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482 lines
16 KiB
C++
482 lines
16 KiB
C++
// pwdbased.h - originally written and placed in the public domain by Wei Dai
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// Cutover to KeyDerivationFunction interface by Uri Blumenthal
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// Marcel Raad and Jeffrey Walton in March 2018.
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/// \file pwdbased.h
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/// \brief Password based key derivation functions
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#ifndef CRYPTOPP_PWDBASED_H
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#define CRYPTOPP_PWDBASED_H
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#include "cryptlib.h"
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#include "hrtimer.h"
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#include "integer.h"
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#include "argnames.h"
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#include "algparam.h"
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#include "hmac.h"
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NAMESPACE_BEGIN(CryptoPP)
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// ******************** PBKDF1 ********************
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/// \brief PBKDF1 from PKCS #5
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/// \tparam T a HashTransformation class
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/// \sa PasswordBasedKeyDerivationFunction, <A
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/// HREF="https://www.cryptopp.com/wiki/PKCS5_PBKDF1">PKCS5_PBKDF1</A>
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/// on the Crypto++ wiki
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/// \since Crypto++ 2.0
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template <class T>
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class PKCS5_PBKDF1 : public PasswordBasedKeyDerivationFunction
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{
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public:
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virtual ~PKCS5_PBKDF1() {}
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static std::string StaticAlgorithmName () {
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const std::string name(std::string("PBKDF1(") +
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std::string(T::StaticAlgorithmName()) + std::string(")"));
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return name;
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}
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// KeyDerivationFunction interface
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std::string AlgorithmName() const {
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return StaticAlgorithmName();
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}
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// KeyDerivationFunction interface
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size_t MaxDerivedKeyLength() const {
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return static_cast<size_t>(T::DIGESTSIZE);
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}
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// KeyDerivationFunction interface
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size_t GetValidDerivedLength(size_t keylength) const;
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// KeyDerivationFunction interface
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virtual size_t DeriveKey(byte *derived, size_t derivedLen, const byte *secret, size_t secretLen,
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const NameValuePairs& params = g_nullNameValuePairs) const;
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/// \brief Derive a key from a secret seed
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/// \param derived the derived output buffer
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/// \param derivedLen the size of the derived buffer, in bytes
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/// \param purpose a purpose byte
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/// \param secret the seed input buffer
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/// \param secretLen the size of the secret buffer, in bytes
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/// \param salt the salt input buffer
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/// \param saltLen the size of the salt buffer, in bytes
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/// \param iterations the number of iterations
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/// \param timeInSeconds the in seconds
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/// \return the number of iterations performed
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/// \throw InvalidDerivedKeyLength if <tt>derivedLen</tt> is invalid for the scheme
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/// \details DeriveKey() provides a standard interface to derive a key from
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/// a seed and other parameters. Each class that derives from KeyDerivationFunction
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/// provides an overload that accepts most parameters used by the derivation function.
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/// \details If <tt>timeInSeconds</tt> is <tt>> 0.0</tt> then DeriveKey will run for
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/// the specified amount of time. If <tt>timeInSeconds</tt> is <tt>0.0</tt> then DeriveKey
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/// will run for the specified number of iterations.
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/// \details PKCS #5 says PBKDF1 should only take 8-byte salts. This implementation
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/// allows salts of any length.
