mirror of
https://github.com/henrydcase/pqc.git
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74bc3e74e1
Lots of shifts left of signed integers
109 lines
4.3 KiB
C
109 lines
4.3 KiB
C
/*************************************************************************************
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* qTESLA: an efficient post-quantum signature scheme based on the R-LWE problem
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*
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* Abstract: packing functions
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**************************************************************************************/
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#include "api.h"
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#include "pack.h"
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#include "params.h"
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#include "poly.h"
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#include <string.h>
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void PQCLEAN_QTESLAPIII_CLEAN_pack_sk(uint8_t *sk, const poly s, const poly_k e, uint8_t *seeds) {
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// Pack secret key sk
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size_t i, k;
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for (i = 0; i < PARAM_N; i++) {
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sk[i] = (uint8_t)s[i];
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}
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sk += PARAM_N;
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for (k = 0; k < PARAM_K; k++) {
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for (i = 0; i < PARAM_N; i++) {
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sk[k * PARAM_N + i] = (uint8_t)e[k * PARAM_N + i];
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}
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}
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memcpy(&sk[PARAM_K * PARAM_N], seeds, 2 * CRYPTO_SEEDBYTES);
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}
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void PQCLEAN_QTESLAPIII_CLEAN_encode_pk(uint8_t *pk, const poly_k t, const uint8_t *seedA) {
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// Encode public key pk
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size_t i, j;
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for (i = 0, j = 0; i < PARAM_N * PARAM_K; i += 4, j += 15) {
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pk[j ] = (uint8_t)( t[i ] );
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pk[j + 1] = (uint8_t)( t[i ] >> 8 );
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pk[j + 2] = (uint8_t)( t[i ] >> 16 );
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pk[j + 3] = (uint8_t)((t[i ] >> 24) | (t[i + 1] << 6));
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pk[j + 4] = (uint8_t)( t[i + 1] >> 2 );
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pk[j + 5] = (uint8_t)( t[i + 1] >> 10 );
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pk[j + 6] = (uint8_t)( t[i + 1] >> 18 );
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pk[j + 7] = (uint8_t)((t[i + 1] >> 26) | (t[i + 2] << 4));
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pk[j + 8] = (uint8_t)( t[i + 2] >> 4 );
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pk[j + 9] = (uint8_t)( t[i + 2] >> 12 );
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pk[j + 10] = (uint8_t)( t[i + 2] >> 20 );
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pk[j + 11] = (uint8_t)((t[i + 2] >> 28) | (t[i + 3] << 2));
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pk[j + 12] = (uint8_t)( t[i + 3] >> 6 );
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pk[j + 13] = (uint8_t)( t[i + 3] >> 14 );
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pk[j + 14] = (uint8_t)( t[i + 3] >> 22 );
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}
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memcpy(&pk[j], seedA, CRYPTO_SEEDBYTES);
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}
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void PQCLEAN_QTESLAPIII_CLEAN_decode_pk(int32_t *pk, uint8_t *seedA, const uint8_t *pk_in) {
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// Decode public key pk
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size_t i, j;
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int32_t mask30 = (1 << PARAM_Q_LOG) - 1;
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const uint8_t *a = pk_in;
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for (i = 0, j = 0; i < PARAM_N * PARAM_K; i += 4, j += 15) {
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pk[i ] = (int32_t)(( a[j ] | (a[j + 1] << 8) | (a[j + 2] << 16) | (int32_t)((uint32_t)a[j + 3] << 24) ) & mask30);
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pk[i + 1] = (int32_t)(((a[j + 3] >> 6) | (a[j + 4] << 2) | (a[j + 5] << 10) | (a[j + 6] << 18) | (int32_t)((uint32_t)a[j + 7] << 26)) & mask30);
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pk[i + 2] = (int32_t)(((a[j + 7] >> 4) | (a[j + 8] << 4) | (a[j + 9] << 12) | (a[j + 10] << 20) | (int32_t)((uint32_t)a[j + 11] << 28)) & mask30);
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pk[i + 3] = (int32_t)( (a[j + 11] >> 2) | (a[j + 12] << 6) | (a[j + 13] << 14) | (a[j + 14] << 22) );
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}
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memcpy(seedA, &pk_in[j], CRYPTO_SEEDBYTES);
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}
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void PQCLEAN_QTESLAPIII_CLEAN_encode_sig(uint8_t *sm, uint8_t *c, const poly z) {
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// Encode signature sm
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size_t i, j;
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for (i = 0, j = 0; i < PARAM_N; i += 4, j += 11) {
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sm[j ] = (uint8_t)( z[i ] );
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sm[j + 1] = (uint8_t)( z[i ] >> 8);
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sm[j + 2] = (uint8_t)(((z[i ] >> 16) & 0x3F) | ((uint64_t)z[i + 1] << 6));
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sm[j + 3] = (uint8_t)( z[i + 1] >> 2);
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sm[j + 4] = (uint8_t)( z[i + 1] >> 10);
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sm[j + 5] = (uint8_t)(((z[i + 1] >> 18) & 0x0F) | ((uint64_t)z[i + 2] << 4));
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sm[j + 6] = (uint8_t)( z[i + 2] >> 4);
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sm[j + 7] = (uint8_t)( z[i + 2] >> 12);
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sm[j + 8] = (uint8_t)(((z[i + 2] >> 20) & 0x03) | ((uint64_t)z[i + 3] << 2));
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sm[j + 9] = (uint8_t)( z[i + 3] >> 6);
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sm[j + 10] = (uint8_t)( z[i + 3] >> 14);
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}
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memcpy(&sm[j], c, CRYPTO_C_BYTES);
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}
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void PQCLEAN_QTESLAPIII_CLEAN_decode_sig(uint8_t *c, poly z, const uint8_t *sm) {
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// Decode signature sm
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size_t i, j;
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for (i = 0, j = 0; i < PARAM_N; i += 4, j += 11) {
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z[i ] = sm[j ] | (sm[j + 1] << 8) | ((int64_t)((uint64_t)sm[j + 2] << 58) >> 42);
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z[i + 1] = (sm[j + 2] >> 6) | (sm[j + 3] << 2) | (sm[j + 4] << 10) | ((int64_t)((uint64_t)sm[j + 5] << 60) >> 42);
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z[i + 2] = (sm[j + 5] >> 4) | (sm[j + 6] << 4) | (sm[j + 7] << 12) | ((int64_t)((uint64_t)sm[j + 8] << 62) >> 42);
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z[i + 3] = (sm[j + 8] >> 2) | (sm[j + 9] << 6) | ((int64_t)((uint64_t)sm[j + 10] << 56) >> 42);
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}
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memcpy(c, &sm[j], CRYPTO_C_BYTES);
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}
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