mirror of
https://github.com/henrydcase/pqc.git
synced 2024-11-22 15:39:07 +00:00
more fixed sizes, hopefully fix mscv warnings
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@ -13,7 +13,7 @@ int PQCLEAN_LEDAKEMLT12_LEAKTIME_bf_decoding(DIGIT err[],
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uint8_t unsatParityChecks[N0 * P];
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uint8_t unsatParityChecks[N0 * P];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T syndromePosToFlip, tmp;
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POSITION_T syndromePosToFlip, tmp;
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unsigned int correlation, corrt_syndrome_based;
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uint32_t correlation, corrt_syndrome_based;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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int check;
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int check;
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int iteration = 0;
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int iteration = 0;
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@ -22,7 +22,7 @@ int PQCLEAN_LEDAKEMLT12_LEAKTIME_bf_decoding(DIGIT err[],
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PQCLEAN_LEDAKEMLT12_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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PQCLEAN_LEDAKEMLT12_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t valueIdx = 0; valueIdx < P; valueIdx++) {
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for (POSITION_T valueIdx = 0; valueIdx < P; valueIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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@ -39,7 +39,7 @@ int PQCLEAN_LEDAKEMLT12_LEAKTIME_bf_decoding(DIGIT err[],
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// Computation of correlation with a full Q matrix
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// Computation of correlation with a full Q matrix
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < P; j++) {
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for (POSITION_T j = 0; j < P; j++) {
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currQoneIdx = endQblockIdx = 0;
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currQoneIdx = endQblockIdx = 0;
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correlation = 0;
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correlation = 0;
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@ -50,7 +50,7 @@ int PQCLEAN_LEDAKEMLT12_LEAKTIME_bf_decoding(DIGIT err[],
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = tmp >= P ? tmp - P : tmp;
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tmp = tmp >= P ? tmp - P : tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBlkPos[currQoneIdx] = blockIdx;
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currQBlkPos[currQoneIdx] = (POSITION_T)blockIdx;
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correlation += unsatParityChecks[tmp + currblockoffset];
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correlation += unsatParityChecks[tmp + currblockoffset];
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}
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}
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}
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}
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@ -10,12 +10,11 @@
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int PQCLEAN_LEDAKEMLT12_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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int PQCLEAN_LEDAKEMLT12_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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unsigned int gamma[N0][N0][P] = {{{0}}};
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uint8_t gamma[N0][N0][P] = {{{0}}};
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unsigned int maxMut[N0], maxMutMinusOne[N0];
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uint32_t gammaHist[N0][DV * M + 1] = {{0}};
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unsigned int allBlockMaxSumst, allBlockMaxSumstMinusOne;
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size_t maxMut[N0], maxMutMinusOne[N0];
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unsigned int gammaHist[N0][DV * M + 1] = {{0}};
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size_t allBlockMaxSumst, allBlockMaxSumstMinusOne;
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unsigned int toAdd;
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size_t histIdx, toAdd;
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size_t histIdx;
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < DV * M; j++) {
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for (size_t j = 0; j < DV * M; j++) {
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@ -73,7 +72,7 @@ int PQCLEAN_LEDAKEMLT12_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_
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/*seek max values across all gamma blocks */
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/*seek max values across all gamma blocks */
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0 ; gammaBlockRowIdx++) {
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0; gammaBlockRowIdx++) {
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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maxMut[gammaBlockRowIdx] :
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maxMut[gammaBlockRowIdx] :
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allBlockMaxSumst;
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allBlockMaxSumst;
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@ -134,9 +134,7 @@ void PQCLEAN_LEDAKEMLT12_LEAKTIME_gf2x_transpose_in_place(DIGIT A[]) {
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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}
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}
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if (NUM_DIGITS_GF2X_ELEMENT % 2 == 1) {
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A[NUM_DIGITS_GF2X_ELEMENT / 2] = reverse_digit(A[NUM_DIGITS_GF2X_ELEMENT / 2]);
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A[NUM_DIGITS_GF2X_ELEMENT / 2] = reverse_digit(A[NUM_DIGITS_GF2X_ELEMENT / 2]);
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}
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if (slack_bits_amount) {
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if (slack_bits_amount) {
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PQCLEAN_LEDAKEMLT12_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
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PQCLEAN_LEDAKEMLT12_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
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@ -13,7 +13,7 @@ int PQCLEAN_LEDAKEMLT32_LEAKTIME_bf_decoding(DIGIT err[],
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uint8_t unsatParityChecks[N0 * P];
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uint8_t unsatParityChecks[N0 * P];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T syndromePosToFlip, tmp;
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POSITION_T syndromePosToFlip, tmp;
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unsigned int correlation, corrt_syndrome_based;
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uint32_t correlation, corrt_syndrome_based;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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int check;
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int check;
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int iteration = 0;
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int iteration = 0;
