/* 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 #include #include "../internal.h" #include "./address.h" #include "./spx_util.h" // Offsets of various fields in the address structure for SPHINCS+-SHA2-128s. // The byte used to specify the Merkle tree layer. #define SPX_OFFSET_LAYER 0 // The start of the 8 byte field used to specify the tree. #define SPX_OFFSET_TREE 1 // The byte used to specify the hash type (reason). #define SPX_OFFSET_TYPE 9 // The high byte used to specify the key pair (which one-time signature). #define SPX_OFFSET_KP_ADDR2 12 // The low byte used to specific the key pair. #define SPX_OFFSET_KP_ADDR1 13 // The byte used to specify the chain address (which Winternitz chain). #define SPX_OFFSET_CHAIN_ADDR 17 // The byte used to specify the hash address (where in the Winternitz chain). #define SPX_OFFSET_HASH_ADDR 21 // The byte used to specify the height of this node in the FORS or Merkle tree. #define SPX_OFFSET_TREE_HGT 17 // The start of the 4 byte field used to specify the node in the FORS or Merkle // tree. #define SPX_OFFSET_TREE_INDEX 18 void spx_set_chain_addr(uint8_t addr[32], uint32_t chain) { addr[SPX_OFFSET_CHAIN_ADDR] = (uint8_t)chain; } void spx_set_hash_addr(uint8_t addr[32], uint32_t hash) { addr[SPX_OFFSET_HASH_ADDR] = (uint8_t)hash; } void spx_set_keypair_addr(uint8_t addr[32], uint32_t keypair) { addr[SPX_OFFSET_KP_ADDR2] = (uint8_t)(keypair >> 8); addr[SPX_OFFSET_KP_ADDR1] = (uint8_t)keypair; } void spx_copy_keypair_addr(uint8_t out[32], const uint8_t in[32]) { memcpy(out, in, SPX_OFFSET_TREE + 8); out[SPX_OFFSET_KP_ADDR2] = in[SPX_OFFSET_KP_ADDR2]; out[SPX_OFFSET_KP_ADDR1] = in[SPX_OFFSET_KP_ADDR1]; } void spx_set_layer_addr(uint8_t addr[32], uint32_t layer) { addr[SPX_OFFSET_LAYER] = (uint8_t)layer; } void spx_set_tree_addr(uint8_t addr[32], uint64_t tree) { spx_uint64_to_len_bytes(&addr[SPX_OFFSET_TREE], 8, tree); } void spx_set_type(uint8_t addr[32], uint32_t type) { // NIST draft relies on this setting parts of the address to 0, so we do it // here to avoid confusion. // // The behavior here is only correct for the SHA2 instantiations. memset(addr + 10, 0, 12); addr[SPX_OFFSET_TYPE] = (uint8_t)type; } void spx_set_tree_height(uint8_t addr[32], uint32_t tree_height) { addr[SPX_OFFSET_TREE_HGT] = (uint8_t)tree_height; } void spx_set_tree_index(uint8_t addr[32], uint32_t tree_index) { CRYPTO_store_u32_be(&addr[SPX_OFFSET_TREE_INDEX], tree_index); } uint32_t spx_get_tree_index(uint8_t addr[32]) { return CRYPTO_load_u32_be(addr + SPX_OFFSET_TREE_INDEX); }