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size_t DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen, const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds=0) const;
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protected:
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// KeyDerivationFunction interface
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const Algorithm & GetAlgorithm() const {
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return *this;
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}
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};
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template <class T>
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size_t PKCS5_PBKDF1<T>::GetValidDerivedLength(size_t keylength) const
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{
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if (keylength > MaxDerivedKeyLength())
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return MaxDerivedKeyLength();
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return keylength;
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}
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template <class T>
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size_t PKCS5_PBKDF1<T>::DeriveKey(byte *derived, size_t derivedLen,
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const byte *secret, size_t secretLen, const NameValuePairs& params) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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byte purpose = (byte)params.GetIntValueWithDefault("Purpose", 0);
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unsigned int iterations = (unsigned int)params.GetIntValueWithDefault("Iterations", 1);
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double timeInSeconds = 0.0f;
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(void)params.GetValue("TimeInSeconds", timeInSeconds);
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ConstByteArrayParameter salt;
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(void)params.GetValue(Name::Salt(), salt);
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return DeriveKey(derived, derivedLen, purpose, secret, secretLen, salt.begin(), salt.size(), iterations, timeInSeconds);
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}
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template <class T>
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size_t PKCS5_PBKDF1<T>::DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen, const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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CRYPTOPP_ASSERT(iterations > 0 || timeInSeconds > 0);
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CRYPTOPP_UNUSED(purpose);
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ThrowIfInvalidDerivedKeyLength(derivedLen);
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// Business logic
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if (!iterations) { iterations = 1; }
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T hash;
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hash.Update(secret, secretLen);
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hash.Update(salt, saltLen);
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SecByteBlock buffer(hash.DigestSize());
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hash.Final(buffer);
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unsigned int i;
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ThreadUserTimer timer;
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if (timeInSeconds)
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timer.StartTimer();
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for (i=1; i<iterations || (timeInSeconds && (i%128!=0 || timer.ElapsedTimeAsDouble() < timeInSeconds)); i++)
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hash.CalculateDigest(buffer, buffer, buffer.size());
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if (derived)
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std::memcpy(derived, buffer, derivedLen);
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return i;
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}
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// ******************** PKCS5_PBKDF2_HMAC ********************
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/// \brief PBKDF2 from PKCS #5
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/// \tparam T a HashTransformation class
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/// \sa PasswordBasedKeyDerivationFunction, <A
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/// HREF="https://www.cryptopp.com/wiki/PKCS5_PBKDF2_HMAC">PKCS5_PBKDF2_HMAC</A>
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/// on the Crypto++ wiki
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/// \since Crypto++ 2.0
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template <class T>
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class PKCS5_PBKDF2_HMAC : public PasswordBasedKeyDerivationFunction
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{
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public:
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virtual ~PKCS5_PBKDF2_HMAC() {}
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static std::string StaticAlgorithmName () {
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const std::string name(std::string("PBKDF2_HMAC(") +
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std::string(T::StaticAlgorithmName()) + std::string(")"));
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return name;
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}
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// KeyDerivationFunction interface
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std::string AlgorithmName() const {
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return StaticAlgorithmName();
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}
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// KeyDerivationFunction interface
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// should multiply by T::DIGESTSIZE, but gets overflow that way
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size_t MaxDerivedKeyLength() const {
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return 0xffffffffU;
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}
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// KeyDerivationFunction interface
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size_t GetValidDerivedLength(size_t keylength) const;
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// KeyDerivationFunction interface
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size_t DeriveKey(byte *derived, size_t derivedLen, const byte *secret, size_t secretLen,
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const NameValuePairs& params = g_nullNameValuePairs) const;
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/// \brief Derive a key from a secret seed
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/// \param derived the derived output buffer
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/// \param derivedLen the size of the derived buffer, in bytes
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/// \param purpose a purpose byte
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/// \param secret the seed input buffer
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/// \param secretLen the size of the secret buffer, in bytes
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/// \param salt the salt input buffer
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/// \param saltLen the size of the salt buffer, in bytes
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/// \param iterations the number of iterations
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/// \param timeInSeconds the in seconds
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/// \return the number of iterations performed
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/// \throw InvalidDerivedKeyLength if <tt>derivedLen</tt> is invalid for the scheme
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/// \details DeriveKey() provides a standard interface to derive a key from
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/// a seed and other parameters. Each class that derives from KeyDerivationFunction
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/// provides an overload that accepts most parameters used by the derivation function.
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/// \details If <tt>timeInSeconds</tt> is <tt>> 0.0</tt> then DeriveKey will run for
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/// the specified amount of time. If <tt>timeInSeconds</tt> is <tt>0.0</tt> then DeriveKey
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/// will run for the specified number of iterations.
