crypto/spx/merkle.c - boringssl - 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>

 #include "./address.h"
 #include "./merkle.h"
 #include "./params.h"
 #include "./thash.h"
 #include "./wots.h"

 void spx_treehash(uint8_t out_pk[SPX_N], const uint8_t sk_seed[SPX_N],
                   uint32_t i /*target node index*/,
                   uint32_t z /*target node height*/,
                   const uint8_t pk_seed[SPX_N], uint8_t addr[32]) {
   BSSL_CHECK(z <= SPX_TREE_HEIGHT);
   BSSL_CHECK(i < (uint32_t)(1 << (SPX_TREE_HEIGHT - z)));

   if (z == 0) {
     spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
     spx_set_keypair_addr(addr, i);
     spx_wots_pk_gen(out_pk, sk_seed, pk_seed, addr);
   } else {
     // Stores left node and right node.
     uint8_t nodes[2 * SPX_N];
     spx_treehash(nodes, sk_seed, 2 * i, z - 1, pk_seed, addr);
     spx_treehash(nodes + SPX_N, sk_seed, 2 * i + 1, z - 1, pk_seed, addr);
     spx_set_type(addr, SPX_ADDR_TYPE_HASHTREE);
     spx_set_tree_height(addr, z);
     spx_set_tree_index(addr, i);
     spx_thash_h(out_pk, nodes, pk_seed, addr);
   }
 }

 void spx_xmss_sign(uint8_t *sig, const uint8_t msg[SPX_N], unsigned int idx,
                    const uint8_t sk_seed[SPX_N], const uint8_t pk_seed[SPX_N],
                    uint8_t addr[32]) {
   // Build authentication path
   for (size_t j = 0; j < SPX_TREE_HEIGHT; ++j) {
     unsigned int k = (idx >> j) ^ 1;
     spx_treehash(sig + SPX_WOTS_BYTES + j * SPX_N, sk_seed, k, j, pk_seed,
                  addr);
   }

   // Compute WOTS+ signature
   spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
   spx_set_keypair_addr(addr, idx);
   spx_wots_sign(sig, msg, sk_seed, pk_seed, addr);
 }

 void spx_xmss_pk_from_sig(uint8_t *root, const uint8_t *xmss_sig,
                           unsigned int idx, const uint8_t msg[SPX_N],
                           const uint8_t pk_seed[SPX_N], uint8_t addr[32]) {
   // Stores node[0] and node[1] from Algorithm 10
   uint8_t node[2 * SPX_N];
   uint8_t tmp[2 * SPX_N];
   spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
   spx_set_keypair_addr(addr, idx);
   spx_wots_pk_from_sig(node, xmss_sig, msg, pk_seed, addr);

   const uint8_t *auth = xmss_sig + SPX_WOTS_BYTES;

   spx_set_type(addr, SPX_ADDR_TYPE_HASHTREE);
   spx_set_tree_index(addr, idx);
   for (size_t k = 0; k < SPX_TREE_HEIGHT; ++k) {
     spx_set_tree_height(addr, k + 1);
     // Is even
     if (((idx >> k) & 1) == 0) {
       spx_set_tree_index(addr, spx_get_tree_index(addr) >> 1);
       memcpy(tmp, node, SPX_N);
       memcpy(tmp + SPX_N, auth + k * SPX_N, SPX_N);
       spx_thash_h(node + SPX_N, tmp, pk_seed, addr);
     } else {
       spx_set_tree_index(addr, (spx_get_tree_index(addr) - 1) >> 1);
       memcpy(tmp, auth + k * SPX_N, SPX_N);
       memcpy(tmp + SPX_N, node, SPX_N);
       spx_thash_h(node + SPX_N, tmp, pk_seed, addr);
     }
     memcpy(node, node + SPX_N, SPX_N);
   }
   memcpy(root, node, SPX_N);
 }

 void spx_ht_sign(uint8_t *sig, const uint8_t message[SPX_N], uint64_t idx_tree,
                  uint32_t idx_leaf, const uint8_t sk_seed[SPX_N],
                  const uint8_t pk_seed[SPX_N]) {
   uint8_t addr[32] = {0};
   spx_set_tree_addr(addr, idx_tree);

   // Layer 0
   uint8_t sig_tmp[SPX_XMSS_BYTES];
   spx_xmss_sign(sig_tmp, message, idx_leaf, sk_seed, pk_seed, addr);
   memcpy(sig, sig_tmp, sizeof(sig_tmp));

   uint8_t root[SPX_N];
   spx_xmss_pk_from_sig(root, sig_tmp, idx_leaf, message, pk_seed, addr);

