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/* whirlpool.c - an implementation of the Whirlpool Hash Function. |
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* |
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* Copyright: 2009-2012 Aleksey Kravchenko |
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* |
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* Permission is hereby granted, free of charge, to any person obtaining a |
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* copy of this software and associated documentation files (the "Software"), |
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* to deal in the Software without restriction, including without limitation |
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* the rights to use, copy, modify, merge, publish, distribute, sublicense, |
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* and/or sell copies of the Software, and to permit persons to whom the |
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* Software is furnished to do so. |
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* |
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* This program is distributed in the hope that it will be useful, but |
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY |
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* or FITNESS FOR A PARTICULAR PURPOSE. Use this program at your own risk! |
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* |
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* Documentation: |
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* P. S. L. M. Barreto, V. Rijmen, ``The Whirlpool hashing function,'' |
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* NESSIE submission, 2000 (tweaked version, 2001) |
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* |
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* The algorithm is named after the Whirlpool Galaxy in Canes Venatici. |
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*/ |
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#include |
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#include |
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#include "byte_order.h" |
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#include "whirlpool.h" |
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/** |
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* Initialize context before calculaing hash. |
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* |
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* @param ctx context to initialize |
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*/ |
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void rhash_whirlpool_init(struct whirlpool_ctx* ctx) |
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{ |
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ctx->length = 0; |
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memset(ctx->hash, 0, sizeof(ctx->hash)); |
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} |
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/* Algorithm S-Box */ |
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extern uint64_t rhash_whirlpool_sbox[8][256]; |
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#define WHIRLPOOL_OP(src, shift) ( \ |
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rhash_whirlpool_sbox[0][(int)(src[ shift & 7] >> 56) ] ^ \ |
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rhash_whirlpool_sbox[1][(int)(src[(shift + 7) & 7] >> 48) & 0xff] ^ \ |
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rhash_whirlpool_sbox[2][(int)(src[(shift + 6) & 7] >> 40) & 0xff] ^ \ |
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rhash_whirlpool_sbox[3][(int)(src[(shift + 5) & 7] >> 32) & 0xff] ^ \ |
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rhash_whirlpool_sbox[4][(int)(src[(shift + 4) & 7] >> 24) & 0xff] ^ \ |
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rhash_whirlpool_sbox[5][(int)(src[(shift + 3) & 7] >> 16) & 0xff] ^ \ |
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rhash_whirlpool_sbox[6][(int)(src[(shift + 2) & 7] >> 8) & 0xff] ^ \ |
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rhash_whirlpool_sbox[7][(int)(src[(shift + 1) & 7] ) & 0xff]) |
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/** |
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* The core transformation. Process a 512-bit block. |
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* |
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* @param hash algorithm state |
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* @param block the message block to process |
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*/ |
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static void rhash_whirlpool_process_block(uint64_t *hash, uint64_t* p_block) |
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{ |
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int i; /* loop counter */ |
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uint64_t K[2][8]; /* key */ |
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uint64_t state[2][8]; /* state */ |
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64
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/* alternating binary flags */ |
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2
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unsigned int m = 0; |
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/* the number of rounds of the internal dedicated block cipher */ |
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2
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const int number_of_rounds = 10; |
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/* array used in the rounds */ |
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static const uint64_t rc[10] = { |
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I64(0x1823c6e887b8014f), |
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I64(0x36a6d2f5796f9152), |
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I64(0x60bc9b8ea30c7b35), |
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I64(0x1de0d7c22e4bfe57), |
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I64(0x157737e59ff04ada), |
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I64(0x58c9290ab1a06b85), |
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I64(0xbd5d10f4cb3e0567), |
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I64(0xe427418ba77d95d8), |
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I64(0xfbee7c66dd17479e), |
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I64(0xca2dbf07ad5a8333) |
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}; |
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/* map the message buffer to a block */ |
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100
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for (i = 0; i < 8; i++) { |
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/* store K^0 and xor it with the intermediate hash state */ |
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K[0][i] = hash[i]; |
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state[0][i] = be2me_64(p_block[i]) ^ hash[i]; |
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hash[i] = state[0][i]; |
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} |
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/* iterate over algorithm rounds */ |
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100
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for (i = 0; i < number_of_rounds; i++) |
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{ |
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/* compute K^i from K^{i-1} */ |
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K[m ^ 1][0] = WHIRLPOOL_OP(K[m], 0) ^ rc[i]; |
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K[m ^ 1][1] = WHIRLPOOL_OP(K[m], 1); |
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K[m ^ 1][2] = WHIRLPOOL_OP(K[m], 2); |
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K[m ^ 1][3] = WHIRLPOOL_OP(K[m], 3); |
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K[m ^ 1][4] = WHIRLPOOL_OP(K[m], 4); |
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K[m ^ 1][5] = WHIRLPOOL_OP(K[m], 5); |
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K[m ^ 1][6] = WHIRLPOOL_OP(K[m], 6); |
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K[m ^ 1][7] = WHIRLPOOL_OP(K[m], 7); |
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/* apply the i-th round transformation */ |
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state[m ^ 1][0] = WHIRLPOOL_OP(state[m], 0) ^ K[m ^ 1][0]; |
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state[m ^ 1][1] = WHIRLPOOL_OP(state[m], 1) ^ K[m ^ 1][1]; |
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state[m ^ 1][2] = WHIRLPOOL_OP(state[m], 2) ^ K[m ^ 1][2]; |
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state[m ^ 1][3] = WHIRLPOOL_OP(state[m], 3) ^ K[m ^ 1][3]; |
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state[m ^ 1][4] = WHIRLPOOL_OP(state[m], 4) ^ K[m ^ 1][4]; |
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state[m ^ 1][5] = WHIRLPOOL_OP(state[m], 5) ^ K[m ^ 1][5]; |
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state[m ^ 1][6] = WHIRLPOOL_OP(state[m], 6) ^ K[m ^ 1][6]; |
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state[m ^ 1][7] = WHIRLPOOL_OP(state[m], 7) ^ K[m ^ 1][7]; |
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115
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m = m ^ 1; |
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} |
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/* apply the Miyaguchi-Preneel compression function */ |
