/src/botan/src/lib/hash/streebog/streebog.cpp

Source (jump to first uncovered line)
/*
* 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/exceptn.h>
#include <botan/internal/fmt.h>
#include <botan/internal/loadstor.h>
#include <botan/internal/stl_util.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::make_unique<Streebog>(*this);
}

Streebog::Streebog(size_t output_bits) : m_output_bits(output_bits), m_count(0), m_h(8), m_S(8) {
   if(output_bits != 256 && output_bits != 512) {
      throw Invalid_Argument(fmt("Streebog: Invalid output length {}", output_bits));
   }

   clear();
}

std::string Streebog::name() const {
   return fmt("Streebog-{}", m_output_bits);
}

/*
* Clear memory of sensitive data
*/
void Streebog::clear() {
   m_count = 0;
   m_buffer.clear();
   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(std::span<const uint8_t> input) {
   BufferSlicer in(input);

   while(!in.empty()) {
      if(const auto one_block = m_buffer.handle_unaligned_data(in)) {
         compress(one_block->data());
         m_count += 512;
      }

      if(m_buffer.in_alignment()) {
         while(const auto aligned_block = m_buffer.next_aligned_block_to_process(in)) {
            compress(aligned_block->data());
            m_count += 512;
         }
      }
   }
}

/*
* Finalize a hash
*/
void Streebog::final_result(std::span<uint8_t> output) {
   const auto pos = m_buffer.elements_in_buffer();

   const uint8_t padding = 0x01;
   m_buffer.append({&padding, 1});
   m_buffer.fill_up_with_zeros();

   compress(m_buffer.consume().data());
   m_count += pos * 8;

   m_buffer.fill_up_with_zeros();
   store_le(m_count, m_buffer.directly_modify_first(sizeof(m_count)).data());
   compress(m_buffer.consume().data(), true);

   compress_64(m_S.data(), true);
   // FIXME
   std::memcpy(output.data(), &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) {
   const uint64_t N = last_block ? 0 : force_le(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);
         }
      }
   }
}