   // All other layers
   for (size_t j = 1; j < SPX_D; ++j) {
     idx_leaf = idx_tree % (1 << SPX_TREE_HEIGHT);
     idx_tree = idx_tree >> SPX_TREE_HEIGHT;
     spx_set_layer_addr(addr, j);
     spx_set_tree_addr(addr, idx_tree);
     spx_xmss_sign(sig_tmp, root, idx_leaf, sk_seed, pk_seed, addr);
     memcpy(sig + j * SPX_XMSS_BYTES, sig_tmp, sizeof(sig_tmp));

     if (j < (SPX_D - 1)) {
       spx_xmss_pk_from_sig(root, sig_tmp, idx_leaf, root, pk_seed, addr);
     }
   }
 }

 int spx_ht_verify(const uint8_t sig[SPX_D * SPX_XMSS_BYTES],
                   const uint8_t message[SPX_N], uint64_t idx_tree,
                   uint32_t idx_leaf, const uint8_t pk_root[SPX_N],
                   const uint8_t pk_seed[SPX_N]) {
   uint8_t addr[32] = {0};
   spx_set_tree_addr(addr, idx_tree);

   uint8_t sig_tmp[SPX_XMSS_BYTES];
   memcpy(sig_tmp, sig, sizeof(sig_tmp));

   uint8_t node[SPX_N];
   spx_xmss_pk_from_sig(node, sig_tmp, idx_leaf, message, pk_seed, addr);

   for (size_t j = 1; j < SPX_D; ++j) {
     idx_leaf = idx_tree % (1 << SPX_TREE_HEIGHT);
     idx_tree = idx_tree >> SPX_TREE_HEIGHT;
     spx_set_layer_addr(addr, j);
     spx_set_tree_addr(addr, idx_tree);
     // Get jth XMSS signature
     memcpy(sig_tmp, sig + j * SPX_XMSS_BYTES, sizeof(sig_tmp));

     spx_xmss_pk_from_sig(node, sig_tmp, idx_leaf, node, pk_seed, addr);
   }
   return memcmp(node, pk_root, SPX_N) == 0;
 }
	/* 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>

	#include "./address.h"
	#include "./merkle.h"
	#include "./params.h"
	#include "./thash.h"
	#include "./wots.h"

	void spx_treehash(uint8_t out_pk[SPX_N], const uint8_t sk_seed[SPX_N],
	uint32_t i /target node index/,
	uint32_t z /target node height/,
	const uint8_t pk_seed[SPX_N], uint8_t addr[32]) {
	BSSL_CHECK(z <= SPX_TREE_HEIGHT);
	BSSL_CHECK(i < (uint32_t)(1 << (SPX_TREE_HEIGHT - z)));

	if (z == 0) {
	spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
	spx_set_keypair_addr(addr, i);
	spx_wots_pk_gen(out_pk, sk_seed, pk_seed, addr);
	} else {
	// Stores left node and right node.
	uint8_t nodes[2 * SPX_N];
	spx_treehash(nodes, sk_seed, 2 * i, z - 1, pk_seed, addr);
	spx_treehash(nodes + SPX_N, sk_seed, 2 * i + 1, z - 1, pk_seed, addr);
	spx_set_type(addr, SPX_ADDR_TYPE_HASHTREE);
	spx_set_tree_height(addr, z);
	spx_set_tree_index(addr, i);
	spx_thash_h(out_pk, nodes, pk_seed, addr);
	}
	}

	void spx_xmss_sign(uint8_t *sig, const uint8_t msg[SPX_N], unsigned int idx,
	const uint8_t sk_seed[SPX_N], const uint8_t pk_seed[SPX_N],
	uint8_t addr[32]) {
	// Build authentication path
	for (size_t j = 0; j < SPX_TREE_HEIGHT; ++j) {
	unsigned int k = (idx >> j) ^ 1;
	spx_treehash(sig + SPX_WOTS_BYTES + j * SPX_N, sk_seed, k, j, pk_seed,
	addr);
	}

