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pqcrypto/crypto_sign/rainbowIa-cyclic/clean/rainbow_keypair.c
Matthias J. Kannwischer cb878e90a8 remove preprocessor conditionals
2019-07-16 15:56:02 -04:00

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6.1 KiB
C
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/// @file rainbow_keypair.c
/// @brief implementations of functions in rainbow_keypair.h
///
#include "blas.h"
#include "blas_comm.h"
#include "rainbow_blas.h"
#include "rainbow_keypair.h"
#include "rainbow_keypair_computation.h"
#include "utils_prng.h"
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
static
void generate_S_T( unsigned char *s_and_t, prng_t *prng0 ) {
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, s_and_t, _O1_BYTE * _O2 ); // S1
s_and_t += _O1_BYTE * _O2;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, s_and_t, _V1_BYTE * _O1 ); // T1
s_and_t += _V1_BYTE * _O1;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, s_and_t, _V1_BYTE * _O2 ); // T2
s_and_t += _V1_BYTE * _O2;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, s_and_t, _O1_BYTE * _O2 ); // T3
}
static
unsigned generate_l1_F12( unsigned char *sk, prng_t *prng0 ) {
unsigned n_byte_generated = 0;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O1_BYTE * N_TRIANGLE_TERMS(_V1) ); // l1_F1
sk += _O1_BYTE * N_TRIANGLE_TERMS(_V1);
n_byte_generated += _O1_BYTE * N_TRIANGLE_TERMS(_V1);
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O1_BYTE * _V1 * _O1 ); // l1_F2
n_byte_generated += _O1_BYTE * _V1 * _O1;
return n_byte_generated;
}
static
unsigned generate_l2_F12356( unsigned char *sk, prng_t *prng0 ) {
unsigned n_byte_generated = 0;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O2_BYTE * N_TRIANGLE_TERMS(_V1) ); // l2_F1
sk += _O2_BYTE * N_TRIANGLE_TERMS(_V1);
n_byte_generated += _O2_BYTE * N_TRIANGLE_TERMS(_V1);
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O2_BYTE * _V1 * _O1 ); // l2_F2
sk += _O2_BYTE * _V1 * _O1;
n_byte_generated += _O2_BYTE * _V1 * _O1;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O2_BYTE * _V1 * _O2 ); // l2_F3
sk += _O2_BYTE * _V1 * _O1;
n_byte_generated += _O2_BYTE * _V1 * _O1;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O2_BYTE * N_TRIANGLE_TERMS(_O1) ); // l2_F5
sk += _O2_BYTE * N_TRIANGLE_TERMS(_O1);
n_byte_generated += _O2_BYTE * N_TRIANGLE_TERMS(_O1);
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_gen( prng0, sk, _O2_BYTE * _O1 * _O2 ); // l2_F6
n_byte_generated += _O2_BYTE * _O1 * _O2;
return n_byte_generated;
}
static
void generate_B1_B2( unsigned char *sk, prng_t *prng0 ) {
sk += generate_l1_F12( sk, prng0 );
generate_l2_F12356( sk, prng0 );
}
static
void calculate_t4( unsigned char *t2_to_t4, const unsigned char *t1, const unsigned char *t3 ) {
// t4 = T_sk.t1 * T_sk.t3 - T_sk.t2
unsigned char temp[_V1_BYTE + 32];
unsigned char *t4 = t2_to_t4;
for (unsigned i = 0; i < _O2; i++) { /// t3 width
gfmat_prod( temp, t1, _V1_BYTE, _O1, t3 );
gf256v_add( t4, temp, _V1_BYTE );
t4 += _V1_BYTE;
t3 += _O1_BYTE;
}
}
static
