masterthesis-ecdaa-network-.../amcl-extensions/big_256_56.h


								/******************************************************************************

								 *

								 * Copyright 2017 Xaptum, Inc.

								 *

								 *    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

								 *

								 *****************************************************************************/


								#ifndef ECDAA_BIG_256_56_EXTENSIONS_H

								#define ECDAA_BIG_256_56_EXTENSIONS_H

								#pragma once


								#ifdef __cplusplus

								extern "C" {

								#endif


								#include <amcl/big_256_56.h>

								#include <amcl/amcl.h>

								#include <amcl/randapi.h>


								#include <stdint.h>


								/*

								 * Hash the supplied message and convert to a BIG_256_56.

								 *

								 * Output BIG_256_56 is un-normalized (and _not_ modulo any group order).

								 *

								 * Intermediate memory is cleared.

								 */

								void big_256_56_from_hash(BIG_256_56 *big_out,

								                       const uint8_t *msg_in,

								                       uint32_t msg_len);


								/*

								 * Same as big_256_56_from_hash, but with two input messages.

								 */

								void big_256_56_from_two_message_hash(BIG_256_56 *big_out,

								                                   const uint8_t *msg1_in,

								                                   uint32_t msg1_len,

								                                   const uint8_t *msg2_in,

								                                   uint32_t msg2_len);


								/*

								 * Same as big_256_56_from_hash, but with three input messages.

								 */

								void big_256_56_from_three_message_hash(BIG_256_56 *big_out,

								                                     const uint8_t *msg1_in,

								                                     uint32_t msg1_len,

								                                     const uint8_t *msg2_in,

								                                     uint32_t msg2_len,

								                                     const uint8_t *msg3_in,

								                                     uint32_t msg3_len);


								/*

								 * Multiply two BIG_256_56's, then add the product to a third BIG_256_56, all modulo a given modulus.

								 *

								 * BIG_256_56_out = [ summand + (multiplicand1 * multiplicand2) ] mod modulus

								 *

								 * Inputs don't need to be normalized, and will be normalized (and reduced modulo `modulus`) after return.

								 * Output is normalized.

								 */

								void big_256_56_mod_mul_and_add(BIG_256_56 *big_out,

								                             BIG_256_56 summand,

								                             BIG_256_56 multiplicand1,

								                             BIG_256_56 multiplicand2,

								                             BIG_256_56 modulus);


								#ifdef __cplusplus

								}

								#endif


								#endif