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size_t DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen,
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const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds=0) const;
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protected:
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// KeyDerivationFunction interface
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const Algorithm & GetAlgorithm() const {
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return *this;
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}
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};
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template <class T>
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size_t PKCS5_PBKDF2_HMAC<T>::GetValidDerivedLength(size_t keylength) const
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{
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if (keylength > MaxDerivedKeyLength())
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return MaxDerivedKeyLength();
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return keylength;
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}
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template <class T>
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size_t PKCS5_PBKDF2_HMAC<T>::DeriveKey(byte *derived, size_t derivedLen,
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const byte *secret, size_t secretLen, const NameValuePairs& params) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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byte purpose = (byte)params.GetIntValueWithDefault("Purpose", 0);
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unsigned int iterations = (unsigned int)params.GetIntValueWithDefault("Iterations", 1);
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double timeInSeconds = 0.0f;
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(void)params.GetValue("TimeInSeconds", timeInSeconds);
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ConstByteArrayParameter salt;
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(void)params.GetValue(Name::Salt(), salt);
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return DeriveKey(derived, derivedLen, purpose, secret, secretLen, salt.begin(), salt.size(), iterations, timeInSeconds);
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}
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template <class T>
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size_t PKCS5_PBKDF2_HMAC<T>::DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen, const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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CRYPTOPP_ASSERT(iterations > 0 || timeInSeconds > 0);
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CRYPTOPP_UNUSED(purpose);
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ThrowIfInvalidDerivedKeyLength(derivedLen);
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// Business logic
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if (!iterations) { iterations = 1; }
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// DigestSize check due to https://github.com/weidai11/cryptopp/issues/855
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HMAC<T> hmac(secret, secretLen);
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if (hmac.DigestSize() == 0)
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throw InvalidArgument("PKCS5_PBKDF2_HMAC: DigestSize cannot be 0");
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SecByteBlock buffer(hmac.DigestSize());
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ThreadUserTimer timer;
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unsigned int i=1;
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while (derivedLen > 0)
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{
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hmac.Update(salt, saltLen);
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unsigned int j;
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for (j=0; j<4; j++)
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{
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byte b = byte(i >> ((3-j)*8));
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hmac.Update(&b, 1);
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}
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hmac.Final(buffer);
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#if CRYPTOPP_MSC_VERSION
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const size_t segmentLen = STDMIN(derivedLen, buffer.size());
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memcpy_s(derived, segmentLen, buffer, segmentLen);
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#else
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const size_t segmentLen = STDMIN(derivedLen, buffer.size());
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std::memcpy(derived, buffer, segmentLen);
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#endif
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if (timeInSeconds)
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{
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timeInSeconds = timeInSeconds / ((derivedLen + buffer.size() - 1) / buffer.size());
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timer.StartTimer();
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}
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for (j=1; j<iterations || (timeInSeconds && (j%128!=0 || timer.ElapsedTimeAsDouble() < timeInSeconds)); j++)
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{
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hmac.CalculateDigest(buffer, buffer, buffer.size());
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xorbuf(derived, buffer, segmentLen);
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}
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if (timeInSeconds)
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{
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iterations = j;
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timeInSeconds = 0;
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}
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derived += segmentLen;
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derivedLen -= segmentLen;
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i++;
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}
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return iterations;
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}
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// ******************** PKCS12_PBKDF ********************
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/// \brief PBKDF from PKCS #12, appendix B
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/// \tparam T a HashTransformation class
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/// \sa PasswordBasedKeyDerivationFunction, <A
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/// HREF="https://www.cryptopp.com/wiki/PKCS12_PBKDF">PKCS12_PBKDF</A>
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/// on the Crypto++ wiki
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/// \since Crypto++ 2.0
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template <class T>
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class PKCS12_PBKDF : public PasswordBasedKeyDerivationFunction
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{
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public:
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virtual ~PKCS12_PBKDF() {}
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static std::string StaticAlgorithmName () {
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const std::string name(std::string("PBKDF_PKCS12(") +
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std::string(T::StaticAlgorithmName()) + std::string(")"));
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return name;
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}
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// KeyDerivationFunction interface
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std::string AlgorithmName() const {
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return StaticAlgorithmName();
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}
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// TODO - check this
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size_t MaxDerivedKeyLength() const {
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return static_cast<size_t>(-1);
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}
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// KeyDerivationFunction interface
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size_t GetValidDerivedLength(size_t keylength) const;
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// KeyDerivationFunction interface
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size_t DeriveKey(byte *derived, size_t derivedLen, const byte *secret, size_t secretLen,
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const NameValuePairs& params = g_nullNameValuePairs) const;
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/// \brief Derive a key from a secret seed
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/// \param derived the derived output buffer
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/// \param derivedLen the size of the derived buffer, in bytes
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/// \param purpose a purpose byte
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/// \param secret the seed input buffer
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/// \param secretLen the size of the secret buffer, in bytes
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/// \param salt the salt input buffer
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/// \param saltLen the size of the salt buffer, in bytes
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/// \param iterations the number of iterations
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/// \param timeInSeconds the in seconds
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/// \return the number of iterations performed
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/// \throw InvalidDerivedKeyLength if <tt>derivedLen</tt> is invalid for the scheme
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/// \details DeriveKey() provides a standard interface to derive a key from
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/// a seed and other parameters. Each class that derives from KeyDerivationFunction
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/// provides an overload that accepts most parameters used by the derivation function.