void obsfucate_l1_polys( unsigned char *l1_polys, const unsigned char *l2_polys, unsigned n_terms, const unsigned char *s1 ) {
unsigned char temp[_O1_BYTE + 32];
while ( n_terms-- ) {
gfmat_prod( temp, s1, _O1_BYTE, _O2, l2_polys );
gf256v_add( l1_polys, temp, _O1_BYTE );
l1_polys += _O1_BYTE;
l2_polys += _O2_BYTE;
}
}
/////////////////// Classic //////////////////////////////////
///////////////////// Cyclic //////////////////////////////////
void PQCLEAN_RAINBOWIACYCLIC_CLEAN_generate_keypair_cyclic( cpk_t *pk, sk_t *sk, const unsigned char *pk_seed, const unsigned char *sk_seed ) {
memcpy( pk->pk_seed, pk_seed, LEN_PKSEED );
memcpy( sk->sk_seed, sk_seed, LEN_SKSEED );
// prng for sk
prng_t prng;
prng_t *prng0 = &prng;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_set( prng0, sk_seed, LEN_SKSEED );
generate_S_T( sk->s1, prng0 ); // S,T: only a part of sk
unsigned char t2[sizeof(sk->t4)];
memcpy( t2, sk->t4, _V1_BYTE * _O2 ); // temporarily store t2
calculate_t4( sk->t4, sk->t1, sk->t3 ); // t2 <- t4
// prng for pk
sk_t inst_Qs;
sk_t *Qs = &inst_Qs;
prng_t *prng1 = &prng;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_set( prng1, pk_seed, LEN_PKSEED );
generate_B1_B2( Qs->l1_F1, prng1 ); // generating l1_Q1, l1_Q2, l2_Q1, l2_Q2, l2_Q3, l2_Q5, l2_Q6
obsfucate_l1_polys( Qs->l1_F1, Qs->l2_F1, N_TRIANGLE_TERMS(_V1), sk->s1 );
obsfucate_l1_polys( Qs->l1_F2, Qs->l2_F2, _V1 * _O1, sk->s1 );
// so far, the Qs contains l1_F1, l1_F2, l2_F1, l2_F2, l2_F3, l2_F5, l2_F6.
PQCLEAN_RAINBOWIACYCLIC_CLEAN_calculate_F_from_Q( sk, Qs, sk ); // calcuate the rest parts of secret key from Qs and S,T
unsigned char t4[sizeof(sk->t4)];
memcpy( t4, sk->t4, _V1_BYTE * _O2 ); // temporarily store t4
memcpy( sk->t4, t2, _V1_BYTE * _O2 ); // restore t2
PQCLEAN_RAINBOWIACYCLIC_CLEAN_calculate_Q_from_F_cyclic( pk, sk, sk ); // calculate the rest parts of public key: l1_Q3, l1_Q5, l1_Q6, l1_Q9, l2_Q9
memcpy( sk->t4, t4, _V1_BYTE * _O2 ); // restore t4
obsfucate_l1_polys( pk->l1_Q3, Qs->l2_F3, _V1 * _O2, sk->s1 );
obsfucate_l1_polys( pk->l1_Q5, Qs->l2_F5, N_TRIANGLE_TERMS(_O1), sk->s1 );
obsfucate_l1_polys( pk->l1_Q6, Qs->l2_F6, _O1 * _O2, sk->s1 );
obsfucate_l1_polys( pk->l1_Q9, pk->l2_Q9, N_TRIANGLE_TERMS(_O2), sk->s1 );
// clean
memset( &prng, 0, sizeof(prng_t) );
}
void PQCLEAN_RAINBOWIACYCLIC_CLEAN_cpk_to_pk( pk_t *rpk, const cpk_t *cpk ) {
// procedure: cpk_t --> extcpk_t --> pk_t
// convert from cpk_t to extcpk_t
ext_cpk_t pk;
// setup prng
prng_t prng0;
PQCLEAN_RAINBOWIACYCLIC_CLEAN_prng_set( &prng0, cpk->pk_seed, LEN_SKSEED );
// generating parts of key with prng
generate_l1_F12( pk.l1_Q1, &prng0 );
// copying parts of key from input. l1_Q3, l1_Q5, l1_Q6, l1_Q9
memcpy( pk.l1_Q3, cpk->l1_Q3, _O1_BYTE * ( _V1 * _O2 + N_TRIANGLE_TERMS(_O1) + _O1 * _O2 + N_TRIANGLE_TERMS(_O2) ) );
// generating parts of key with prng
generate_l2_F12356( pk.l2_Q1, &prng0 );
// copying parts of key from input: l2_Q9
memcpy( pk.l2_Q9, cpk->l2_Q9, _O2_BYTE * N_TRIANGLE_TERMS(_O2) );
// convert from extcpk_t to pk_t
PQCLEAN_RAINBOWIACYCLIC_CLEAN_extcpk_to_pk( rpk, &pk );
}
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