ext-cryptopp/strciphr.cpp

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// strciphr.cpp - originally written and placed in the public domain by Wei Dai
2015-11-05 06:59:46 +00:00
#include "pch.h"
#ifndef CRYPTOPP_IMPORTS
#include "strciphr.h"
NAMESPACE_BEGIN(CryptoPP)
template <class S>
void AdditiveCipherTemplate<S>::UncheckedSetKey(const byte *key, unsigned int length, const NameValuePairs &params)
{
PolicyInterface &policy = this->AccessPolicy();
policy.CipherSetKey(params, key, length);
m_leftOver = 0;
unsigned int bufferByteSize = policy.CanOperateKeystream() ? GetBufferByteSize(policy) : RoundUpToMultipleOf(1024U, GetBufferByteSize(policy));
m_buffer.New(bufferByteSize);
if (this->IsResynchronizable())
{
size_t ivLength;
const byte *iv = this->GetIVAndThrowIfInvalid(params, ivLength);
policy.CipherResynchronize(m_buffer, iv, ivLength);
}
}
template <class S>
void AdditiveCipherTemplate<S>::GenerateBlock(byte *outString, size_t length)
{
if (m_leftOver > 0)
{
size_t len = STDMIN(m_leftOver, length);
memcpy(outString, KeystreamBufferEnd()-m_leftOver, len);
length -= len;
m_leftOver -= len;
outString += len;
if (!length)
return;
}
CRYPTOPP_ASSERT(m_leftOver == 0);
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PolicyInterface &policy = this->AccessPolicy();
unsigned int bytesPerIteration = policy.GetBytesPerIteration();
if (length >= bytesPerIteration)
{
size_t iterations = length / bytesPerIteration;
policy.WriteKeystream(outString, iterations);
outString += iterations * bytesPerIteration;
length -= iterations * bytesPerIteration;
}
if (length > 0)
{
size_t bufferByteSize = RoundUpToMultipleOf(length, bytesPerIteration);
size_t bufferIterations = bufferByteSize / bytesPerIteration;
policy.WriteKeystream(KeystreamBufferEnd()-bufferByteSize, bufferIterations);
memcpy(outString, KeystreamBufferEnd()-bufferByteSize, length);
m_leftOver = bufferByteSize - length;
}
}
template <class S>
void AdditiveCipherTemplate<S>::ProcessData(byte *outString, const byte *inString, size_t length)
{
if (m_leftOver > 0)
{
size_t len = STDMIN(m_leftOver, length);
xorbuf(outString, inString, KeystreamBufferEnd()-m_leftOver, len);
length -= len;
m_leftOver -= len;
inString += len;
outString += len;
if (!length)
return;
}
CRYPTOPP_ASSERT(m_leftOver == 0);
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PolicyInterface &policy = this->AccessPolicy();
unsigned int bytesPerIteration = policy.GetBytesPerIteration();
if (policy.CanOperateKeystream() && length >= bytesPerIteration)
{
size_t iterations = length / bytesPerIteration;
unsigned int alignment = policy.GetAlignment();
KeystreamOperation operation = KeystreamOperation((IsAlignedOn(inString, alignment) * 2) | (int)IsAlignedOn(outString, alignment));
policy.OperateKeystream(operation, outString, inString, iterations);
inString += iterations * bytesPerIteration;
outString += iterations * bytesPerIteration;
length -= iterations * bytesPerIteration;
if (!length)
return;
}
size_t bufferByteSize = m_buffer.size();
size_t bufferIterations = bufferByteSize / bytesPerIteration;
while (length >= bufferByteSize)
{
policy.WriteKeystream(m_buffer, bufferIterations);
xorbuf(outString, inString, KeystreamBufferBegin(), bufferByteSize);
length -= bufferByteSize;
inString += bufferByteSize;
outString += bufferByteSize;
}
if (length > 0)
{
bufferByteSize = RoundUpToMultipleOf(length, bytesPerIteration);
bufferIterations = bufferByteSize / bytesPerIteration;
policy.WriteKeystream(KeystreamBufferEnd()-bufferByteSize, bufferIterations);
xorbuf(outString, inString, KeystreamBufferEnd()-bufferByteSize, length);
