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https://github.com/shadps4-emu/ext-cryptopp.git
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5861d9342d
Rename regtest3.cpp to regtest4.cpp. Split regtest2.cpp into regtest2.cpp and regtest3.cpp
180 lines
5.8 KiB
C++
180 lines
5.8 KiB
C++
// hkdf.h - written and placed in public domain by Jeffrey Walton.
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/// \file hkdf.h
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/// \brief Classes for HKDF from RFC 5869
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/// \since Crypto++ 5.6.3
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#ifndef CRYPTOPP_HKDF_H
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#define CRYPTOPP_HKDF_H
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#include "cryptlib.h"
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#include "secblock.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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/// \brief Extract-and-Expand Key Derivation Function (HKDF)
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/// \tparam T HashTransformation class
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/// \sa <A HREF="http://eprint.iacr.org/2010/264">Cryptographic Extraction and Key
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/// Derivation: The HKDF Scheme</A> and
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/// <A HREF="http://tools.ietf.org/html/rfc5869">HMAC-based Extract-and-Expand Key
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/// Derivation Function (HKDF)</A>
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/// \since Crypto++ 5.6.3
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template <class T>
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class HKDF : public KeyDerivationFunction
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{
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public:
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virtual ~HKDF() {}
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static std::string StaticAlgorithmName () {
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const std::string name(std::string("HKDF(") +
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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 MaxDerivedLength() const {
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return static_cast<size_t>(T::DIGESTSIZE) * 255;
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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) const;
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/// \brief Derive a key from a 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 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 info the additional input buffer
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/// \param infoLen the size of the info buffer, in bytes
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/// \returns the number of iterations performed
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/// \throws InvalidDerivedLength 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 <tt>salt</tt> and <tt>info</tt> can be <tt>nullptr</tt> with 0 length.
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/// HKDF is unusual in that a non-NULL salt with length 0 is different than a
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/// NULL <tt>salt</tt>. A NULL <tt>salt</tt> causes HKDF to use a string of 0's
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/// of length <tt>T::DIGESTSIZE</tt> for the <tt>salt</tt>.
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/// \details HKDF always returns 1 because it only performs 1 iteration. Other
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/// derivation functions, like PBKDF's, will return more interesting values.
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size_t DeriveKey(byte *derived, size_t derivedLen, const byte *secret, size_t secretLen,
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const byte *salt, size_t saltLen, const byte* info, size_t infoLen) 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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// If salt is absent (NULL), then use the NULL vector. Missing is different than
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// EMPTY (Non-NULL, 0 length). The length of s_NullVector used depends on the Hash
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// function. SHA-256 will use 32 bytes of s_NullVector.
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typedef byte NullVectorType[T::DIGESTSIZE];
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static const NullVectorType& GetNullVector() {
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static const NullVectorType s_NullVector = {0};
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return s_NullVector;
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}
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};
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template <class T>
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size_t HKDF<T>::GetValidDerivedLength(size_t keylength) const
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{
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if (keylength > MaxDerivedLength())
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return MaxDerivedLength();
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return keylength;
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}
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template <class T>
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size_t HKDF<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 <= MaxDerivedLength());
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ConstByteArrayParameter p;
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SecByteBlock salt, info;
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if (params.GetValue("Salt", p))
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salt.Assign(p.begin(), p.size());
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else
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salt.Assign(GetNullVector(), T::DIGESTSIZE);
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if (params.GetValue("Info", p))
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info.Assign(p.begin(), p.size());
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else
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info.Assign(GetNullVector(), 0);
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return DeriveKey(derived, derivedLen, secret, secretLen, salt.begin(), salt.size(), info.begin(), info.size());
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}
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template <class T>
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size_t HKDF<T>::DeriveKey(byte *derived, size_t derivedLen, const byte *secret, size_t secretLen,
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const byte *salt, size_t saltLen, const byte* info, size_t infoLen) 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 <= MaxDerivedLength());
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ThrowIfInvalidDerivedLength(derivedLen);
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// HKDF business logic. NULL is different than empty.
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if (salt == NULLPTR)
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{
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salt = GetNullVector();
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saltLen = T::DIGESTSIZE;
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}
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// key is PRK from the RFC, salt is IKM from the RFC
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HMAC<T> hmac;
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SecByteBlock key(T::DIGESTSIZE), buffer(T::DIGESTSIZE);
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// Extract
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hmac.SetKey(salt, saltLen);
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hmac.CalculateDigest(key, secret, secretLen);
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// Key
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hmac.SetKey(key.begin(), key.size());
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byte block = 0;
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// Expand
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while (derivedLen > 0)
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{
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if (block++) {hmac.Update(buffer, buffer.size());}
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if (infoLen) {hmac.Update(info, infoLen);}
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hmac.CalculateDigest(buffer, &block, 1);
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#if CRYPTOPP_MSC_VERSION
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const size_t digestSize = static_cast<size_t>(T::DIGESTSIZE);
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const size_t segmentLen = STDMIN(derivedLen, digestSize);
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memcpy_s(derived, segmentLen, buffer, segmentLen);
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#else
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const size_t digestSize = static_cast<size_t>(T::DIGESTSIZE);
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const size_t segmentLen = STDMIN(derivedLen, digestSize);
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std::memcpy(derived, buffer, 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 1;
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}
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NAMESPACE_END
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#endif // CRYPTOPP_HKDF_H
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