openssl/crypto/ec/curve448/eddsa.c

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/**
* @file ed448goldilocks/eddsa.c
* @author Mike Hamburg
*
* @copyright
* Copyright (c) 2015-2016 Cryptography Research, Inc. \n
* Released under the MIT License. See LICENSE.txt for license information.
*
* @cond internal
* @brief EdDSA routines.
*
* @warning This file was automatically generated in Python.
* Please do not edit it.
*/
#include "word.h"
#include "ed448.h"
#include "shake.h"
#include <string.h>
#define API_NAME "decaf_448"
#define API_NS(_id) decaf_448_##_id
#define hash_ctx_t decaf_shake256_ctx_t
#define hash_init decaf_shake256_init
#define hash_update decaf_shake256_update
#define hash_final decaf_shake256_final
#define hash_destroy decaf_shake256_destroy
#define hash_hash decaf_shake256_hash
#define NO_CONTEXT DECAF_EDDSA_448_SUPPORTS_CONTEXTLESS_SIGS
#define EDDSA_USE_SIGMA_ISOGENY 0
#define COFACTOR 4
#define EDDSA_PREHASH_BYTES 64
#if NO_CONTEXT
const uint8_t NO_CONTEXT_POINTS_HERE = 0;
const uint8_t * const DECAF_ED448_NO_CONTEXT = &NO_CONTEXT_POINTS_HERE;
#endif
/* EDDSA_BASE_POINT_RATIO = 1 or 2
* Because EdDSA25519 is not on E_d but on the isogenous E_sigma_d,
* its base point is twice ours.
*/
#define EDDSA_BASE_POINT_RATIO (1+EDDSA_USE_SIGMA_ISOGENY) /* TODO: remove */
static void clamp (
uint8_t secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES]
) {
/* Blarg */
secret_scalar_ser[0] &= -COFACTOR;
uint8_t hibit = (1<<0)>>1;
if (hibit == 0) {
secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES - 1] = 0;
secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES - 2] |= 0x80;
} else {
secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES - 1] &= hibit-1;
secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES - 1] |= hibit;
}
}
static void hash_init_with_dom(
hash_ctx_t hash,
uint8_t prehashed,
uint8_t for_prehash,
const uint8_t *context,
uint8_t context_len
) {
hash_init(hash);
#if NO_CONTEXT
if (context_len == 0 && context == DECAF_ED448_NO_CONTEXT) {
(void)prehashed;
(void)for_prehash;
(void)context;
(void)context_len;
return;
}
#endif
const char *dom_s = "SigEd448";
const uint8_t dom[2] = {2+word_is_zero(prehashed)+word_is_zero(for_prehash), context_len};
hash_update(hash,(const unsigned char *)dom_s, strlen(dom_s));
hash_update(hash,dom,2);
hash_update(hash,context,context_len);
}
void decaf_ed448_prehash_init (
hash_ctx_t hash
) {
hash_init(hash);
}
/* In this file because it uses the hash */
void decaf_ed448_convert_private_key_to_x448 (
uint8_t x[DECAF_X448_PRIVATE_BYTES],
const uint8_t ed[DECAF_EDDSA_448_PRIVATE_BYTES]
) {
/* pass the private key through hash_hash function */
/* and keep the first DECAF_X448_PRIVATE_BYTES bytes */
hash_hash(
x,
DECAF_X448_PRIVATE_BYTES,
ed,
DECAF_EDDSA_448_PRIVATE_BYTES
);
}
void decaf_ed448_derive_public_key (
uint8_t pubkey[DECAF_EDDSA_448_PUBLIC_BYTES],
const uint8_t privkey[DECAF_EDDSA_448_PRIVATE_BYTES]
) {
/* only this much used for keygen */
uint8_t secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES];
hash_hash(
secret_scalar_ser,
sizeof(secret_scalar_ser),
privkey,
DECAF_EDDSA_448_PRIVATE_BYTES
);
clamp(secret_scalar_ser);
API_NS(scalar_t) secret_scalar;
API_NS(scalar_decode_long)(secret_scalar, secret_scalar_ser, sizeof(secret_scalar_ser));
/* Since we are going to mul_by_cofactor during encoding, divide by it here.
* However, the EdDSA base point is not the same as the decaf base point if
* the sigma isogeny is in use: the EdDSA base point is on Etwist_d/(1-d) and
* the decaf base point is on Etwist_d, and when converted it effectively
* picks up a factor of 2 from the isogenies. So we might start at 2 instead of 1.
