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/* $OpenBSD: mlkem.h,v 1.4 2024/12/19 23:52:26 tb Exp $ */
/*
* Copyright (c) 2024, Google Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifndef OPENSSL_HEADER_MLKEM_H
#define OPENSSL_HEADER_MLKEM_H
#include <sys/types.h>
#include <stdint.h>
#if defined(__cplusplus)
extern "C" {
#endif
/* Hack for now */
struct cbs_st;
struct cbb_st;
/*
* ML-KEM-768
*
* This implements the Module-Lattice-Based Key-Encapsulation Mechanism from
* https://csrc.nist.gov/pubs/fips/204/final
*/
/*
* MLKEM768_public_key contains a ML-KEM-768 public key. The contents of this
* object should never leave the address space since the format is unstable.
*/
struct MLKEM768_public_key {
union {
uint8_t bytes[512 * (3 + 9) + 32 + 32];
uint16_t alignment;
} opaque;
};
/*
* MLKEM768_private_key contains a ML-KEM-768 private key. The contents of this
* object should never leave the address space since the format is unstable.
*/
struct MLKEM768_private_key {
union {
uint8_t bytes[512 * (3 + 3 + 9) + 32 + 32 + 32];
uint16_t alignment;
} opaque;
};
/*
* MLKEM768_PUBLIC_KEY_BYTES is the number of bytes in an encoded ML-KEM768 public
* key.
*/
#define MLKEM768_PUBLIC_KEY_BYTES 1184
/* MLKEM_SEED_BYTES is the number of bytes in an ML-KEM seed. */
#define MLKEM_SEED_BYTES 64
/*
* MLKEM_SHARED_SECRET_BYTES is the number of bytes in the ML-KEM768 shared
* secret. Although the round-3 specification has a variable-length output, the
* final ML-KEM construction is expected to use a fixed 32-byte output. To
* simplify the future transition, we apply the same restriction.
*/
#define MLKEM_SHARED_SECRET_BYTES 32
/*
* MLKEM_generate_key generates a random public/private key pair, writes the
* encoded public key to |out_encoded_public_key| and sets |out_private_key| to
* the private key. If |optional_out_seed| us not NULL then te seed used to
* generate te private key is written to it.
*/
void MLKEM768_generate_key(
uint8_t out_encoded_public_key[MLKEM768_PUBLIC_KEY_BYTES],
uint8_t optional_out_seed[MLKEM_SEED_BYTES],
struct MLKEM768_private_key *out_private_key);
/*
* MLKEM768_private_key_from_seed derives a private key from a seed that was
* generated by |MLKEM768_generate_key|. It fails and returns 0 if |seed_len| is
* incorrect, otherwise it writes |*out_private_key| and returns 1.
*/
int MLKEM768_private_key_from_seed(struct MLKEM768_private_key *out_private_key,
const uint8_t *seed, size_t seed_len);
/*
* MLKEM_public_from_private sets |*out_public_key| to the public key that
* corresponds to |private_key|. (This is faster than parsing the output of
* |MLKEM_generate_key| if, for some reason, you need to encapsulate to a key
* that was just generated.)
*/
void MLKEM768_public_from_private(struct MLKEM768_public_key *out_public_key,
const struct MLKEM768_private_key *private_key);
/* MLKEM768_CIPHERTEXT_BYTES is number of bytes in the ML-KEM768 ciphertext. */
#define MLKEM768_CIPHERTEXT_BYTES 1088
/*
* MLKEM768_encap encrypts a random shared secret for |public_key|, writes the
* ciphertext to |out_ciphertext|, and writes the random shared secret to
* |out_shared_secret|.
*/
void MLKEM768_encap(uint8_t out_ciphertext[MLKEM768_CIPHERTEXT_BYTES],
uint8_t out_shared_secret[MLKEM_SHARED_SECRET_BYTES],
const struct MLKEM768_public_key *public_key);
/*
* MLKEM768_decap decrypts a shared secret from |ciphertext| using |private_key|
* and writes it to |out_shared_secret|. If |ciphertext_len| is incorrect it
* returns 0, otherwise it rreturns 1. If |ciphertext| is invalid,
* |out_shared_secret| is filled with a key that will always be the same for the
* same |ciphertext| and |private_key|, but which appears to be random unless
* one has access to |private_key|. These alternatives occur in constant time.
* Any subsequent symmetric encryption using |out_shared_secret| must use an
* authenticated encryption scheme in order to discover the decapsulation
* failure.
*/
int MLKEM768_decap(uint8_t out_shared_secret[MLKEM_SHARED_SECRET_BYTES],
const uint8_t *ciphertext, size_t ciphertext_len,
const struct MLKEM768_private_key *private_key);
/* Serialisation of keys. */
/*
* MLKEM768_marshal_public_key serializes |public_key| to |out| in the standard
* format for ML-KEM public keys. It returns one on success or zero on allocation
* error.
*/
int MLKEM768_marshal_public_key(struct cbb_st *out,
const struct MLKEM768_public_key *public_key);
/*
* MLKEM768_parse_public_key parses a public key, in the format generated by
* |MLKEM_marshal_public_key|, from |in| and writes the result to
* |out_public_key|. It returns one on success or zero on parse error or if
* there are trailing bytes in |in|.
*/
int MLKEM768_parse_public_key(struct MLKEM768_public_key *out_public_key,
struct cbs_st *in);
/*
* MLKEM_parse_private_key parses a private key, in the format generated by
* |MLKEM_marshal_private_key|, from |in| and writes the result to
* |out_private_key|. It returns one on success or zero on parse error or if
* there are trailing bytes in |in|. This formate is verbose and should be avoided.
