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https://github.com/shadps4-emu/ext-cryptopp.git
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277 lines
12 KiB
C++
277 lines
12 KiB
C++
// dh.h - originally written and placed in the public domain by Wei Dai
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/// \file dh.h
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/// \brief Classes for Diffie-Hellman key exchange
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#ifndef CRYPTOPP_DH_H
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#define CRYPTOPP_DH_H
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#include "cryptlib.h"
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#include "gfpcrypt.h"
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#include "algebra.h"
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NAMESPACE_BEGIN(CryptoPP)
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/// \class DH_Domain
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/// \brief Diffie-Hellman domain
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/// \tparam GROUP_PARAMETERS group parameters
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/// \tparam COFACTOR_OPTION cofactor multiplication option
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/// \details A Diffie-Hellman domain is a set of parameters that must be shared
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/// by two parties in a key agreement protocol, along with the algorithms
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/// for generating key pairs and deriving agreed values.
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/// \details For COFACTOR_OPTION, see CofactorMultiplicationOption.
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/// \sa DL_SimpleKeyAgreementDomainBase
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/// \since Crypto++ 1.0
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template <class GROUP_PARAMETERS, class COFACTOR_OPTION = typename GROUP_PARAMETERS::DefaultCofactorOption>
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class DH_Domain : public DL_SimpleKeyAgreementDomainBase<typename GROUP_PARAMETERS::Element>
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{
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typedef DL_SimpleKeyAgreementDomainBase<typename GROUP_PARAMETERS::Element> Base;
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public:
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typedef GROUP_PARAMETERS GroupParameters;
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typedef typename GroupParameters::Element Element;
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typedef DL_KeyAgreementAlgorithm_DH<Element, COFACTOR_OPTION> DH_Algorithm;
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typedef DH_Domain<GROUP_PARAMETERS, COFACTOR_OPTION> Domain;
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virtual ~DH_Domain() {}
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/// \brief Construct a Diffie-Hellman domain
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DH_Domain() {}
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/// \brief Construct a Diffie-Hellman domain
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/// \param params group parameters and options
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DH_Domain(const GroupParameters ¶ms)
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: m_groupParameters(params) {}
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/// \brief Construct a Diffie-Hellman domain
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/// \param bt BufferedTransformation with group parameters and options
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DH_Domain(BufferedTransformation &bt)
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{m_groupParameters.BERDecode(bt);}
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/// \brief Create a Diffie-Hellman domain
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/// \tparam T2 template parameter used as a constructor parameter
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/// \param v1 RandomNumberGenerator derived class
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/// \param v2 second parameter
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/// \details v1 and v2 are passed directly to the GROUP_PARAMETERS object.
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template <class T2>
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DH_Domain(RandomNumberGenerator &v1, const T2 &v2)
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{m_groupParameters.Initialize(v1, v2);}
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/// \brief Create a Diffie-Hellman domain
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/// \tparam T2 template parameter used as a constructor parameter
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/// \tparam T3 template parameter used as a constructor parameter
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/// \param v1 RandomNumberGenerator derived class
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/// \param v2 second parameter
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/// \param v3 third parameter
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/// \details v1, v2 and v3 are passed directly to the GROUP_PARAMETERS object.
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template <class T2, class T3>
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DH_Domain(RandomNumberGenerator &v1, const T2 &v2, const T3 &v3)
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{m_groupParameters.Initialize(v1, v2, v3);}
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/// \brief Create a Diffie-Hellman domain
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/// \tparam T2 template parameter used as a constructor parameter
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/// \tparam T3 template parameter used as a constructor parameter
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/// \tparam T4 template parameter used as a constructor parameter
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/// \param v1 RandomNumberGenerator derived class
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/// \param v2 second parameter
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/// \param v3 third parameter
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/// \param v4 fourth parameter
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/// \details v1, v2, v3 and v4 are passed directly to the GROUP_PARAMETERS object.
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template <class T2, class T3, class T4>
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DH_Domain(RandomNumberGenerator &v1, const T2 &v2, const T3 &v3, const T4 &v4)
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{m_groupParameters.Initialize(v1, v2, v3, v4);}
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/// \brief Construct a Diffie-Hellman domain
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/// \tparam T1 template parameter used as a constructor parameter
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/// \tparam T2 template parameter used as a constructor parameter
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/// \param v1 first parameter
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/// \param v2 second parameter
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/// \details v1 and v2 are passed directly to the GROUP_PARAMETERS object.