m_leftOver = bufferByteSize - length;
}
}
template <class S>
void AdditiveCipherTemplate<S>::Resynchronize(const byte *iv, int length)
{
PolicyInterface &policy = this->AccessPolicy();
m_leftOver = 0;
m_buffer.New(GetBufferByteSize(policy));
policy.CipherResynchronize(m_buffer, iv, this->ThrowIfInvalidIVLength(length));
}
template <class BASE>
void AdditiveCipherTemplate<BASE>::Seek(lword position)
{
PolicyInterface &policy = this->AccessPolicy();
unsigned int bytesPerIteration = policy.GetBytesPerIteration();
policy.SeekToIteration(position / bytesPerIteration);
position %= bytesPerIteration;
if (position > 0)
{
policy.WriteKeystream(KeystreamBufferEnd()-bytesPerIteration, 1);
m_leftOver = bytesPerIteration - (unsigned int)position;
}
else
m_leftOver = 0;
}
template <class BASE>
void CFB_CipherTemplate<BASE>::UncheckedSetKey(const byte *key, unsigned int length, const NameValuePairs &params)
{
PolicyInterface &policy = this->AccessPolicy();
policy.CipherSetKey(params, key, length);
if (this->IsResynchronizable())
{
size_t ivLength;
const byte *iv = this->GetIVAndThrowIfInvalid(params, ivLength);
policy.CipherResynchronize(iv, ivLength);
}
m_leftOver = policy.GetBytesPerIteration();
}
template <class BASE>
void CFB_CipherTemplate<BASE>::Resynchronize(const byte *iv, int length)
{
PolicyInterface &policy = this->AccessPolicy();
policy.CipherResynchronize(iv, this->ThrowIfInvalidIVLength(length));
m_leftOver = policy.GetBytesPerIteration();
}
template <class BASE>
void CFB_CipherTemplate<BASE>::ProcessData(byte *outString, const byte *inString, size_t length)
{
CRYPTOPP_ASSERT(length % this->MandatoryBlockSize() == 0);
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PolicyInterface &policy = this->AccessPolicy();
unsigned int bytesPerIteration = policy.GetBytesPerIteration();
unsigned int alignment = policy.GetAlignment();
byte *reg = policy.GetRegisterBegin();
if (m_leftOver)
{
size_t len = STDMIN(m_leftOver, length);
CombineMessageAndShiftRegister(outString, reg + bytesPerIteration - m_leftOver, inString, len);
m_leftOver -= len;
length -= len;
inString += len;
outString += len;
}
if (!length)
return;
CRYPTOPP_ASSERT(m_leftOver == 0);
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if (policy.CanIterate() && length >= bytesPerIteration && IsAlignedOn(outString, alignment))
{
if (IsAlignedOn(inString, alignment))
policy.Iterate(outString, inString, GetCipherDir(*this), length / bytesPerIteration);
else
{
memcpy(outString, inString, length);
policy.Iterate(outString, outString, GetCipherDir(*this), length / bytesPerIteration);
}
inString += length - length % bytesPerIteration;
outString += length - length % bytesPerIteration;
length %= bytesPerIteration;
}
while (length >= bytesPerIteration)
{
policy.TransformRegister();
CombineMessageAndShiftRegister(outString, reg, inString, bytesPerIteration);
length -= bytesPerIteration;
inString += bytesPerIteration;
outString += bytesPerIteration;
}
if (length > 0)
{
policy.TransformRegister();
CombineMessageAndShiftRegister(outString, reg, inString, length);
m_leftOver = bytesPerIteration - length;
}
}
template <class BASE>
void CFB_EncryptionTemplate<BASE>::CombineMessageAndShiftRegister(byte *output, byte *reg, const byte *message, size_t length)
{
xorbuf(reg, message, length);
memcpy(output, reg, length);
}
template <class BASE>
void CFB_DecryptionTemplate<BASE>::CombineMessageAndShiftRegister(byte *output, byte *reg, const byte *message, size_t length)
{
for (unsigned int i=0; i<length; i++)
{
byte b = message[i];
output[i] = reg[i] ^ b;
reg[i] = b;
}
}
NAMESPACE_END
#endif