	// Compute WOTS+ signature
	spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
	spx_set_keypair_addr(addr, idx);
	spx_wots_sign(sig, msg, sk_seed, pk_seed, addr);
	}

	void spx_xmss_pk_from_sig(uint8_t root, const uint8_t xmss_sig,
	unsigned int idx, const uint8_t msg[SPX_N],
	const uint8_t pk_seed[SPX_N], uint8_t addr[32]) {
	// Stores node[0] and node[1] from Algorithm 10
	uint8_t node[2 * SPX_N];
	uint8_t tmp[2 * SPX_N];
	spx_set_type(addr, SPX_ADDR_TYPE_WOTS);
	spx_set_keypair_addr(addr, idx);
	spx_wots_pk_from_sig(node, xmss_sig, msg, pk_seed, addr);

	const uint8_t *auth = xmss_sig + SPX_WOTS_BYTES;

	spx_set_type(addr, SPX_ADDR_TYPE_HASHTREE);
	spx_set_tree_index(addr, idx);
	for (size_t k = 0; k < SPX_TREE_HEIGHT; ++k) {
	spx_set_tree_height(addr, k + 1);
	// Is even
	if (((idx >> k) & 1) == 0) {
	spx_set_tree_index(addr, spx_get_tree_index(addr) >> 1);
	memcpy(tmp, node, SPX_N);
	memcpy(tmp + SPX_N, auth + k * SPX_N, SPX_N);
	spx_thash_h(node + SPX_N, tmp, pk_seed, addr);
	} else {
	spx_set_tree_index(addr, (spx_get_tree_index(addr) - 1) >> 1);
	memcpy(tmp, auth + k * SPX_N, SPX_N);
	memcpy(tmp + SPX_N, node, SPX_N);
	spx_thash_h(node + SPX_N, tmp, pk_seed, addr);
	}
	memcpy(node, node + SPX_N, SPX_N);
	}
	memcpy(root, node, SPX_N);
	}

	void spx_ht_sign(uint8_t *sig, const uint8_t message[SPX_N], uint64_t idx_tree,
	uint32_t idx_leaf, const uint8_t sk_seed[SPX_N],
	const uint8_t pk_seed[SPX_N]) {
	uint8_t addr[32] = {0};
	spx_set_tree_addr(addr, idx_tree);

	// Layer 0
	uint8_t sig_tmp[SPX_XMSS_BYTES];
	spx_xmss_sign(sig_tmp, message, idx_leaf, sk_seed, pk_seed, addr);
	memcpy(sig, sig_tmp, sizeof(sig_tmp));

	uint8_t root[SPX_N];
	spx_xmss_pk_from_sig(root, sig_tmp, idx_leaf, message, pk_seed, addr);

	// All other layers
	for (size_t j = 1; j < SPX_D; ++j) {
	idx_leaf = idx_tree % (1 << SPX_TREE_HEIGHT);
	idx_tree = idx_tree >> SPX_TREE_HEIGHT;
	spx_set_layer_addr(addr, j);
	spx_set_tree_addr(addr, idx_tree);
	spx_xmss_sign(sig_tmp, root, idx_leaf, sk_seed, pk_seed, addr);
	memcpy(sig + j * SPX_XMSS_BYTES, sig_tmp, sizeof(sig_tmp));

	if (j < (SPX_D - 1)) {
	spx_xmss_pk_from_sig(root, sig_tmp, idx_leaf, root, pk_seed, addr);
	}
	}
	}

	int spx_ht_verify(const uint8_t sig[SPX_D * SPX_XMSS_BYTES],
	const uint8_t message[SPX_N], uint64_t idx_tree,
	uint32_t idx_leaf, const uint8_t pk_root[SPX_N],
	const uint8_t pk_seed[SPX_N]) {
	uint8_t addr[32] = {0};
	spx_set_tree_addr(addr, idx_tree);

	uint8_t sig_tmp[SPX_XMSS_BYTES];
	memcpy(sig_tmp, sig, sizeof(sig_tmp));

	uint8_t node[SPX_N];
	spx_xmss_pk_from_sig(node, sig_tmp, idx_leaf, message, pk_seed, addr);

	for (size_t j = 1; j < SPX_D; ++j) {
	idx_leaf = idx_tree % (1 << SPX_TREE_HEIGHT);
	idx_tree = idx_tree >> SPX_TREE_HEIGHT;
	spx_set_layer_addr(addr, j);
	spx_set_tree_addr(addr, idx_tree);
	// Get jth XMSS signature
	memcpy(sig_tmp, sig + j * SPX_XMSS_BYTES, sizeof(sig_tmp));

	spx_xmss_pk_from_sig(node, sig_tmp, idx_leaf, node, pk_seed, addr);
	}
	return memcmp(node, pk_root, SPX_N) == 0;
	}