}  // namespace Botan

Line	Count	Source (jump to first uncovered line)
1		/*
2		* Streebog
3		* (C) 2017 Ribose Inc.
4		* (C) 2018 Jack Lloyd
5		*
6		* Botan is released under the Simplified BSD License (see license.txt)
7		*/
8
9		#include <botan/internal/streebog.h>
10
11		#include <botan/exceptn.h>
12		#include <botan/internal/fmt.h>
13		#include <botan/internal/loadstor.h>
14		#include <botan/internal/stl_util.h>
15
16		namespace Botan {
17
18		extern const uint64_t STREEBOG_Ax[8][256];
19		extern const uint64_t STREEBOG_C[12][8];
20
21	0	std::unique_ptr<HashFunction> Streebog::copy_state() const {
22	0	return std::make_unique<Streebog>(*this);
23	0	}
24
25	700	Streebog::Streebog(size_t output_bits) : m_output_bits(output_bits), m_count(0), m_h(8), m_S(8) {
26	700	if(output_bits != 256 && output_bits != 512) {
27	0	throw Invalid_Argument(fmt("Streebog: Invalid output length {}", output_bits));
28	0	}
29
30	700	clear();
31	700	}
32
33	4	std::string Streebog::name() const {
34	4	return fmt("Streebog-{}", m_output_bits);
35	4	}
36
37		/*
38		* Clear memory of sensitive data
39		*/
40	33.9k	void Streebog::clear() {
41	33.9k	m_count = 0;
42	33.9k	m_buffer.clear();
43	33.9k	zeroise(m_S);
44
45	33.9k	const uint64_t fill = (m_output_bits == 512) ? 0 : 0x0101010101010101;
46	33.9k	std::fill(m_h.begin(), m_h.end(), fill);
47	33.9k	}
48
49		/*
50		* Update the hash
51		*/
52	124k	void Streebog::add_data(std::span<const uint8_t> input) {
53	124k	BufferSlicer in(input);
54
55	219k	while(!in.empty()) {
56	95.3k	if(const auto one_block = m_buffer.handle_unaligned_data(in)) {
57	3.70k	compress(one_block->data());
58	3.70k	m_count += 512;
59	3.70k	}
60
61	95.3k	if(m_buffer.in_alignment()) {
62	360k	while(const auto aligned_block = m_buffer.next_aligned_block_to_process(in)) {
63	300k	compress(aligned_block->data());
64	300k	m_count += 512;
65	300k	}
66	59.9k	}
67	95.3k	}
68	124k	}
69
70		/*
71		* Finalize a hash
72		*/
73	32.8k	void Streebog::final_result(std::span<uint8_t> output) {
74	32.8k	const auto pos = m_buffer.elements_in_buffer();
75
76	32.8k	const uint8_t padding = 0x01;
77	32.8k	m_buffer.append({&padding, 1});
78	32.8k	m_buffer.fill_up_with_zeros();
79
80	32.8k	compress(m_buffer.consume().data());
81	32.8k	m_count += pos * 8;
82
83	32.8k	m_buffer.fill_up_with_zeros();
84	32.8k	store_le(m_count, m_buffer.directly_modify_first(sizeof(m_count)).data());
85	32.8k	compress(m_buffer.consume().data(), true);
86
87	32.8k	compress_64(m_S.data(), true);
88		// FIXME
89	32.8k	std::memcpy(output.data(), &m_h[8 - output_length() / 8], output_length());
90	32.8k	clear();
91	32.8k	}
92
93		namespace {
94
95	691M	inline uint64_t force_le(uint64_t x) {
96	691M	#if defined(BOTAN_TARGET_CPU_IS_LITTLE_ENDIAN)
97	691M	return x;
98		#elif defined(BOTAN_TARGET_CPU_IS_BIG_ENDIAN)
99		return reverse_bytes(x);
100		#else
101		store_le(x, reinterpret_cast<uint8_t*>(&x));
102		return x;
103		#endif
104	691M	}
105
106	10.0M	inline void lps(uint64_t block[8]) {
107	10.0M	uint8_t r[64];
108		// FIXME
109	10.0M	std::memcpy(r, block, 64);
110
111	90.5M	for(int i = 0; i < 8; ++i) {
112	80.5M	block[i] = force_le(STREEBOG_Ax[0][r[i + 0 * 8]]) ^ force_le(STREEBOG_Ax[1][r[i + 1 * 8]]) ^
113	80.5M	force_le(STREEBOG_Ax[2][r[i + 2 * 8]]) ^ force_le(STREEBOG_Ax[3][r[i + 3 * 8]]) ^
114	80.5M	force_le(STREEBOG_Ax[4][r[i + 4 * 8]]) ^ force_le(STREEBOG_Ax[5][r[i + 5 * 8]]) ^
115	80.5M	force_le(STREEBOG_Ax[6][r[i + 6 * 8]]) ^ force_le(STREEBOG_Ax[7][r[i + 7 * 8]]);
116	80.5M	}
117	10.0M	}
118
119		} //namespace
120
121	369k	void Streebog::compress(const uint8_t input[], bool last_block) {
122	369k	uint64_t M[8];
123	369k	std::memcpy(M, input, 64);
124
125	369k	compress_64(M, last_block);
126	369k	}
127
128	402k	void Streebog::compress_64(const uint64_t M[], bool last_block) {
129	402k	const uint64_t N = last_block ? 0 : force_le(m_count);
130
131	402k	uint64_t hN[8];
132	402k	uint64_t A[8];
133
134	402k	copy_mem(hN, m_h.data(), 8);
135	402k	hN[0] ^= N;
136	402k	lps(hN);
137
138	402k	copy_mem(A, hN, 8);
139
140	3.62M	for(size_t i = 0; i != 8; ++i) {
141	3.22M	hN[i] ^= M[i];
142	3.22M	}
143
144	5.23M	for(size_t i = 0; i < 12; ++i) {
145	43.4M	for(size_t j = 0; j != 8; ++j) {
146	38.6M	A[j] ^= force_le(STREEBOG_C[i][j]);
147	38.6M	}
148	4.83M	lps(A);
149
150	4.83M	lps(hN);
151	43.4M	for(size_t j = 0; j != 8; ++j) {
152	38.6M	hN[j] ^= A[j];
153	38.6M	}
154	4.83M	}
155
156	3.62M	for(size_t i = 0; i != 8; ++i) {
157	3.22M	m_h[i] ^= hN[i] ^ M[i];
158	3.22M	}
159
160	402k	if(!last_block) {
161	336k	uint64_t carry = 0;
162	3.03M	for(int i = 0; i < 8; i++) {
163	2.69M	const uint64_t m = force_le(M[i]);
164	2.69M	const uint64_t hi = force_le(m_S[i]);
165	2.69M	const uint64_t t = hi + m + carry;
166
167	2.69M	m_S[i] = force_le(t);
168	2.69M	if(t != m) {
169	2.42M	carry = (t < m);
170	2.42M	}
171	2.69M	}
172	336k	}
173	402k	}
174
175		} // namespace Botan

Coverage Report

Created: 2024-02-25 06:16