crypto/spx/spx.c - boringssl.git - Git at Google

 /* Copyright (c) 2023, Google LLC
  *
  * 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. */

 #include <openssl/base.h>

 #include <string.h>

 #define OPENSSL_UNSTABLE_EXPERIMENTAL_SPX
 #include <openssl/experimental/spx.h>
 #include <openssl/rand.h>

 #include "./address.h"
 #include "./fors.h"
 #include "./merkle.h"
 #include "./params.h"
 #include "./spx_util.h"
 #include "./thash.h"

 void SPX_generate_key(uint8_t out_public_key[SPX_PUBLIC_KEY_BYTES],
                       uint8_t out_secret_key[SPX_SECRET_KEY_BYTES]) {
   uint8_t seed[3 * SPX_N];
   RAND_bytes(seed, 3 * SPX_N);
   SPX_generate_key_from_seed(out_public_key, out_secret_key, seed);
 }

 void SPX_generate_key_from_seed(uint8_t out_public_key[SPX_PUBLIC_KEY_BYTES],
                                 uint8_t out_secret_key[SPX_SECRET_KEY_BYTES],
                                 const uint8_t seed[3 * SPX_N]) {
   // Initialize SK.seed || SK.prf || PK.seed from seed.
   memcpy(out_secret_key, seed, 3 * SPX_N);

   // Initialize PK.seed from seed.
   memcpy(out_public_key, seed + 2 * SPX_N, SPX_N);

   uint8_t addr[32] = {0};
   spx_set_layer_addr(addr, SPX_D - 1);

   // Set PK.root
   spx_treehash(out_public_key + SPX_N, out_secret_key, 0, SPX_TREE_HEIGHT,
                out_public_key, addr);
   memcpy(out_secret_key + 3 * SPX_N, out_public_key + SPX_N, SPX_N);
 }

 void SPX_sign(uint8_t out_signature[SPX_SIGNATURE_BYTES],
               const uint8_t secret_key[SPX_SECRET_KEY_BYTES],
               const uint8_t *msg, size_t msg_len, int randomized) {
   uint8_t addr[32] = {0};
   const uint8_t *sk_seed = secret_key;
   const uint8_t *sk_prf = secret_key + SPX_N;
   const uint8_t *pk_seed = secret_key + 2 * SPX_N;
   const uint8_t *pk_root = secret_key + 3 * SPX_N;

   uint8_t opt_rand[SPX_N] = {0};

   if (randomized) {
     RAND_bytes(opt_rand, SPX_N);
   } else {
     memcpy(opt_rand, pk_seed, SPX_N);
   }

   // Derive randomizer r and copy it to signature.
   uint8_t r[SPX_N];
   spx_thash_prfmsg(r, sk_prf, opt_rand, msg, msg_len);
   memcpy(out_signature, r, SPX_N);

   uint8_t digest[SPX_DIGEST_SIZE];
   spx_thash_hmsg(digest, r, pk_seed, pk_root, msg, msg_len);

   uint8_t fors_digest[SPX_FORS_MSG_BYTES];
   memcpy(fors_digest, digest, SPX_FORS_MSG_BYTES);

   uint8_t *tmp_idx_tree = digest + SPX_FORS_MSG_BYTES;
   uint8_t *tmp_idx_leaf = tmp_idx_tree + SPX_TREE_BYTES;

   uint64_t idx_tree = spx_to_uint64(tmp_idx_tree, SPX_TREE_BYTES);
   idx_tree &= (~(uint64_t)0) >> (64 - SPX_TREE_BITS);

   uint32_t idx_leaf = (uint32_t)spx_to_uint64(tmp_idx_leaf, SPX_LEAF_BYTES);
   idx_leaf &= (~(uint32_t)0) >> (32 - SPX_LEAF_BITS);

   spx_set_tree_addr(addr, idx_tree);
   spx_set_type(addr, SPX_ADDR_TYPE_FORSTREE);
   spx_set_keypair_addr(addr, idx_leaf);

   spx_fors_sign(out_signature + SPX_N, fors_digest, sk_seed, pk_seed, addr);

   uint8_t pk_fors[SPX_N];
   spx_fors_pk_from_sig(pk_fors, out_signature + SPX_N, fors_digest, pk_seed,
                        addr);