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@ -22,7 +22,7 @@ int PQCLEAN_LEDAKEMLT32_LEAKTIME_bf_decoding(DIGIT err[],
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PQCLEAN_LEDAKEMLT32_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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PQCLEAN_LEDAKEMLT32_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t valueIdx = 0; valueIdx < P; valueIdx++) {
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for (POSITION_T valueIdx = 0; valueIdx < P; valueIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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@ -39,7 +39,7 @@ int PQCLEAN_LEDAKEMLT32_LEAKTIME_bf_decoding(DIGIT err[],
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// Computation of correlation with a full Q matrix
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// Computation of correlation with a full Q matrix
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < P; j++) {
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for (POSITION_T j = 0; j < P; j++) {
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currQoneIdx = endQblockIdx = 0;
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currQoneIdx = endQblockIdx = 0;
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correlation = 0;
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correlation = 0;
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@ -50,7 +50,7 @@ int PQCLEAN_LEDAKEMLT32_LEAKTIME_bf_decoding(DIGIT err[],
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = tmp >= P ? tmp - P : tmp;
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tmp = tmp >= P ? tmp - P : tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBlkPos[currQoneIdx] = blockIdx;
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currQBlkPos[currQoneIdx] = (POSITION_T)blockIdx;
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correlation += unsatParityChecks[tmp + currblockoffset];
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correlation += unsatParityChecks[tmp + currblockoffset];
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}
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}
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}
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}
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@ -10,12 +10,11 @@
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int PQCLEAN_LEDAKEMLT32_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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int PQCLEAN_LEDAKEMLT32_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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unsigned int gamma[N0][N0][P] = {{{0}}};
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uint8_t gamma[N0][N0][P] = {{{0}}};
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unsigned int maxMut[N0], maxMutMinusOne[N0];
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uint32_t gammaHist[N0][DV * M + 1] = {{0}};
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unsigned int allBlockMaxSumst, allBlockMaxSumstMinusOne;
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size_t maxMut[N0], maxMutMinusOne[N0];
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unsigned int gammaHist[N0][DV * M + 1] = {{0}};
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size_t allBlockMaxSumst, allBlockMaxSumstMinusOne;
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unsigned int toAdd;
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size_t histIdx, toAdd;
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size_t histIdx;
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < DV * M; j++) {
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for (size_t j = 0; j < DV * M; j++) {
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@ -73,7 +72,7 @@ int PQCLEAN_LEDAKEMLT32_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_
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/*seek max values across all gamma blocks */
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/*seek max values across all gamma blocks */
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0 ; gammaBlockRowIdx++) {
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0; gammaBlockRowIdx++) {
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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maxMut[gammaBlockRowIdx] :
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maxMut[gammaBlockRowIdx] :
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allBlockMaxSumst;
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allBlockMaxSumst;
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@ -134,10 +134,6 @@ void PQCLEAN_LEDAKEMLT32_LEAKTIME_gf2x_transpose_in_place(DIGIT A[]) {
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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}
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}
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if (NUM_DIGITS_GF2X_ELEMENT % 2 == 1) {
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A[NUM_DIGITS_GF2X_ELEMENT / 2] = reverse_digit(A[NUM_DIGITS_GF2X_ELEMENT / 2]);
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}
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if (slack_bits_amount) {
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if (slack_bits_amount) {
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PQCLEAN_LEDAKEMLT32_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
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PQCLEAN_LEDAKEMLT32_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
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}
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}
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@ -13,7 +13,7 @@ int PQCLEAN_LEDAKEMLT52_LEAKTIME_bf_decoding(DIGIT err[],
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uint8_t unsatParityChecks[N0 * P];
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uint8_t unsatParityChecks[N0 * P];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T currQBlkPos[M], currQBitPos[M];
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POSITION_T syndromePosToFlip, tmp;
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POSITION_T syndromePosToFlip, tmp;
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unsigned int correlation, corrt_syndrome_based;
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uint32_t correlation, corrt_syndrome_based;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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size_t currQoneIdx, endQblockIdx, currblockoffset;
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int check;
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int check;
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int iteration = 0;
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int iteration = 0;
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@ -22,7 +22,7 @@ int PQCLEAN_LEDAKEMLT52_LEAKTIME_bf_decoding(DIGIT err[],
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PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_copy(currSyndrome, privateSyndrome);
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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memset(unsatParityChecks, 0x00, N0 * P * sizeof(uint8_t));
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t valueIdx = 0; valueIdx < P; valueIdx++) {
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for (POSITION_T valueIdx = 0; valueIdx < P; valueIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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for (size_t HtrOneIdx = 0; HtrOneIdx < DV; HtrOneIdx++) {
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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tmp = (HtrPosOnes[i][HtrOneIdx] + valueIdx) >= P ?
