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406 lines
14 KiB
406 lines
14 KiB
9 years ago
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/**
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* A simple implementation of Blake2b's internal permutation
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* in the form of a sponge.
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*
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* Author: The Lyra PHC team (http://www.lyra-kdf.net/) -- 2014.
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*
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* This software is hereby placed in the public domain.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHORS ''AS IS'' AND ANY EXPRESS
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* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE
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* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
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* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <string.h>
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#include <stdio.h>
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#include <time.h>
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#include "Sponge_old.h"
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#include "Lyra2_old.h"
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/**
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* Initializes the Sponge State. The first 512 bits are set to zeros and the remainder
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* receive Blake2b's IV as per Blake2b's specification. <b>Note:</b> Even though sponges
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* typically have their internal state initialized with zeros, Blake2b's G function
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* has a fixed point: if the internal state and message are both filled with zeros. the
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* resulting permutation will always be a block filled with zeros; this happens because
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* Blake2b does not use the constants originally employed in Blake2 inside its G function,
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* relying on the IV for avoiding possible fixed points.
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*
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* @param state The 1024-bit array to be initialized
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*/
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inline void initStateO(uint64_t state[/*16*/]) {
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//First 512 bis are zeros
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memset(state, 0, 64);
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//Remainder BLOCK_LEN_BLAKE2_SAFE_BYTES are reserved to the IV
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state[8] = blake2b_IV[0];
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state[9] = blake2b_IV[1];
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state[10] = blake2b_IV[2];
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state[11] = blake2b_IV[3];
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state[12] = blake2b_IV[4];
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state[13] = blake2b_IV[5];
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state[14] = blake2b_IV[6];
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state[15] = blake2b_IV[7];
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}
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/**
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* Execute Blake2b's G function, with all 12 rounds.
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*
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* @param v A 1024-bit (16 uint64_t) array to be processed by Blake2b's G function
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*/
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inline static void blake2bLyra(uint64_t *v) {
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ROUND_LYRA(0);
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ROUND_LYRA(1);
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ROUND_LYRA(2);
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ROUND_LYRA(3);
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ROUND_LYRA(4);
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ROUND_LYRA(5);
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ROUND_LYRA(6);
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ROUND_LYRA(7);
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ROUND_LYRA(8);
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ROUND_LYRA(9);
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ROUND_LYRA(10);
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ROUND_LYRA(11);
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}
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/**
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* Executes a reduced version of Blake2b's G function with only one round
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* @param v A 1024-bit (16 uint64_t) array to be processed by Blake2b's G function
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*/
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inline static void reducedBlake2bLyra(uint64_t *v) {
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ROUND_LYRA(0);
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}
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/**
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* Performs a squeeze operation, using Blake2b's G function as the
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* internal permutation
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*
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* @param state The current state of the sponge
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* @param out Array that will receive the data squeezed
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* @param len The number of bytes to be squeezed into the "out" array
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*/
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inline void squeezeO(uint64_t *state, byte *out, unsigned int len) {
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int fullBlocks = len / BLOCK_LEN_BYTES;
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byte *ptr = out;
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int i;
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//Squeezes full blocks
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for (i = 0; i < fullBlocks; i++) {
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memcpy(ptr, state, BLOCK_LEN_BYTES);
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blake2bLyra(state);
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ptr += BLOCK_LEN_BYTES;
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}
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//Squeezes remaining bytes
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memcpy(ptr, state, (len % BLOCK_LEN_BYTES));
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}
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/**
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* Performs an absorb operation for a single block (BLOCK_LEN_INT64 words
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* of type uint64_t), using Blake2b's G function as the internal permutation
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*
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* @param state The current state of the sponge
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* @param in The block to be absorbed (BLOCK_LEN_INT64 words)
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*/
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inline void absorbBlockO(uint64_t *state, const uint64_t *in) {
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//XORs the first BLOCK_LEN_INT64 words of "in" with the current state
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state[0] ^= in[0];
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state[1] ^= in[1];
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state[2] ^= in[2];
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state[3] ^= in[3];
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state[4] ^= in[4];
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state[5] ^= in[5];
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state[6] ^= in[6];
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state[7] ^= in[7];
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state[8] ^= in[8];
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state[9] ^= in[9];
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state[10] ^= in[10];
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state[11] ^= in[11];
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//Applies the transformation f to the sponge's state
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blake2bLyra(state);
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}
