pqc/crypto_sign/rainbowV-classic/clean/rainbow_keypair_computation.h

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#ifndef _RAINBOW_KEYPAIR_COMP_H_
#define _RAINBOW_KEYPAIR_COMP_H_
/// @file rainbow_keypair_computation.h
/// @brief Functions for calculating pk/sk while generating keys.
///
/// Defining an internal structure of public key.
/// Functions for calculating pk/sk for key generation.
///
#include "rainbow_keypair.h"
/// @brief The (internal use) public key for rainbow
///
/// The (internal use) public key for rainbow. The public
/// polynomials are divided into l1_Q1, l1_Q2, ... l1_Q9,
/// l2_Q1, .... , l2_Q9.
///
typedef struct rainbow_extend_publickey {
unsigned char l1_Q1[_O1_BYTE * N_TRIANGLE_TERMS(_V1)];
unsigned char l1_Q2[_O1_BYTE * _V1 * _O1];
unsigned char l1_Q3[_O1_BYTE * _V1 * _O2];
unsigned char l1_Q5[_O1_BYTE * N_TRIANGLE_TERMS(_O1)];
unsigned char l1_Q6[_O1_BYTE * _O1 * _O2];
unsigned char l1_Q9[_O1_BYTE * N_TRIANGLE_TERMS(_O2)];
unsigned char l2_Q1[_O2_BYTE * N_TRIANGLE_TERMS(_V1)];
unsigned char l2_Q2[_O2_BYTE * _V1 * _O1];
unsigned char l2_Q3[_O2_BYTE * _V1 * _O2];
unsigned char l2_Q5[_O2_BYTE * N_TRIANGLE_TERMS(_O1)];
unsigned char l2_Q6[_O2_BYTE * _O1 * _O2];
unsigned char l2_Q9[_O2_BYTE * N_TRIANGLE_TERMS(_O2)];
} ext_cpk_t;
///
/// @brief converting formats of public keys : from ext_cpk_t version to pk_t
///
/// @param[out] pk - the classic public key.
/// @param[in] cpk - the internel public key.
///
void PQCLEAN_RAINBOWVCLASSIC_CLEAN_extcpk_to_pk(pk_t *pk, const ext_cpk_t *cpk);
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/////////////////////////////////////////////////
///
/// @brief Computing public key from secret key
///
/// @param[out] Qs - the public key
/// @param[in] Fs - parts of the secret key: l1_F1, l1_F2, l2_F1, l2_F2, l2_F3, l2_F5, l2_F6
/// @param[in] Ts - parts of the secret key: T1, T4, T3
///
void PQCLEAN_RAINBOWVCLASSIC_CLEAN_calculate_Q_from_F(ext_cpk_t *Qs, const sk_t *Fs, const sk_t *Ts);
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#endif // _RAINBOW_KEYPAIR_COMP_H_