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/*
* Streebog
* (C) 2017 Ribose Inc.
* (C) 2018 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/internal/streebog.h>
#include <botan/internal/loadstor.h>
#include <botan/exceptn.h>
namespace Botan {
extern const uint64_t STREEBOG_Ax[8][256];
extern const uint64_t STREEBOG_C[12][8];
std::unique_ptr<HashFunction> Streebog::copy_state() const
{
return std::unique_ptr<HashFunction>(new Streebog(*this));
}
Streebog::Streebog(size_t output_bits) :
m_output_bits(output_bits),
m_count(0),
m_position(0),
m_buffer(64),
m_h(8),
m_S(8)
{
if(output_bits != 256 && output_bits != 512)
throw Invalid_Argument("Streebog: Invalid output length " +
std::to_string(output_bits));
clear();
}
std::string Streebog::name() const
{
return "Streebog-" + std::to_string(m_output_bits);
}
/*
* Clear memory of sensitive data
*/
void Streebog::clear()
{
m_count = 0;
m_position = 0;
zeroise(m_buffer);
zeroise(m_S);
const uint64_t fill = (m_output_bits == 512) ? 0 : 0x0101010101010101;
std::fill(m_h.begin(), m_h.end(), fill);
}
/*
* Update the hash
*/
void Streebog::add_data(const uint8_t input[], size_t length)
{
const size_t block_size = m_buffer.size();
if(m_position)
{
buffer_insert(m_buffer, m_position, input, length);
if(m_position + length >= block_size)
{
compress(m_buffer.data());
m_count += 512;
input += (block_size - m_position);
length -= (block_size - m_position);
m_position = 0;
}
}
const size_t full_blocks = length / block_size;
const size_t remaining = length % block_size;
for(size_t i = 0; i != full_blocks; ++i)
{
compress(input + block_size * i);
m_count += 512;
}
buffer_insert(m_buffer, m_position, input + full_blocks * block_size, remaining);
m_position += remaining;
}
/*
* Finalize a hash
*/
void Streebog::final_result(uint8_t output[])
{
m_buffer[m_position++] = 0x01;
if(m_position != m_buffer.size())
clear_mem(&m_buffer[m_position], m_buffer.size() - m_position);
compress(m_buffer.data());
m_count += (m_position - 1) * 8;
zeroise(m_buffer);
store_le(m_count, m_buffer.data());
compress(m_buffer.data(), true);
compress_64(m_S.data(), true);
// FIXME
std::memcpy(output, &m_h[8 - output_length() / 8], output_length());
clear();
}
namespace {
inline uint64_t force_le(uint64_t x)
{
#if defined(BOTAN_TARGET_CPU_IS_LITTLE_ENDIAN)
return x;
#elif defined(BOTAN_TARGET_CPU_IS_BIG_ENDIAN)
return reverse_bytes(x);
#else
store_le(x, reinterpret_cast<uint8_t*>(&x));
return x;
#endif
}
inline void lps(uint64_t block[8])
{
uint8_t r[64];
// FIXME
std::memcpy(r, block, 64);
for(int i = 0; i < 8; ++i)
{
block[i] = force_le(STREEBOG_Ax[0][r[i + 0*8]]) ^
force_le(STREEBOG_Ax[1][r[i + 1*8]]) ^
force_le(STREEBOG_Ax[2][r[i + 2*8]]) ^
force_le(STREEBOG_Ax[3][r[i + 3*8]]) ^
force_le(STREEBOG_Ax[4][r[i + 4*8]]) ^
force_le(STREEBOG_Ax[5][r[i + 5*8]]) ^
force_le(STREEBOG_Ax[6][r[i + 6*8]]) ^
force_le(STREEBOG_Ax[7][r[i + 7*8]]);
}
}
} //namespace
void Streebog::compress(const uint8_t input[], bool last_block)
{
uint64_t M[8];
std::memcpy(M, input, 64);
compress_64(M, last_block);
}
void Streebog::compress_64(const uint64_t M[], bool last_block)
{
uint64_t N = force_le(last_block ? 0ULL : m_count);
uint64_t hN[8];
uint64_t A[8];
copy_mem(hN, m_h.data(), 8);
hN[0] ^= N;
lps(hN);
copy_mem(A, hN, 8);
for(size_t i = 0; i != 8; ++i)
{
hN[i] ^= M[i];
}
for(size_t i = 0; i < 12; ++i)
{
for(size_t j = 0; j != 8; ++j)
A[j] ^= force_le(STREEBOG_C[i][j]);
lps(A);
lps(hN);
for(size_t j = 0; j != 8; ++j)
hN[j] ^= A[j];
}
for(size_t i = 0; i != 8; ++i)
{
m_h[i] ^= hN[i] ^ M[i];
}
if(!last_block)
{
uint64_t carry = 0;
for(int i = 0; i < 8; i++)
{
const uint64_t m = force_le(M[i]);
const uint64_t hi = force_le(m_S[i]);
const uint64_t t = hi + m + carry;
m_S[i] = force_le(t);
if(t != m)
carry = (t < m);
}
}
}
}
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