remove preprocessor conditionals from frodokem640shake
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ebeveyn
cf8e4e5179
işleme
57ad79ae3a
@ -13,8 +13,6 @@
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#include "common.h"
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#include "params.h"
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#define USE_SHAKE128_FOR_A 1
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int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_as_plus_e(uint16_t *out, const uint16_t *s, const uint16_t *e, const uint8_t *seed_A) {
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// Generate-and-multiply: generate matrix A (N x N) row-wise, multiply by s on the right.
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// Inputs: s, e (N x N_BAR)
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@ -26,28 +24,6 @@ int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_as_plus_e(uint16_t *out, const uint16_t
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*((uint32_t *)&out[i]) = *((uint32_t *)&e[i]);
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}
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#if defined(USE_AES128_FOR_A)
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int16_t a_row_temp[4 * PARAMS_N] = {0}; // Take four lines of A at once
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uint8_t aes_key_schedule[16 * 11];
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AES128_load_schedule(seed_A, aes_key_schedule);
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for (j = 0; j < PARAMS_N; j += PARAMS_STRIPE_STEP) {
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a_row_temp[j + 1 + 0 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(j); // Loading values in the little-endian order
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a_row_temp[j + 1 + 1 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(j);
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a_row_temp[j + 1 + 2 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(j);
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a_row_temp[j + 1 + 3 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(j);
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}
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for (i = 0; i < PARAMS_N; i += 4) {
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for (j = 0; j < PARAMS_N; j += PARAMS_STRIPE_STEP) { // Go through A, four rows at a time
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a_row_temp[j + 0 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i + 0); // Loading values in the little-endian order
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a_row_temp[j + 1 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i + 1);
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a_row_temp[j + 2 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i + 2);
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a_row_temp[j + 3 * PARAMS_N] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i + 3);
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}
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AES128_ECB_enc_sch((uint8_t *)a_row_temp, 4 * PARAMS_N * sizeof(int16_t), aes_key_schedule, (uint8_t *)a_row);
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#elif defined (USE_SHAKE128_FOR_A)
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uint8_t seed_A_separated[2 + BYTES_SEED_A];
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uint16_t *seed_A_origin = (uint16_t *)&seed_A_separated;
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memcpy(&seed_A_separated[2], seed_A, BYTES_SEED_A);
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@ -60,7 +36,6 @@ int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_as_plus_e(uint16_t *out, const uint16_t
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shake128((unsigned char *)(a_row + 2 * PARAMS_N), (unsigned long long)(2 * PARAMS_N), seed_A_separated, 2 + BYTES_SEED_A);
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seed_A_origin[0] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i + 3);
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shake128((unsigned char *)(a_row + 3 * PARAMS_N), (unsigned long long)(2 * PARAMS_N), seed_A_separated, 2 + BYTES_SEED_A);
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#endif
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for (k = 0; k < 4 * PARAMS_N; k++) {
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a_row[k] = PQCLEAN_FRODOKEM640SHAKE_OPT_LE_TO_UINT16(a_row[k]);
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}
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@ -79,10 +54,6 @@ int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_as_plus_e(uint16_t *out, const uint16_t
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out[(i + 3)*PARAMS_NBAR + k] += sum[3];
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}
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}
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#if defined(USE_AES128_FOR_A)
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AES128_free_schedule(aes_key_schedule);
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#endif
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return 1;
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}
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@ -99,51 +70,6 @@ int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_sa_plus_e(uint16_t *out, const uint16_t
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*((uint32_t *)&out[i]) = *((uint32_t *)&e[i]);
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}
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#if defined(USE_AES128_FOR_A)
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int k;
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uint16_t a_cols[PARAMS_N * PARAMS_STRIPE_STEP] = {0};
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uint16_t a_cols_t[PARAMS_N * PARAMS_STRIPE_STEP];
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uint16_t a_cols_temp[PARAMS_N * PARAMS_STRIPE_STEP] = {0};
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uint8_t aes_key_schedule[16 * 11];
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AES128_load_schedule(seed_A, aes_key_schedule);
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for (i = 0, j = 0; i < PARAMS_N; i++, j += PARAMS_STRIPE_STEP) {
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a_cols_temp[j] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(i); // Loading values in the little-endian order
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}
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for (kk = 0; kk < PARAMS_N; kk += PARAMS_STRIPE_STEP) { // Go through A's columns, 8 (== PARAMS_STRIPE_STEP) columns at a time.
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for (i = 0; i < (PARAMS_N * PARAMS_STRIPE_STEP); i += PARAMS_STRIPE_STEP) {
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a_cols_temp[i + 1] = PQCLEAN_FRODOKEM640SHAKE_OPT_UINT16_TO_LE(kk); // Loading values in the little-endian order
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}
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AES128_ECB_enc_sch((uint8_t *)a_cols_temp, PARAMS_N * PARAMS_STRIPE_STEP * sizeof(int16_t), aes_key_schedule, (uint8_t *)a_cols);
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for (i = 0; i < PARAMS_N; i++) { // Transpose a_cols to have access to it in the column-major order.
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for (k = 0; k < PARAMS_STRIPE_STEP; k++) {
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a_cols_t[k * PARAMS_N + i] = PQCLEAN_FRODOKEM640SHAKE_OPT_LE_TO_UINT16(a_cols[i * PARAMS_STRIPE_STEP + k]);
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}
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}
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for (i = 0; i < PARAMS_NBAR; i++) {
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for (k = 0; k < PARAMS_STRIPE_STEP; k += PARAMS_PARALLEL) {
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uint16_t sum[PARAMS_PARALLEL] = {0};
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for (j = 0; j < PARAMS_N; j++) { // Matrix-vector multiplication
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uint16_t sp = s[i * PARAMS_N + j];
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sum[0] += sp * a_cols_t[(k + 0) * PARAMS_N + j];
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sum[1] += sp * a_cols_t[(k + 1) * PARAMS_N + j];
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sum[2] += sp * a_cols_t[(k + 2) * PARAMS_N + j];
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sum[3] += sp * a_cols_t[(k + 3) * PARAMS_N + j];
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}
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out[i * PARAMS_N + kk + k + 0] += sum[0];
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out[i * PARAMS_N + kk + k + 2] += sum[2];
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out[i * PARAMS_N + kk + k + 1] += sum[1];
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out[i * PARAMS_N + kk + k + 3] += sum[3];
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}
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}
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}
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AES128_free_schedule(aes_key_schedule);
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#elif defined (USE_SHAKE128_FOR_A) // SHAKE128
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int t = 0;
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uint16_t a_cols[4 * PARAMS_N];
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@ -177,7 +103,5 @@ int PQCLEAN_FRODOKEM640SHAKE_OPT_mul_add_sa_plus_e(uint16_t *out, const uint16_t
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}
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}
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}
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#endif
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return 1;
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}
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