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hash[0] ^= state[0][0]; |
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hash[1] ^= state[0][1]; |
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hash[2] ^= state[0][2]; |
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hash[3] ^= state[0][3]; |
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hash[4] ^= state[0][4]; |
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hash[5] ^= state[0][5]; |
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hash[6] ^= state[0][6]; |
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hash[7] ^= state[0][7]; |
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} |
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129
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/** |
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* Calculate message hash. |
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* Can be called repeatedly with chunks of the message to be hashed. |
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* |
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* @param ctx the algorithm context containing current hashing state |
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* @param msg message chunk |
135
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* @param size length of the message chunk |
136
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*/ |
137
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2
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void rhash_whirlpool_update(whirlpool_ctx *ctx, const unsigned char* msg, size_t size) |
138
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{ |
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2
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unsigned index = (unsigned)ctx->length & 63; |
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unsigned left; |
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2
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ctx->length += size; |
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143
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/* fill partial block */ |
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2
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50
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if (index) { |
145
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0
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left = whirlpool_block_size - index; |
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0
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memcpy(ctx->message + index, msg, (size < left ? size : left)); |
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0
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0
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if (size < left) return; |
148
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149
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/* process partial block */ |
150
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0
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rhash_whirlpool_process_block(ctx->hash, (uint64_t*)ctx->message); |
151
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0
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msg += left; |
152
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0
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size -= left; |
153
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} |
154
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2
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50
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while (size >= whirlpool_block_size) { |
155
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uint64_t* aligned_message_block; |
156
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0
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0
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if (IS_ALIGNED_64(msg)) { |
157
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/* the most common case is processing of an already aligned message |
158
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without copying it */ |
159
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0
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aligned_message_block = (uint64_t*)msg; |
160
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} else { |
161
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0
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memcpy(ctx->message, msg, whirlpool_block_size); |
162
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0
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aligned_message_block = (uint64_t*)ctx->message; |
163
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} |
164
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165
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0
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rhash_whirlpool_process_block(ctx->hash, aligned_message_block); |
166
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0
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msg += whirlpool_block_size; |
167
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0
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size -= whirlpool_block_size; |
168
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} |
169
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2
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50
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if (size) { |
170
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/* save leftovers */ |
171
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2
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memcpy(ctx->message, msg, size); |
172
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} |
173
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} |
174
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175
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/** |
176
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* Store calculated hash into the given array. |
177
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* |
178
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* @param ctx the algorithm context containing current hashing state |
179
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* @param result calculated hash in binary form |
180
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*/ |
181
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2
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void rhash_whirlpool_final(whirlpool_ctx *ctx, unsigned char* result) |
182
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{ |
183
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2
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unsigned index = (unsigned)ctx->length & 63; |
184
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2
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uint64_t* msg64 = (uint64_t*)ctx->message; |
185
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186
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/* pad message and run for last block */ |
187
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2
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ctx->message[index++] = 0x80; |
188
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189
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/* if no room left in the message to store 256-bit message length */ |
190
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2
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50
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if (index > 32) { |
191
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/* then pad the rest with zeros and process it */ |
192
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0
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0
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while (index < 64) { |
193
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0
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ctx->message[index++] = 0; |
194
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} |
195
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0
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rhash_whirlpool_process_block(ctx->hash, msg64); |
196
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0
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index = 0; |
197
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} |
198
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/* due to optimization actually only 64-bit of message length are stored */ |
199
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110
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100
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while (index < 56) { |
200
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108
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ctx->message[index++] = 0; |
201
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} |
202
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2
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msg64[7] = be2me_64(ctx->length << 3); |
203
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2
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rhash_whirlpool_process_block(ctx->hash, msg64); |
204
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205
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/* save result hash */ |
206
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2
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be64_copy(result, 0, ctx->hash, 64); |
207
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2
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} |