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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(HtrPosOnes[i][HtrOneIdx] + valueIdx) - P :
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@ -39,7 +39,7 @@ int PQCLEAN_LEDAKEMLT52_LEAKTIME_bf_decoding(DIGIT err[],
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// Computation of correlation with a full Q matrix
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// Computation of correlation with a full Q matrix
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < P; j++) {
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for (POSITION_T j = 0; j < P; j++) {
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currQoneIdx = endQblockIdx = 0;
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currQoneIdx = endQblockIdx = 0;
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correlation = 0;
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correlation = 0;
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@ -50,7 +50,7 @@ int PQCLEAN_LEDAKEMLT52_LEAKTIME_bf_decoding(DIGIT err[],
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = QtrPosOnes[i][currQoneIdx] + j;
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tmp = tmp >= P ? tmp - P : tmp;
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tmp = tmp >= P ? tmp - P : tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBitPos[currQoneIdx] = tmp;
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currQBlkPos[currQoneIdx] = blockIdx;
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currQBlkPos[currQoneIdx] = (POSITION_T)blockIdx;
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correlation += unsatParityChecks[tmp + currblockoffset];
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correlation += unsatParityChecks[tmp + currblockoffset];
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}
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}
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}
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}
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@ -10,12 +10,11 @@
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int PQCLEAN_LEDAKEMLT52_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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int PQCLEAN_LEDAKEMLT52_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_t *secondIterThreshold) {
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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POSITION_T LSparse_loc[N0][DV * M]; /* vector of N_0 sparse blocks */
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unsigned int gamma[N0][N0][P] = {{{0}}};
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uint8_t gamma[N0][N0][P] = {{{0}}};
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unsigned int maxMut[N0], maxMutMinusOne[N0];
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uint32_t gammaHist[N0][DV * M + 1] = {{0}};
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unsigned int allBlockMaxSumst, allBlockMaxSumstMinusOne;
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size_t maxMut[N0], maxMutMinusOne[N0];
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unsigned int gammaHist[N0][DV * M + 1] = {{0}};
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size_t allBlockMaxSumst, allBlockMaxSumstMinusOne;
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unsigned int toAdd;
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size_t histIdx, toAdd;
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size_t histIdx;
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for (size_t i = 0; i < N0; i++) {
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for (size_t i = 0; i < N0; i++) {
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for (size_t j = 0; j < DV * M; j++) {
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for (size_t j = 0; j < DV * M; j++) {
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@ -73,7 +72,7 @@ int PQCLEAN_LEDAKEMLT52_LEAKTIME_DFR_test(POSITION_T LSparse[N0][DV * M], uint8_
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/*seek max values across all gamma blocks */
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/*seek max values across all gamma blocks */
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumst = maxMut[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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allBlockMaxSumstMinusOne = maxMutMinusOne[0];
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0 ; gammaBlockRowIdx++) {
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for (size_t gammaBlockRowIdx = 0; gammaBlockRowIdx < N0; gammaBlockRowIdx++) {
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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allBlockMaxSumst = allBlockMaxSumst < maxMut[gammaBlockRowIdx] ?
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maxMut[gammaBlockRowIdx] :
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maxMut[gammaBlockRowIdx] :
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allBlockMaxSumst;
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allBlockMaxSumst;
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@ -134,10 +134,6 @@ void PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_transpose_in_place(DIGIT A[]) {
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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A[NUM_DIGITS_GF2X_ELEMENT - 1 - i] = rev1;
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}
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}
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if (NUM_DIGITS_GF2X_ELEMENT % 2 == 1) {
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A[NUM_DIGITS_GF2X_ELEMENT / 2] = reverse_digit(A[NUM_DIGITS_GF2X_ELEMENT / 2]);
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}
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if (slack_bits_amount) {
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if (slack_bits_amount) {
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PQCLEAN_LEDAKEMLT52_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
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PQCLEAN_LEDAKEMLT52_LEAKTIME_right_bit_shift_n(NUM_DIGITS_GF2X_ELEMENT, A, slack_bits_amount);
|
||||||
}
|
}
|
||||||
|
Loading…
Reference in New Issue
Block a user