyna_Base, public BlockCipherImpl<Kalyna512_Info>
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{
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public:
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/// \brief Provides the name of this algorithm
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/// \return the standard algorithm name
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/// \details If the object is unkeyed, then the generic name "Kalyna" is returned
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/// to the caller. If the algorithm is keyed, then a two or three part name is
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/// returned to the caller. The name follows DSTU 7624:2014, where block size is
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/// provided first and then key length. The library uses a dash to identify block size
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/// and parenthesis to identify key length. For example, Kalyna-128(256) is Kalyna
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/// with a 128-bit block size and a 256-bit key length. If a mode is associated
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/// with the object, then it follows as expected. For example, Kalyna-128(256)/ECB.
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/// DSTU is a little more complex with more parameters, dashes, underscores, but the
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/// library does not use the delimiters or full convention.
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std::string AlgorithmName() const {
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return std::string("Kalyna-512") + "(" + IntToString(m_kl*8) + ")";
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}
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/// \brief Provides input and output data alignment for optimal performance.
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/// \return the input data alignment that provides optimal performance
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/// \sa GetAlignment() and OptimalBlockSize()
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unsigned int OptimalDataAlignment() const {
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return GetAlignmentOf<word64>();
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}
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protected:
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void UncheckedSetKey(const byte *key, unsigned int keylen, const NameValuePairs ¶ms);
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void ProcessAndXorBlock(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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protected:
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void SetKey_88(const word64 key[8]);
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void ProcessBlock_88(const byte *inBlock, const byte *xorBlock, byte *outBlock) const;
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};
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typedef BlockCipherFinal<ENCRYPTION, Base> Encryption;
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typedef BlockCipherFinal<DECRYPTION, Base> Decryption;
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};
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typedef Kalyna128::Encryption Kalyna128Encryption;
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typedef Kalyna128::Decryption Kalyna128Decryption;
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typedef Kalyna256::Encryption Kalyna256Encryption;
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typedef Kalyna256::Decryption Kalyna256Decryption;
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typedef Kalyna512::Encryption Kalyna512Encryption;
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typedef Kalyna512::Decryption Kalyna512Decryption;
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NAMESPACE_END
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#endif // CRYPTOPP_KALYNA_H
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