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/**
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* Performs an absorb operation for a single block (BLOCK_LEN_BLAKE2_SAFE_INT64
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* words of type uint64_t), using Blake2b's G function as the internal permutation
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*
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* @param state The current state of the sponge
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* @param in The block to be absorbed (BLOCK_LEN_BLAKE2_SAFE_INT64 words)
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*/
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inline void absorbBlockBlake2SafeO(uint64_t *state, const uint64_t *in) {
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//XORs the first BLOCK_LEN_BLAKE2_SAFE_INT64 words of "in" with the current state
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state[0] ^= in[0];
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state[1] ^= in[1];
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state[2] ^= in[2];
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state[3] ^= in[3];
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state[4] ^= in[4];
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state[5] ^= in[5];
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state[6] ^= in[6];
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state[7] ^= in[7];
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//Applies the transformation f to the sponge's state
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blake2bLyra(state);
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}
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/**
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* Performs a reduced squeeze operation for a single row, from the highest to
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* the lowest index, using the reduced-round Blake2b's G function as the
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* internal permutation
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*
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* @param state The current state of the sponge
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* @param rowOut Row to receive the data squeezed
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*/
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inline void reducedSqueezeRow0O(uint64_t* state, uint64_t* rowOut) {
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uint64_t* ptrWord = rowOut + (N_COLS-1)*BLOCK_LEN_INT64; //In Lyra2: pointer to M[0][C-1]
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int i;
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//M[row][C-1-col] = H.reduced_squeeze()
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for (i = 0; i < N_COLS; i++) {
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ptrWord[0] = state[0];
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ptrWord[1] = state[1];
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ptrWord[2] = state[2];
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ptrWord[3] = state[3];
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ptrWord[4] = state[4];
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ptrWord[5] = state[5];
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ptrWord[6] = state[6];
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ptrWord[7] = state[7];
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ptrWord[8] = state[8];
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ptrWord[9] = state[9];
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ptrWord[10] = state[10];
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ptrWord[11] = state[11];
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//Goes to next block (column) that will receive the squeezed data
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ptrWord -= BLOCK_LEN_INT64;
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//Applies the reduced-round transformation f to the sponge's state
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reducedBlake2bLyra(state);
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}
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}
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/**
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* Performs a reduced duplex operation for a single row, from the highest to
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* the lowest index, using the reduced-round Blake2b's G function as the
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* internal permutation
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*
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* @param state The current state of the sponge
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* @param rowIn Row to feed the sponge
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* @param rowOut Row to receive the sponge's output
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*/
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inline void reducedDuplexRow1O(uint64_t *state, uint64_t *rowIn, uint64_t *rowOut) {
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uint64_t* ptrWordIn = rowIn; //In Lyra2: pointer to prev
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uint64_t* ptrWordOut = rowOut + (N_COLS-1)*BLOCK_LEN_INT64; //In Lyra2: pointer to row
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int i;
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for (i = 0; i < N_COLS; i++) {
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//Absorbing "M[prev][col]"
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state[0] ^= (ptrWordIn[0]);
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state[1] ^= (ptrWordIn[1]);
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state[2] ^= (ptrWordIn[2]);
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state[3] ^= (ptrWordIn[3]);
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state[4] ^= (ptrWordIn[4]);
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state[5] ^= (ptrWordIn[5]);
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state[6] ^= (ptrWordIn[6]);
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state[7] ^= (ptrWordIn[7]);
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state[8] ^= (ptrWordIn[8]);
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state[9] ^= (ptrWordIn[9]);
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state[10] ^= (ptrWordIn[10]);
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state[11] ^= (ptrWordIn[11]);
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//Applies the reduced-round transformation f to the sponge's state
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reducedBlake2bLyra(state);
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//M[row][C-1-col] = M[prev][col] XOR rand
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ptrWordOut[0] = ptrWordIn[0] ^ state[0];
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ptrWordOut[1] = ptrWordIn[1] ^ state[1];
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ptrWordOut[2] = ptrWordIn[2] ^ state[2];
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ptrWordOut[3] = ptrWordIn[3] ^ state[3];
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ptrWordOut[4] = ptrWordIn[4] ^ state[4];
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ptrWordOut[5] = ptrWordIn[5] ^ state[5];
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ptrWordOut[6] = ptrWordIn[6] ^ state[6];
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ptrWordOut[7] = ptrWordIn[7] ^ state[7];
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ptrWordOut[8] = ptrWordIn[8] ^ state[8];
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ptrWordOut[9] = ptrWordIn[9] ^ state[9];
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ptrWordOut[10] = ptrWordIn[10] ^ state[10];
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ptrWordOut[11] = ptrWordIn[11] ^ state[11];
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//Input: next column (i.e., next block in sequence)
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ptrWordIn += BLOCK_LEN_INT64;
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//Output: goes to previous column
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ptrWordOut -= BLOCK_LEN_INT64;
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}
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}
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/**
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* Performs a duplexing operation over "M[rowInOut][col] [+] M[rowIn][col]" (i.e.,
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* the wordwise addition of two columns, ignoring carries between words). The
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* output of this operation, "rand", is then used to make
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* "M[rowOut][(N_COLS-1)-col] = M[rowIn][col] XOR rand" and
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* "M[rowInOut][col] = M[rowInOut][col] XOR rotW(rand)", where rotW is a 64-bit
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* rotation to the left and N_COLS is a system parameter.
