/// @file rainbow_keypair_computation.c /// @brief Implementations for functions in rainbow_keypair_computation.h /// #include "rainbow_keypair_computation.h" #include "blas.h" #include "blas_comm.h" #include "rainbow_blas.h" #include "rainbow_keypair.h" #include #include #include void PQCLEAN_RAINBOWIACLASSIC_CLEAN_extcpk_to_pk(pk_t *pk, const ext_cpk_t *cpk) { const unsigned char *idx_l1 = cpk->l1_Q1; const unsigned char *idx_l2 = cpk->l2_Q1; for (unsigned int i = 0; i < _V1; i++) { for (unsigned int j = i; j < _V1; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } idx_l1 = cpk->l1_Q2; idx_l2 = cpk->l2_Q2; for (unsigned int i = 0; i < _V1; i++) { for (unsigned int j = _V1; j < _V1 + _O1; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } idx_l1 = cpk->l1_Q3; idx_l2 = cpk->l2_Q3; for (unsigned int i = 0; i < _V1; i++) { for (unsigned int j = _V1 + _O1; j < _PUB_N; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } idx_l1 = cpk->l1_Q5; idx_l2 = cpk->l2_Q5; for (unsigned int i = _V1; i < _V1 + _O1; i++) { for (unsigned int j = i; j < _V1 + _O1; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } idx_l1 = cpk->l1_Q6; idx_l2 = cpk->l2_Q6; for (unsigned int i = _V1; i < _V1 + _O1; i++) { for (unsigned int j = _V1 + _O1; j < _PUB_N; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } idx_l1 = cpk->l1_Q9; idx_l2 = cpk->l2_Q9; for (unsigned int i = _V1 + _O1; i < _PUB_N; i++) { for (unsigned int j = i; j < _PUB_N; j++) { unsigned int pub_idx = PQCLEAN_RAINBOWIACLASSIC_CLEAN_idx_of_trimat(i, j, _PUB_N); memcpy(&pk->pk[_PUB_M_BYTE * pub_idx], idx_l1, _O1_BYTE); memcpy((&pk->pk[_PUB_M_BYTE * pub_idx]) + _O1_BYTE, idx_l2, _O2_BYTE); idx_l1 += _O1_BYTE; idx_l2 += _O2_BYTE; } } } static void calculate_Q_from_F_ref(ext_cpk_t *Qs, const sk_t *Fs, const sk_t *Ts) { /* Layer 1 Computing : Q_pk.l1_F1s[i] = F_sk.l1_F1s[i] Q_pk.l1_F2s[i] = (F1* T1 + F2) + F1tr * t1 Q_pk.l1_F5s[i] = UT( T1tr* (F1 * T1 + F2) ) */ const unsigned char *t2 = Ts->t4; memcpy(Qs->l1_Q1, Fs->l1_F1, _O1_BYTE * N_TRIANGLE_TERMS(_V1)); memcpy(Qs->l1_Q2, Fs->l1_F2, _O1_BYTE * _V1 * _O1); batch_trimat_madd(Qs->l1_Q2, Fs->l1_F1, Ts->t1, _V1, _V1_BYTE, _O1, _O1_BYTE); // F1*T1 + F2 memset(Qs->l1_Q3, 0, _O1_BYTE * _V1 * _O2); memset(Qs->l1_Q5, 0, _O1_BYTE * N_TRIANGLE_TERMS(_O1)); memset(Qs->l1_Q6, 0, _O1_BYTE * _O1 * _O2); memset(Qs->l1_Q9, 0, _O1_BYTE * N_TRIANGLE_TERMS(_O2)); // l1_Q5 : _O1_BYTE * _O1 * _O1 // l1_Q9 : _O1_BYTE * _O2 * _O2 // l2_Q5 : _O2_BYTE * _V1 * _O1 // l2_Q9 : _O2_BYTE * _V1 * _O2 unsigned char tempQ[_O1_BYTE * _O1 * _O1 + 32]; memset(tempQ, 0, _O1_BYTE * _O1 * _O1); // l1_Q5 batch_matTr_madd(tempQ, Ts->t1, _V1, _V1_BYTE, _O1, Qs->l1_Q2, _O1, _O1_BYTE); // t1_tr*(F1*T1 + F2) PQCLEAN_RAINBOWIACLASSIC_CLEAN_UpperTrianglize(Qs->l1_Q5, tempQ, _O1, _O1_BYTE); // UT( ... ) // Q5 batch_trimatTr_madd(Qs->l1_Q2, Fs->l1_F1, Ts->t1, _V1, _V1_BYTE, _O1, _O1_BYTE); // Q2 /* Computing: F1_T2 = F1 * t2 F2_T3 = F2 * t3 F1_F1T_T2 + F2_T3 = F1_T2 + F2_T3 + F1tr * t2 Q_pk.l1_F3s[i] = F1_F1T_T2 + F2_T3 Q_pk.l1_F6s[i] = T1tr* ( F1_F1T_T2 + F2_T3 ) + F2tr * t2 