MastersThesis/PQ_TIIGER_TLS/sal/miracl-winx64-15-04-24/includes/ecdh_NUMS256E.h

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/*
* Copyright (c) 2012-2020 MIRACL UK Ltd.
*
* This file is part of MIRACL Core
* (see https://github.com/miracl/core).
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @file ecdh.h
* @author Mike Scott and Kealan McCusker
* @date 2nd June 2015
* @brief ECDH Header file for implementation of standard EC protocols
*
* declares functions
*
*/
#ifndef ECDH_NUMS256E_H
#define ECDH_NUMS256E_H
#include "ecp_NUMS256E.h"
//#include "ecdh_support.h"
using namespace core;
/*** START OF USER CONFIGURABLE SECTION - ***/
/*** START OF USER CONFIGURABLE SECTION - ***/
/*** END OF USER CONFIGURABLE SECTION ***/
#define EGS_NUMS256E MODBYTES_B256_56 /**< ECC Group Size in bytes */
#define EFS_NUMS256E MODBYTES_B256_56 /**< ECC Field Size in bytes */
#define ECDH_OK 0 /**< Function completed without error */
/*#define ECDH_DOMAIN_ERROR -1*/
#define ECDH_INVALID_PUBLIC_KEY -2 /**< Public Key is Invalid */
#define ECDH_ERROR -3 /**< ECDH Internal Error */
//#define ECDH_INVALID -4 /**< ECDH Internal Error */
/*#define ECDH_DOMAIN_NOT_FOUND -5
#define ECDH_OUT_OF_MEMORY -6
#define ECDH_DIV_BY_ZERO -7
#define ECDH_BAD_ASSUMPTION -8*/
namespace NUMS256E {
/** @brief Test if group element in correct range
*
@param s is a random number
@return 1 if 0<s<r where r is group order, else 0
*/
extern int ECP_IN_RANGE(octet *s);
/* ECDH primitives */
/** @brief Generate an ECC public/private key pair
*
@param R is a pointer to a cryptographically secure random number generator
@param s the private key, an output internally randomly generated if R!=NULL, otherwise must be provided as an input
@param W the output public key, which is s.G, where G is a fixed generator
@return 0 or an error code
*/
extern int ECP_KEY_PAIR_GENERATE(csprng *R, octet *s, octet *W);
/** @brief Validate an ECC public key
*
@param W the input public key to be validated
@return 0 if public key is OK, or an error code
*/
extern int ECP_PUBLIC_KEY_VALIDATE(octet *W);
/* ECDH primitives */
/** @brief Generate Diffie-Hellman shared key
*
IEEE-1363 Diffie-Hellman shared secret calculation
@param s is the input private key,
@param W the input public key of the other party
@param K the output shared key, in fact the x-coordinate of s.W
@param type the output form = 0 for just x, 1 for compressed, 2 for uncompressed
@return 0 or an error code
*/
extern int ECP_SVDP_DH(octet *s, octet *W, octet *K, int type);
/*extern int ECPSVDP_DHC(octet *,octet *,int,octet *);*/
/*#if CURVETYPE!=MONTGOMERY */
/* ECIES functions */
/*#if CURVETYPE!=MONTGOMERY */
/* ECIES functions */
/** @brief ECIES Encryption
*
IEEE-1363 ECIES Encryption
@param P1 input Key Derivation parameters
@param P2 input Encoding parameters
@param R is a pointer to a cryptographically secure random number generator
@param W the input public key of the recieving party
@param M is the plaintext message to be encrypted
@param len the length of the HMAC tag
@param V component of the output ciphertext
@param C the output ciphertext
@param T the output HMAC tag, part of the ciphertext
*/
extern void ECP_ECIES_ENCRYPT(int hlen, octet *P1, octet *P2, csprng *R, octet *W, octet *M, int len, octet *V, octet *C, octet *T);
/** @brief ECIES Decryption
*
IEEE-1363 ECIES Decryption
@param hlen is hash output length
@param P1 input Key Derivation parameters
@param P2 input Encoding parameters
@param V component of the input ciphertext
@param C the input ciphertext
@param T the input HMAC tag, part of the ciphertext
@param U the input private key for decryption
@param M the output plaintext message
@return 1 if successful, else 0
*/
extern int ECP_ECIES_DECRYPT(int hlen, octet *P1, octet *P2, octet *V, octet *C, octet *T, octet *U, octet *M);
/* ECDSA functions */
/** @brief ECDSA Signature
*
IEEE-1363 ECDSA Signature
@param hlen is hash output length
@param R is a pointer to a cryptographically secure random number generator
@param k Ephemeral key. This value is used when R=NULL
@param s the input private signing key
@param M the input message to be signed
@param c component of the output signature
@param d component of the output signature
*/
extern int ECP_SP_DSA(int hlen, csprng *R, octet *k, octet *s, octet *M, octet *c, octet *d);
/** @brief ECDSA Signature Verification
*
IEEE-1363 ECDSA Signature Verification
@param hlen is hash output length
@param W the input public key
@param M the input message
@param c component of the input signature
@param d component of the input signature
@return 0 or an error code
*/
extern int ECP_VP_DSA(int hlen, octet *W, octet *M, octet *c, octet *d);
/*#endif*/
}
#endif