*/
for (unsigned int c=1; c<DECAF_448_EDDSA_ENCODE_RATIO; c <<= 1) {
API_NS(scalar_halve)(secret_scalar,secret_scalar);
}
API_NS(point_t) p;
API_NS(precomputed_scalarmul)(p,API_NS(precomputed_base),secret_scalar);
API_NS(point_mul_by_ratio_and_encode_like_eddsa)(pubkey, p);
/* Cleanup */
API_NS(scalar_destroy)(secret_scalar);
API_NS(point_destroy)(p);
decaf_bzero(secret_scalar_ser, sizeof(secret_scalar_ser));
}
void decaf_ed448_sign (
uint8_t signature[DECAF_EDDSA_448_SIGNATURE_BYTES],
const uint8_t privkey[DECAF_EDDSA_448_PRIVATE_BYTES],
const uint8_t pubkey[DECAF_EDDSA_448_PUBLIC_BYTES],
const uint8_t *message,
size_t message_len,
uint8_t prehashed,
const uint8_t *context,
uint8_t context_len
) {
API_NS(scalar_t) secret_scalar;
hash_ctx_t hash;
{
/* Schedule the secret key */
struct {
uint8_t secret_scalar_ser[DECAF_EDDSA_448_PRIVATE_BYTES];
uint8_t seed[DECAF_EDDSA_448_PRIVATE_BYTES];
} __attribute__((packed)) expanded;
hash_hash(
(uint8_t *)&expanded,
sizeof(expanded),
privkey,
DECAF_EDDSA_448_PRIVATE_BYTES
);
clamp(expanded.secret_scalar_ser);
API_NS(scalar_decode_long)(secret_scalar, expanded.secret_scalar_ser, sizeof(expanded.secret_scalar_ser));
/* Hash to create the nonce */
hash_init_with_dom(hash,prehashed,0,context,context_len);
hash_update(hash,expanded.seed,sizeof(expanded.seed));
hash_update(hash,message,message_len);
decaf_bzero(&expanded, sizeof(expanded));
}
/* Decode the nonce */
API_NS(scalar_t) nonce_scalar;
{
uint8_t nonce[2*DECAF_EDDSA_448_PRIVATE_BYTES];
hash_final(hash,nonce,sizeof(nonce));
API_NS(scalar_decode_long)(nonce_scalar, nonce, sizeof(nonce));
decaf_bzero(nonce, sizeof(nonce));
}
uint8_t nonce_point[DECAF_EDDSA_448_PUBLIC_BYTES] = {0};
{
/* Scalarmul to create the nonce-point */
API_NS(scalar_t) nonce_scalar_2;
API_NS(scalar_halve)(nonce_scalar_2,nonce_scalar);
for (unsigned int c = 2; c < DECAF_448_EDDSA_ENCODE_RATIO; c <<= 1) {
API_NS(scalar_halve)(nonce_scalar_2,nonce_scalar_2);
}
API_NS(point_t) p;
API_NS(precomputed_scalarmul)(p,API_NS(precomputed_base),nonce_scalar_2);
API_NS(point_mul_by_ratio_and_encode_like_eddsa)(nonce_point, p);
API_NS(point_destroy)(p);
API_NS(scalar_destroy)(nonce_scalar_2);
}
API_NS(scalar_t) challenge_scalar;
{
/* Compute the challenge */
hash_init_with_dom(hash,prehashed,0,context,context_len);
hash_update(hash,nonce_point,sizeof(nonce_point));
hash_update(hash,pubkey,DECAF_EDDSA_448_PUBLIC_BYTES);
hash_update(hash,message,message_len);
uint8_t challenge[2*DECAF_EDDSA_448_PRIVATE_BYTES];
hash_final(hash,challenge,sizeof(challenge));
hash_destroy(hash);
API_NS(scalar_decode_long)(challenge_scalar,challenge,sizeof(challenge));
decaf_bzero(challenge,sizeof(challenge));
}
API_NS(scalar_mul)(challenge_scalar,challenge_scalar,secret_scalar);
API_NS(scalar_add)(challenge_scalar,challenge_scalar,nonce_scalar);
decaf_bzero(signature,DECAF_EDDSA_448_SIGNATURE_BYTES);
memcpy(signature,nonce_point,sizeof(nonce_point));
API_NS(scalar_encode)(&signature[DECAF_EDDSA_448_PUBLIC_BYTES],challenge_scalar);