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template <class T1, class T2>
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DH_Domain(const T1 &v1, const T2 &v2)
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{m_groupParameters.Initialize(v1, v2);}
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/// \brief Construct a Diffie-Hellman domain
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/// \tparam T1 template parameter used as a constructor parameter
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/// \tparam T2 template parameter used as a constructor parameter
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/// \tparam T3 template parameter used as a constructor parameter
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/// \param v1 first parameter
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/// \param v2 second parameter
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/// \param v3 third parameter
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/// \details v1, v2 and v3 are passed directly to the GROUP_PARAMETERS object.
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template <class T1, class T2, class T3>
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DH_Domain(const T1 &v1, const T2 &v2, const T3 &v3)
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{m_groupParameters.Initialize(v1, v2, v3);}
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/// \brief Construct a Diffie-Hellman domain
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/// \tparam T1 template parameter used as a constructor parameter
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/// \tparam T2 template parameter used as a constructor parameter
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/// \tparam T3 template parameter used as a constructor parameter
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/// \tparam T4 template parameter used as a constructor parameter
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/// \param v1 first parameter
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/// \param v2 second parameter
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/// \param v3 third parameter
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/// \param v4 fourth parameter
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/// \details v1, v2, v3 and v4 are passed directly to the GROUP_PARAMETERS object.
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template <class T1, class T2, class T3, class T4>
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DH_Domain(const T1 &v1, const T2 &v2, const T3 &v3, const T4 &v4)
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{m_groupParameters.Initialize(v1, v2, v3, v4);}
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/// \brief Retrieves the group parameters for this domain
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/// \return the group parameters for this domain as a const reference
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const GroupParameters & GetGroupParameters() const {return m_groupParameters;}
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/// \brief Retrieves the group parameters for this domain
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/// \return the group parameters for this domain as a non-const reference
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GroupParameters & AccessGroupParameters() {return m_groupParameters;}
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/// \brief Generate a public key from a private key in this domain
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/// \param rng RandomNumberGenerator derived class
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/// \param privateKey byte buffer with the previously generated private key
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/// \param publicKey byte buffer for the generated public key in this domain
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/// \details If using a FIPS 140-2 validated library on Windows, then this class will perform
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/// a self test to ensure the key pair is pairwise consistent. Non-FIPS and non-Windows
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/// builds of the library do not provide FIPS validated cryptography, so the code should be
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/// removed by the optimizer.
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/// \pre <tt>COUNTOF(publicKey) == PublicKeyLength()</tt>
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void GeneratePublicKey(RandomNumberGenerator &rng, const byte *privateKey, byte *publicKey) const
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{
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Base::GeneratePublicKey(rng, privateKey, publicKey);
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if (FIPS_140_2_ComplianceEnabled())
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{
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SecByteBlock privateKey2(this->PrivateKeyLength());
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this->GeneratePrivateKey(rng, privateKey2);
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SecByteBlock publicKey2(this->PublicKeyLength());
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Base::GeneratePublicKey(rng, privateKey2, publicKey2);
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SecByteBlock agreedValue(this->AgreedValueLength()), agreedValue2(this->AgreedValueLength());
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bool agreed1 = this->Agree(agreedValue, privateKey, publicKey2);
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bool agreed2 = this->Agree(agreedValue2, privateKey2, publicKey);
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if (!agreed1 || !agreed2 || agreedValue != agreedValue2)
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throw SelfTestFailure(this->AlgorithmName() + ": pairwise consistency test failed");
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}
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}
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static std::string CRYPTOPP_API StaticAlgorithmName()
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{return GroupParameters::StaticAlgorithmNamePrefix() + DH_Algorithm::StaticAlgorithmName();}
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std::string AlgorithmName() const {return StaticAlgorithmName();}
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private:
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const DL_KeyAgreementAlgorithm<Element> & GetKeyAgreementAlgorithm() const
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{return Singleton<DH_Algorithm>().Ref();}
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DL_GroupParameters<Element> & AccessAbstractGroupParameters()
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{return m_groupParameters;}
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GroupParameters m_groupParameters;
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};
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CRYPTOPP_DLL_TEMPLATE_CLASS DH_Domain<DL_GroupParameters_GFP_DefaultSafePrime>;
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/// \brief Diffie-Hellman in GF(p)
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/// \details DH() class is a typedef of DH_Domain(). The documentation that follows
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/// does not exist. Rather the documentation was created in response to <a href="https://github.com/weidai11/cryptopp/issues/328">Issue
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/// 328, Diffie-Hellman example code not compiling</a>.
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/// \details Generally speaking, a DH() object is ephemeral and is intended to execute one instance of the Diffie-Hellman protocol. The
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/// private and public key parts are not intended to be set or persisted. Rather, a new set of domain parameters are generated each
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/// time an object is created.