   spx_ht_sign(out_signature + SPX_N + SPX_FORS_BYTES, pk_fors, idx_tree,
               idx_leaf, sk_seed, pk_seed);
 }

 int SPX_verify(const uint8_t signature[SPX_SIGNATURE_BYTES],
                const uint8_t public_key[SPX_SECRET_KEY_BYTES],
                const uint8_t *msg, size_t msg_len) {
   uint8_t addr[32] = {0};
   const uint8_t *pk_seed = public_key;
   const uint8_t *pk_root = public_key + SPX_N;

   const uint8_t *r = signature;
   const uint8_t *sig_fors = signature + SPX_N;
   const uint8_t *sig_ht = sig_fors + SPX_FORS_BYTES;

   uint8_t digest[SPX_DIGEST_SIZE];
   spx_thash_hmsg(digest, r, pk_seed, pk_root, msg, msg_len);

   uint8_t fors_digest[SPX_FORS_MSG_BYTES];
   memcpy(fors_digest, digest, SPX_FORS_MSG_BYTES);

   uint8_t *tmp_idx_tree = digest + SPX_FORS_MSG_BYTES;
   uint8_t *tmp_idx_leaf = tmp_idx_tree + SPX_TREE_BYTES;

   uint64_t idx_tree = spx_to_uint64(tmp_idx_tree, SPX_TREE_BYTES);
   idx_tree &= (~(uint64_t)0) >> (64 - SPX_TREE_BITS);

   uint32_t idx_leaf = (uint32_t)spx_to_uint64(tmp_idx_leaf, SPX_LEAF_BYTES);
   idx_leaf &= (~(uint32_t)0) >> (32 - SPX_LEAF_BITS);

   spx_set_tree_addr(addr, idx_tree);
   spx_set_type(addr, SPX_ADDR_TYPE_FORSTREE);
   spx_set_keypair_addr(addr, idx_leaf);

   uint8_t pk_fors[SPX_N];
   spx_fors_pk_from_sig(pk_fors, sig_fors, fors_digest, pk_seed, addr);

   return spx_ht_verify(sig_ht, pk_fors, idx_tree, idx_leaf, pk_root, pk_seed);
 }
	/* Copyright (c) 2023, Google LLC
	*
	* 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. */

	#include <openssl/base.h>

	#include <string.h>

	#define OPENSSL_UNSTABLE_EXPERIMENTAL_SPX
	#include <openssl/experimental/spx.h>
	#include <openssl/rand.h>

	#include "./address.h"
	#include "./fors.h"
	#include "./merkle.h"
	#include "./params.h"
	#include "./spx_util.h"
	#include "./thash.h"

	void SPX_generate_key(uint8_t out_public_key[SPX_PUBLIC_KEY_BYTES],
	uint8_t out_secret_key[SPX_SECRET_KEY_BYTES]) {
	uint8_t seed[3 * SPX_N];
	RAND_bytes(seed, 3 * SPX_N);
	SPX_generate_key_from_seed(out_public_key, out_secret_key, seed);
	}

	void SPX_generate_key_from_seed(uint8_t out_public_key[SPX_PUBLIC_KEY_BYTES],
	uint8_t out_secret_key[SPX_SECRET_KEY_BYTES],
	const uint8_t seed[3 * SPX_N]) {
	// Initialize SK.seed \|\| SK.prf \|\| PK.seed from seed.
	memcpy(out_secret_key, seed, 3 * SPX_N);

	// Initialize PK.seed from seed.
	memcpy(out_public_key, seed + 2 * SPX_N, SPX_N);

	uint8_t addr[32] = {0};
	spx_set_layer_addr(addr, SPX_D - 1);

	// Set PK.root
	spx_treehash(out_public_key + SPX_N, out_secret_key, 0, SPX_TREE_HEIGHT,
	out_public_key, addr);
	memcpy(out_secret_key + 3 * SPX_N, out_public_key + SPX_N, SPX_N);
	}

	void SPX_sign(uint8_t out_signature[SPX_SIGNATURE_BYTES],
	const uint8_t secret_key[SPX_SECRET_KEY_BYTES],
	const uint8_t *msg, size_t msg_len, int randomized) {
	uint8_t addr[32] = {0};
	const uint8_t *sk_seed = secret_key;
	const uint8_t *sk_prf = secret_key + SPX_N;
	const uint8_t pk_seed = secret_key + 2 SPX_N;
	const uint8_t pk_root = secret_key + 3 SPX_N;

	uint8_t opt_rand[SPX_N] = {0};

	if (randomized) {
	RAND_bytes(opt_rand, SPX_N);
	} else {
	memcpy(opt_rand, pk_seed, SPX_N);
	}