API_NS(scalar_destroy)(secret_scalar);
API_NS(scalar_destroy)(nonce_scalar);
API_NS(scalar_destroy)(challenge_scalar);
}
void decaf_ed448_sign_prehash (
uint8_t signature[DECAF_EDDSA_448_SIGNATURE_BYTES],
const uint8_t privkey[DECAF_EDDSA_448_PRIVATE_BYTES],
const uint8_t pubkey[DECAF_EDDSA_448_PUBLIC_BYTES],
const decaf_ed448_prehash_ctx_t hash,
const uint8_t *context,
uint8_t context_len
) {
uint8_t hash_output[EDDSA_PREHASH_BYTES];
{
decaf_ed448_prehash_ctx_t hash_too;
memcpy(hash_too,hash,sizeof(hash_too));
hash_final(hash_too,hash_output,sizeof(hash_output));
hash_destroy(hash_too);
}
decaf_ed448_sign(signature,privkey,pubkey,hash_output,sizeof(hash_output),1,context,context_len);
decaf_bzero(hash_output,sizeof(hash_output));
}
decaf_error_t decaf_ed448_verify (
const uint8_t signature[DECAF_EDDSA_448_SIGNATURE_BYTES],
const uint8_t pubkey[DECAF_EDDSA_448_PUBLIC_BYTES],
const uint8_t *message,
size_t message_len,
uint8_t prehashed,
const uint8_t *context,
uint8_t context_len
) {
API_NS(point_t) pk_point, r_point;
decaf_error_t error = API_NS(point_decode_like_eddsa_and_mul_by_ratio)(pk_point,pubkey);
if (DECAF_SUCCESS != error) { return error; }
error = API_NS(point_decode_like_eddsa_and_mul_by_ratio)(r_point,signature);
if (DECAF_SUCCESS != error) { return error; }
API_NS(scalar_t) challenge_scalar;
{
/* Compute the challenge */
hash_ctx_t hash;
hash_init_with_dom(hash,prehashed,0,context,context_len);
hash_update(hash,signature,DECAF_EDDSA_448_PUBLIC_BYTES);
hash_update(hash,pubkey,DECAF_EDDSA_448_PUBLIC_BYTES);
hash_update(hash,message,message_len);
uint8_t challenge[2*DECAF_EDDSA_448_PRIVATE_BYTES];
hash_final(hash,challenge,sizeof(challenge));
hash_destroy(hash);
API_NS(scalar_decode_long)(challenge_scalar,challenge,sizeof(challenge));
decaf_bzero(challenge,sizeof(challenge));
}
API_NS(scalar_sub)(challenge_scalar, API_NS(scalar_zero), challenge_scalar);
API_NS(scalar_t) response_scalar;
API_NS(scalar_decode_long)(
response_scalar,
&signature[DECAF_EDDSA_448_PUBLIC_BYTES],
DECAF_EDDSA_448_PRIVATE_BYTES
);
for (unsigned c=1; c<DECAF_448_EDDSA_DECODE_RATIO; c<<=1) {
API_NS(scalar_add)(response_scalar,response_scalar,response_scalar);
}
/* pk_point = -c(x(P)) + (cx + k)G = kG */
API_NS(base_double_scalarmul_non_secret)(
pk_point,
response_scalar,
pk_point,
challenge_scalar
);
return decaf_succeed_if(API_NS(point_eq(pk_point,r_point)));
}
decaf_error_t decaf_ed448_verify_prehash (
const uint8_t signature[DECAF_EDDSA_448_SIGNATURE_BYTES],
const uint8_t pubkey[DECAF_EDDSA_448_PUBLIC_BYTES],
const decaf_ed448_prehash_ctx_t hash,
const uint8_t *context,
uint8_t context_len
) {
decaf_error_t ret;
uint8_t hash_output[EDDSA_PREHASH_BYTES];
{
decaf_ed448_prehash_ctx_t hash_too;
memcpy(hash_too,hash,sizeof(hash_too));
hash_final(hash_too,hash_output,sizeof(hash_output));
hash_destroy(hash_too);
}
ret = decaf_ed448_verify(signature,pubkey,hash_output,sizeof(hash_output),1,context,context_len);
return ret;
}