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/// \details Once a DH() object is created, once can retrieve the ephemeral public key for the other party with code similar to the
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/// following.
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/// <pre> AutoSeededRandomPool prng;
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/// Integer p, q, g;
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/// PrimeAndGenerator pg;
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///
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/// pg.Generate(1, prng, 512, 511);
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/// p = pg.Prime();
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/// q = pg.SubPrime();
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/// g = pg.Generator();
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///
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/// DH dh(p, q, g);
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/// SecByteBlock t1(dh.PrivateKeyLength()), t2(dh.PublicKeyLength());
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/// dh.GenerateKeyPair(prng, t1, t2);
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/// Integer k1(t1, t1.size()), k2(t2, t2.size());
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///
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/// cout << "Private key:\n";
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/// cout << hex << k1 << endl;
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///
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/// cout << "Public key:\n";
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/// cout << hex << k2 << endl;</pre>
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///
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/// \details Output of the program above will be similar to the following.
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/// <pre> $ ./cryptest.exe
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/// Private key:
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/// 72b45a42371545e9d4880f48589aefh
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/// Public key:
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/// 45fdb13f97b1840626f0250cec1dba4a23b894100b51fb5d2dd13693d789948f8bfc88f9200014b2
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/// ba8dd8a6debc471c69ef1e2326c61184a2eca88ec866346bh</pre>
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/// \sa <a href="http://www.cryptopp.com/wiki/Diffie-Hellman">Diffie-Hellman on the Crypto++ wiki</a> and
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/// <a href="http://www.weidai.com/scan-mirror/ka.html#DH">Diffie-Hellman</a> in GF(p) with key validation
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/// \since Crypto++ 1.0
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#if defined(CRYPTOPP_DOXYGEN_PROCESSING)
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struct DH : public DH_Domain<DL_GroupParameters_GFP_DefaultSafePrime>
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{
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typedef DH_Domain<DL_GroupParameters_GFP_DefaultSafePrime> GroupParameters;
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typedef GroupParameters::Element Element;
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virtual ~DH() {}
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/// \brief Create an uninitialized Diffie-Hellman object
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DH() : DH_Domain() {}
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/// \brief Initialize a Diffie-Hellman object
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/// \param bt BufferedTransformation with group parameters and options
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DH(BufferedTransformation &bt) : DH_Domain(bt) {}
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/// \brief Initialize a Diffie-Hellman object
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/// \param params group parameters and options
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DH(const GroupParameters ¶ms) : DH_Domain(params) {}
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/// \brief Create a Diffie-Hellman object
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/// \param rng a RandomNumberGenerator derived class
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/// \param modulusBits the size of the modulus, in bits
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/// \details This function overload of Initialize() creates a new Diffie-Hellman object because it
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/// takes a RandomNumberGenerator() as a parameter.
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DH(RandomNumberGenerator &rng, unsigned int modulusBits) : DH_Domain(rng, modulusBits) {}
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/// \brief Initialize a Diffie-Hellman object
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/// \param p the modulus
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/// \param g the generator
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DH(const Integer &p, const Integer &g) : DH_Domain(p, g) {}
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/// \brief Initialize a Diffie-Hellman object
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/// \param p the modulus
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/// \param q the subgroup order
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/// \param g the generator
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DH(const Integer &p, const Integer &q, const Integer &g) : DH_Domain(p, q, g) {}
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/// \brief Creates a Diffie-Hellman object
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/// \param rng a RandomNumberGenerator derived class
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/// \param modulusBits the size of the modulus, in bits
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/// \details This function overload of Initialize() creates a new Diffie-Hellman object because it
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/// takes a RandomNumberGenerator() as a parameter.
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void Initialize(RandomNumberGenerator &rng, unsigned int modulusBits)
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{AccessGroupParameters().Initialize(rng, modulusBits);}
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/// \brief Initialize a Diffie-Hellman object
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/// \param p the modulus
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/// \param g the generator
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void Initialize(const Integer &p, const Integer &g)
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{AccessGroupParameters().Initialize(p, g);}
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/// \brief Initialize a Diffie-Hellman object
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/// \param p the modulus
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/// \param q the subgroup order
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/// \param g the generator
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void Initialize(const Integer &p, const Integer &q, const Integer &g)
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{AccessGroupParameters().Initialize(p, q, g);}
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};
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#else
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// The real DH class is a typedef.
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typedef DH_Domain<DL_GroupParameters_GFP_DefaultSafePrime> DH;
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#endif
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NAMESPACE_END
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#endif
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