* Private keys should be stored as seeds and parsed using |MLKEM768_private_key_from_seed|.
*/
int MLKEM768_parse_private_key(struct MLKEM768_private_key *out_private_key,
struct cbs_st *in);
/*
* ML-KEM-1024
*
* ML-KEM-1024 also exists. You should prefer ML-KEM-768 where possible.
*/
/*
* MLKEM1024_public_key contains an ML-KEM-1024 public key. The contents of this
* object should never leave the address space since the format is unstable.
*/
struct MLKEM1024_public_key {
union {
uint8_t bytes[512 * (4 + 16) + 32 + 32];
uint16_t alignment;
} opaque;
};
/*
* MLKEM1024_private_key contains a ML-KEM-1024 private key. The contents of
* this object should never leave the address space since the format is
* unstable.
*/
struct MLKEM1024_private_key {
union {
uint8_t bytes[512 * (4 + 4 + 16) + 32 + 32 + 32];
uint16_t alignment;
} opaque;
};
/*
* MLKEM1024_PUBLIC_KEY_BYTES is the number of bytes in an encoded ML-KEM-1024
* public key.
*/
#define MLKEM1024_PUBLIC_KEY_BYTES 1568
/*
* MLKEM1024_generate_key generates a random public/private key pair, writes the
* encoded public key to |out_encoded_public_key| and sets |out_private_key| to
* the private key. If |optional_out_seed| is not NULL then the seed used to
* generate the private key is written to it.
*/
void MLKEM1024_generate_key(
uint8_t out_encoded_public_key[MLKEM1024_PUBLIC_KEY_BYTES],
uint8_t optional_out_seed[MLKEM_SEED_BYTES],
struct MLKEM1024_private_key *out_private_key);
/*
* MLKEM1024_private_key_from_seed derives a private key from a seed that was
* generated by |MLKEM1024_generate_key|. It fails and returns 0 if |seed_len|
* is incorrect, otherwise it writes |*out_private_key| and returns 1.
*/
int MLKEM1024_private_key_from_seed(
struct MLKEM1024_private_key *out_private_key, const uint8_t *seed,
size_t seed_len);
/*
* MLKEM1024_public_from_private sets |*out_public_key| to the public key that
* corresponds to |private_key|. (This is faster than parsing the output of
* |MLKEM1024_generate_key| if, for some reason, you need to encapsulate to a
* key that was just generated.)
*/
void MLKEM1024_public_from_private(struct MLKEM1024_public_key *out_public_key,
const struct MLKEM1024_private_key *private_key);
/* MLKEM1024_CIPHERTEXT_BYTES is number of bytes in the ML-KEM-1024 ciphertext. */
#define MLKEM1024_CIPHERTEXT_BYTES 1568
/*
* MLKEM1024_encap encrypts a random shared secret for |public_key|, writes the
* ciphertext to |out_ciphertext|, and writes the random shared secret to
* |out_shared_secret|.
*/
void MLKEM1024_encap(uint8_t out_ciphertext[MLKEM1024_CIPHERTEXT_BYTES],
uint8_t out_shared_secret[MLKEM_SHARED_SECRET_BYTES],
const struct MLKEM1024_public_key *public_key);
/*
* MLKEM1024_decap decrypts a shared secret from |ciphertext| using
* |private_key| and writes it to |out_shared_secret|. If |ciphertext_len| is
* incorrect it returns 0, otherwise it returns 1. If |ciphertext| is invalid
* (but of the correct length), |out_shared_secret| is filled with a key that
* will always be the same for the same |ciphertext| and |private_key|, but
* which appears to be random unless one has access to |private_key|. These
* alternatives occur in constant time. Any subsequent symmetric encryption
* using |out_shared_secret| must use an authenticated encryption scheme in
* order to discover the decapsulation failure.
*/
int MLKEM1024_decap(uint8_t out_shared_secret[MLKEM_SHARED_SECRET_BYTES],
const uint8_t *ciphertext, size_t ciphertext_len,
const struct MLKEM1024_private_key *private_key);
/*
* Serialisation of ML-KEM-1024 keys.
* MLKEM1024_marshal_public_key serializes |public_key| to |out| in the standard
* format for ML-KEM-1024 public keys. It returns one on success or zero on
* allocation error.
*/
int MLKEM1024_marshal_public_key(struct cbb_st *out,
const struct MLKEM1024_public_key *public_key);
/*
* MLKEM1024_parse_public_key parses a public key, in the format generated by
* |MLKEM1024_marshal_public_key|, from |in| and writes the result to
* |out_public_key|. It returns one on success or zero on parse error or if
* there are trailing bytes in |in|.
*/
int MLKEM1024_parse_public_key(struct MLKEM1024_public_key *out_public_key,
struct cbs_st *in);
/*
* MLKEM1024_parse_private_key parses a private key, in NIST's format for
* private keys, from |in| and writes the result to |out_private_key|. It
* returns one on success or zero on parse error or if there are trailing bytes
* in |in|. This format is verbose and should be avoided. Private keys should be
* stored as seeds and parsed using |MLKEM1024_private_key_from_seed|.
*/
int MLKEM1024_parse_private_key(struct MLKEM1024_private_key *out_private_key,
struct cbs_st *in);
#if defined(__cplusplus)
}
#endif
#endif /* OPENSSL_HEADER_MLKEM_H */
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