Q_pk.l1_F9s[i] = UT( T2tr* ( F1_T2 + F2_T3 ) ) */ batch_trimat_madd(Qs->l1_Q3, Fs->l1_F1, t2, _V1, _V1_BYTE, _O2, _O1_BYTE); // F1*T2 batch_mat_madd(Qs->l1_Q3, Fs->l1_F2, _V1, Ts->t3, _O1, _O1_BYTE, _O2, _O1_BYTE); // F1_T2 + F2_T3 memset(tempQ, 0, _O1_BYTE * _O2 * _O2); // l1_Q9 batch_matTr_madd(tempQ, t2, _V1, _V1_BYTE, _O2, Qs->l1_Q3, _O2, _O1_BYTE); // T2tr * ( F1_T2 + F2_T3 ) PQCLEAN_RAINBOWIACLASSIC_CLEAN_UpperTrianglize(Qs->l1_Q9, tempQ, _O2, _O1_BYTE); // Q9 batch_trimatTr_madd(Qs->l1_Q3, Fs->l1_F1, t2, _V1, _V1_BYTE, _O2, _O1_BYTE); // F1_F1T_T2 + F2_T3 // Q3 batch_bmatTr_madd(Qs->l1_Q6, Fs->l1_F2, _O1, t2, _V1, _V1_BYTE, _O2, _O1_BYTE); // F2tr*T2 batch_matTr_madd(Qs->l1_Q6, Ts->t1, _V1, _V1_BYTE, _O1, Qs->l1_Q3, _O2, _O1_BYTE); // Q6 /* layer 2 Computing: Q1 = F1 Q2 = F1_F1T*T1 + F2 Q5 = UT( T1tr( F1*T1 + F2 ) + F5 ) */ memcpy(Qs->l2_Q1, Fs->l2_F1, _O2_BYTE * N_TRIANGLE_TERMS(_V1)); memcpy(Qs->l2_Q2, Fs->l2_F2, _O2_BYTE * _V1 * _O1); batch_trimat_madd(Qs->l2_Q2, Fs->l2_F1, Ts->t1, _V1, _V1_BYTE, _O1, _O2_BYTE); // F1*T1 + F2 memcpy(Qs->l2_Q5, Fs->l2_F5, _O2_BYTE * N_TRIANGLE_TERMS(_O1)); memset(tempQ, 0, _O2_BYTE * _O1 * _O1); // l2_Q5 batch_matTr_madd(tempQ, Ts->t1, _V1, _V1_BYTE, _O1, Qs->l2_Q2, _O1, _O2_BYTE); // t1_tr*(F1*T1 + F2) PQCLEAN_RAINBOWIACLASSIC_CLEAN_UpperTrianglize(Qs->l2_Q5, tempQ, _O1, _O2_BYTE); // UT( ... ) // Q5 batch_trimatTr_madd(Qs->l2_Q2, Fs->l2_F1, Ts->t1, _V1, _V1_BYTE, _O1, _O2_BYTE); // Q2 /* Computing: F1_T2 = F1 * t2 F2_T3 = F2 * t3 F1_F1T_T2 + F2_T3 = F1_T2 + F2_T3 + F1tr * t2 Q3 = F1_F1T*T2 + F2*T3 + F3 Q9 = UT( T2tr*( F1*T2 + F2*T3 + F3 ) + T3tr*( F5*T3 + F6 ) ) Q6 = T1tr*( F1_F1T*T2 + F2*T3 + F3 ) + F2Tr*T2 + F5_F5T*T3 + F6 */ memcpy(Qs->l2_Q3, Fs->l2_F3, _O2_BYTE * _V1 * _O2); batch_trimat_madd(Qs->l2_Q3, Fs->l2_F1, t2, _V1, _V1_BYTE, _O2, _O2_BYTE); // F1*T2 + F3 batch_mat_madd(Qs->l2_Q3, Fs->l2_F2, _V1, Ts->t3, _O1, _O1_BYTE, _O2, _O2_BYTE); // F1_T2 + F2_T3 + F3 memset(tempQ, 0, _O2_BYTE * _O2 * _O2); // l2_Q9 batch_matTr_madd(tempQ, t2, _V1, _V1_BYTE, _O2, Qs->l2_Q3, _O2, _O2_BYTE); // T2tr * ( ..... ) memcpy(Qs->l2_Q6, Fs->l2_F6, _O2_BYTE * _O1 * _O2); batch_trimat_madd(Qs->l2_Q6, Fs->l2_F5, Ts->t3, _O1, _O1_BYTE, _O2, _O2_BYTE); // F5*T3 + F6 batch_matTr_madd(tempQ, Ts->t3, _O1, _O1_BYTE, _O2, Qs->l2_Q6, _O2, _O2_BYTE); // T2tr*( ..... ) + T3tr*( ..... ) memset(Qs->l2_Q9, 0, _O2_BYTE * N_TRIANGLE_TERMS(_O2)); PQCLEAN_RAINBOWIACLASSIC_CLEAN_UpperTrianglize(Qs->l2_Q9, tempQ, _O2, _O2_BYTE); // Q9 batch_trimatTr_madd(Qs->l2_Q3, Fs->l2_F1, t2, _V1, _V1_BYTE, _O2, _O2_BYTE); // F1_F1T_T2 + F2_T3 + F3 // Q3 batch_bmatTr_madd(Qs->l2_Q6, Fs->l2_F2, _O1, t2, _V1, _V1_BYTE, _O2, _O2_BYTE); // F5*T3 + F6 + F2tr*T2 batch_trimatTr_madd(Qs->l2_Q6, Fs->l2_F5, Ts->t3, _O1, _O1_BYTE, _O2, _O2_BYTE); // F2tr*T2 + F5_F5T*T3 + F6 batch_matTr_madd(Qs->l2_Q6, Ts->t1, _V1, _V1_BYTE, _O1, Qs->l2_Q3, _O2, _O2_BYTE); // Q6 } #define calculate_Q_from_F_impl calculate_Q_from_F_ref void PQCLEAN_RAINBOWIACLASSIC_CLEAN_calculate_Q_from_F(ext_cpk_t *Qs, const sk_t *Fs, const sk_t *Ts) { calculate_Q_from_F_impl(Qs, Fs, Ts); }