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/// \details If <tt>timeInSeconds</tt> is <tt>> 0.0</tt> then DeriveKey will run for
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/// the specified amount of time. If <tt>timeInSeconds</tt> is <tt>0.0</tt> then DeriveKey
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/// will run for the specified number of iterations.
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size_t DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen,
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const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds) const;
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protected:
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// KeyDerivationFunction interface
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const Algorithm & GetAlgorithm() const {
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return *this;
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}
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};
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template <class T>
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size_t PKCS12_PBKDF<T>::GetValidDerivedLength(size_t keylength) const
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{
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if (keylength > MaxDerivedKeyLength())
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return MaxDerivedKeyLength();
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return keylength;
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}
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template <class T>
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size_t PKCS12_PBKDF<T>::DeriveKey(byte *derived, size_t derivedLen,
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const byte *secret, size_t secretLen, const NameValuePairs& params) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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byte purpose = (byte)params.GetIntValueWithDefault("Purpose", 0);
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unsigned int iterations = (unsigned int)params.GetIntValueWithDefault("Iterations", 1);
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double timeInSeconds = 0.0f;
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(void)params.GetValue("TimeInSeconds", timeInSeconds);
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// NULL or 0 length salt OK
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ConstByteArrayParameter salt;
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(void)params.GetValue(Name::Salt(), salt);
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return DeriveKey(derived, derivedLen, purpose, secret, secretLen, salt.begin(), salt.size(), iterations, timeInSeconds);
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}
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template <class T>
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size_t PKCS12_PBKDF<T>::DeriveKey(byte *derived, size_t derivedLen, byte purpose, const byte *secret, size_t secretLen, const byte *salt, size_t saltLen, unsigned int iterations, double timeInSeconds) const
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{
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CRYPTOPP_ASSERT(secret /*&& secretLen*/);
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CRYPTOPP_ASSERT(derived && derivedLen);
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CRYPTOPP_ASSERT(derivedLen <= MaxDerivedKeyLength());
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CRYPTOPP_ASSERT(iterations > 0 || timeInSeconds > 0);
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ThrowIfInvalidDerivedKeyLength(derivedLen);
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// Business logic
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if (!iterations) { iterations = 1; }
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const size_t v = T::BLOCKSIZE; // v is in bytes rather than bits as in PKCS #12
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const size_t DLen = v, SLen = RoundUpToMultipleOf(saltLen, v);
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const size_t PLen = RoundUpToMultipleOf(secretLen, v), ILen = SLen + PLen;
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SecByteBlock buffer(DLen + SLen + PLen);
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byte *D = buffer, *S = buffer+DLen, *P = buffer+DLen+SLen, *I = S;
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if (D) // GCC analyzer
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std::memset(D, purpose, DLen);
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size_t i;
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for (i=0; i<SLen; i++)
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S[i] = salt[i % saltLen];
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for (i=0; i<PLen; i++)
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P[i] = secret[i % secretLen];
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T hash;
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SecByteBlock Ai(T::DIGESTSIZE), B(v);
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ThreadUserTimer timer;
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while (derivedLen > 0)
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{
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hash.CalculateDigest(Ai, buffer, buffer.size());
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if (timeInSeconds)
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{
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timeInSeconds = timeInSeconds / ((derivedLen + Ai.size() - 1) / Ai.size());
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timer.StartTimer();
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}
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for (i=1; i<iterations || (timeInSeconds && (i%128!=0 || timer.ElapsedTimeAsDouble() < timeInSeconds)); i++)
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hash.CalculateDigest(Ai, Ai, Ai.size());
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if (timeInSeconds)
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{
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iterations = (unsigned int)i;
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timeInSeconds = 0;
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}
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for (i=0; i<B.size(); i++)
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B[i] = Ai[i % Ai.size()];
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Integer B1(B, B.size());
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++B1;
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for (i=0; i<ILen; i+=v)
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(Integer(I+i, v) + B1).Encode(I+i, v);
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#if CRYPTOPP_MSC_VERSION
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const size_t segmentLen = STDMIN(derivedLen, Ai.size());
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memcpy_s(derived, segmentLen, Ai, segmentLen);
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#else
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const size_t segmentLen = STDMIN(derivedLen, Ai.size());
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std::memcpy(derived, Ai, segmentLen);
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#endif
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derived += segmentLen;
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derivedLen -= segmentLen;
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}
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return iterations;
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}
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NAMESPACE_END
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#endif
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