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*
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* @param state The current state of the sponge
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* @param rowIn Row used only as input
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* @param rowInOut Row used as input and to receive output after rotation
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* @param rowOut Row receiving the output
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*
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*/
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inline void reducedDuplexRowSetupO(uint64_t *state, uint64_t *rowIn, uint64_t *rowInOut, uint64_t *rowOut) {
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uint64_t* ptrWordIn = rowIn; //In Lyra2: pointer to prev
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uint64_t* ptrWordInOut = rowInOut; //In Lyra2: pointer to row*
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uint64_t* ptrWordOut = rowOut + (N_COLS-1)*BLOCK_LEN_INT64; //In Lyra2: pointer to row
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int i;
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for (i = 0; i < N_COLS; i++) {
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//Absorbing "M[prev] [+] M[row*]"
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state[0] ^= (ptrWordIn[0] + ptrWordInOut[0]);
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state[1] ^= (ptrWordIn[1] + ptrWordInOut[1]);
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state[2] ^= (ptrWordIn[2] + ptrWordInOut[2]);
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state[3] ^= (ptrWordIn[3] + ptrWordInOut[3]);
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state[4] ^= (ptrWordIn[4] + ptrWordInOut[4]);
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state[5] ^= (ptrWordIn[5] + ptrWordInOut[5]);
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state[6] ^= (ptrWordIn[6] + ptrWordInOut[6]);
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state[7] ^= (ptrWordIn[7] + ptrWordInOut[7]);
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state[8] ^= (ptrWordIn[8] + ptrWordInOut[8]);
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state[9] ^= (ptrWordIn[9] + ptrWordInOut[9]);
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state[10] ^= (ptrWordIn[10] + ptrWordInOut[10]);
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state[11] ^= (ptrWordIn[11] + ptrWordInOut[11]);
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//Applies the reduced-round transformation f to the sponge's state
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reducedBlake2bLyra(state);
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//M[row][col] = M[prev][col] XOR rand
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ptrWordOut[0] = ptrWordIn[0] ^ state[0];
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ptrWordOut[1] = ptrWordIn[1] ^ state[1];
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ptrWordOut[2] = ptrWordIn[2] ^ state[2];
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ptrWordOut[3] = ptrWordIn[3] ^ state[3];
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ptrWordOut[4] = ptrWordIn[4] ^ state[4];
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ptrWordOut[5] = ptrWordIn[5] ^ state[5];
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ptrWordOut[6] = ptrWordIn[6] ^ state[6];
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ptrWordOut[7] = ptrWordIn[7] ^ state[7];
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ptrWordOut[8] = ptrWordIn[8] ^ state[8];
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ptrWordOut[9] = ptrWordIn[9] ^ state[9];
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ptrWordOut[10] = ptrWordIn[10] ^ state[10];
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ptrWordOut[11] = ptrWordIn[11] ^ state[11];
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//M[row*][col] = M[row*][col] XOR rotW(rand)
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ptrWordInOut[0] ^= state[11];
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ptrWordInOut[1] ^= state[0];
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ptrWordInOut[2] ^= state[1];
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ptrWordInOut[3] ^= state[2];
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ptrWordInOut[4] ^= state[3];
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ptrWordInOut[5] ^= state[4];
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ptrWordInOut[6] ^= state[5];
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ptrWordInOut[7] ^= state[6];
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ptrWordInOut[8] ^= state[7];
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ptrWordInOut[9] ^= state[8];
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ptrWordInOut[10] ^= state[9];
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ptrWordInOut[11] ^= state[10];
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//Inputs: next column (i.e., next block in sequence)
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ptrWordInOut += BLOCK_LEN_INT64;
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ptrWordIn += BLOCK_LEN_INT64;
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//Output: goes to previous column
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ptrWordOut -= BLOCK_LEN_INT64;
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}
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}
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/**
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* Performs a duplexing operation over "M[rowInOut][col] [+] M[rowIn][col]" (i.e.,
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* the wordwise addition of two columns, ignoring carries between words). The
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* output of this operation, "rand", is then used to make
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* "M[rowOut][col] = M[rowOut][col] XOR rand" and
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* "M[rowInOut][col] = M[rowInOut][col] XOR rotW(rand)", where rotW is a 64-bit
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* rotation to the left.