	// Derive randomizer r and copy it to signature.
	uint8_t r[SPX_N];
	spx_thash_prfmsg(r, sk_prf, opt_rand, msg, msg_len);
	memcpy(out_signature, r, SPX_N);

	uint8_t digest[SPX_DIGEST_SIZE];
	spx_thash_hmsg(digest, r, pk_seed, pk_root, msg, msg_len);

	uint8_t fors_digest[SPX_FORS_MSG_BYTES];
	memcpy(fors_digest, digest, SPX_FORS_MSG_BYTES);

	uint8_t *tmp_idx_tree = digest + SPX_FORS_MSG_BYTES;
	uint8_t *tmp_idx_leaf = tmp_idx_tree + SPX_TREE_BYTES;

	uint64_t idx_tree = spx_to_uint64(tmp_idx_tree, SPX_TREE_BYTES);
	idx_tree &= (~(uint64_t)0) >> (64 - SPX_TREE_BITS);

	uint32_t idx_leaf = (uint32_t)spx_to_uint64(tmp_idx_leaf, SPX_LEAF_BYTES);
	idx_leaf &= (~(uint32_t)0) >> (32 - SPX_LEAF_BITS);

	spx_set_tree_addr(addr, idx_tree);
	spx_set_type(addr, SPX_ADDR_TYPE_FORSTREE);
	spx_set_keypair_addr(addr, idx_leaf);

	spx_fors_sign(out_signature + SPX_N, fors_digest, sk_seed, pk_seed, addr);

	uint8_t pk_fors[SPX_N];
	spx_fors_pk_from_sig(pk_fors, out_signature + SPX_N, fors_digest, pk_seed,
	addr);

	spx_ht_sign(out_signature + SPX_N + SPX_FORS_BYTES, pk_fors, idx_tree,
	idx_leaf, sk_seed, pk_seed);
	}

	int SPX_verify(const uint8_t signature[SPX_SIGNATURE_BYTES],
	const uint8_t public_key[SPX_SECRET_KEY_BYTES],
	const uint8_t *msg, size_t msg_len) {
	uint8_t addr[32] = {0};
	const uint8_t *pk_seed = public_key;
	const uint8_t *pk_root = public_key + SPX_N;

	const uint8_t *r = signature;
	const uint8_t *sig_fors = signature + SPX_N;
	const uint8_t *sig_ht = sig_fors + SPX_FORS_BYTES;

	uint8_t digest[SPX_DIGEST_SIZE];
	spx_thash_hmsg(digest, r, pk_seed, pk_root, msg, msg_len);

	uint8_t fors_digest[SPX_FORS_MSG_BYTES];
	memcpy(fors_digest, digest, SPX_FORS_MSG_BYTES);

	uint8_t *tmp_idx_tree = digest + SPX_FORS_MSG_BYTES;
	uint8_t *tmp_idx_leaf = tmp_idx_tree + SPX_TREE_BYTES;

	uint64_t idx_tree = spx_to_uint64(tmp_idx_tree, SPX_TREE_BYTES);
	idx_tree &= (~(uint64_t)0) >> (64 - SPX_TREE_BITS);

	uint32_t idx_leaf = (uint32_t)spx_to_uint64(tmp_idx_leaf, SPX_LEAF_BYTES);
	idx_leaf &= (~(uint32_t)0) >> (32 - SPX_LEAF_BITS);

	spx_set_tree_addr(addr, idx_tree);
	spx_set_type(addr, SPX_ADDR_TYPE_FORSTREE);
	spx_set_keypair_addr(addr, idx_leaf);

	uint8_t pk_fors[SPX_N];
	spx_fors_pk_from_sig(pk_fors, sig_fors, fors_digest, pk_seed, addr);

	return spx_ht_verify(sig_ht, pk_fors, idx_tree, idx_leaf, pk_root, pk_seed);
	}