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*
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* @param state The current state of the sponge
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* @param rowIn Row used only as input
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* @param rowInOut Row used as input and to receive output after rotation
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* @param rowOut Row receiving the output
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*
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*/
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inline void reducedDuplexRowO(uint64_t *state, uint64_t *rowIn, uint64_t *rowInOut, uint64_t *rowOut) {
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uint64_t* ptrWordInOut = rowInOut; //In Lyra2: pointer to row*
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uint64_t* ptrWordIn = rowIn; //In Lyra2: pointer to prev
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uint64_t* ptrWordOut = rowOut; //In Lyra2: pointer to row
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int i;
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for (i = 0; i < N_COLS; i++) {
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//Absorbing "M[prev] [+] M[row*]"
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state[0] ^= (ptrWordIn[0] + ptrWordInOut[0]);
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state[1] ^= (ptrWordIn[1] + ptrWordInOut[1]);
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state[2] ^= (ptrWordIn[2] + ptrWordInOut[2]);
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state[3] ^= (ptrWordIn[3] + ptrWordInOut[3]);
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state[4] ^= (ptrWordIn[4] + ptrWordInOut[4]);
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state[5] ^= (ptrWordIn[5] + ptrWordInOut[5]);
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state[6] ^= (ptrWordIn[6] + ptrWordInOut[6]);
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state[7] ^= (ptrWordIn[7] + ptrWordInOut[7]);
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state[8] ^= (ptrWordIn[8] + ptrWordInOut[8]);
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state[9] ^= (ptrWordIn[9] + ptrWordInOut[9]);
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state[10] ^= (ptrWordIn[10] + ptrWordInOut[10]);
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state[11] ^= (ptrWordIn[11] + ptrWordInOut[11]);
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//Applies the reduced-round transformation f to the sponge's state
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reducedBlake2bLyra(state);
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//M[rowOut][col] = M[rowOut][col] XOR rand
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ptrWordOut[0] ^= state[0];
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ptrWordOut[1] ^= state[1];
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ptrWordOut[2] ^= state[2];
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ptrWordOut[3] ^= state[3];
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|
ptrWordOut[4] ^= state[4];
|
||
|
ptrWordOut[5] ^= state[5];
|
||
|
ptrWordOut[6] ^= state[6];
|
||
|
ptrWordOut[7] ^= state[7];
|
||
|
ptrWordOut[8] ^= state[8];
|
||
|
ptrWordOut[9] ^= state[9];
|
||
|
ptrWordOut[10] ^= state[10];
|
||
|
ptrWordOut[11] ^= state[11];
|
||
|
|
||
|
//M[rowInOut][col] = M[rowInOut][col] XOR rotW(rand)
|
||
|
ptrWordInOut[0] ^= state[11];
|
||
|
ptrWordInOut[1] ^= state[0];
|
||
|
ptrWordInOut[2] ^= state[1];
|
||
|
ptrWordInOut[3] ^= state[2];
|
||
|
ptrWordInOut[4] ^= state[3];
|
||
|
ptrWordInOut[5] ^= state[4];
|
||
|
ptrWordInOut[6] ^= state[5];
|
||
|
ptrWordInOut[7] ^= state[6];
|
||
|
ptrWordInOut[8] ^= state[7];
|
||
|
ptrWordInOut[9] ^= state[8];
|
||
|
ptrWordInOut[10] ^= state[9];
|
||
|
ptrWordInOut[11] ^= state[10];
|
||
|
|
||
|
//Goes to next block
|
||
|
ptrWordOut += BLOCK_LEN_INT64;
|
||
|
ptrWordInOut += BLOCK_LEN_INT64;
|
||
|
ptrWordIn += BLOCK_LEN_INT64;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
|
||
|
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
|
||
|
|
||
|
/**
|
||
|
Prints an array of unsigned chars
|
||
|
*/
|
||
|
void printArrayO(unsigned char *array, unsigned int size, char *name) {
|
||
|
int i;
|
||
|
printf("%s: ", name);
|
||
|
for (i = 0; i < size; i++) {
|
||
|
printf("%2x|", array[i]);
|
||
|
}
|
||
|
printf("\n");
|
||
|
}
|
||
|
|
||
|
////////////////////////////////////////////////////////////////////////////////////////////////
|