#include #include #include #include "address.h" #include "fors.h" #include "hash.h" #include "primitive.h" #include "thash.h" #include "utils.h" static void fors_gen_sk(unsigned char *sk, const unsigned char *sk_seed, uint32_t fors_leaf_addr[8], const hash_state *state_seeded) { PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_prf_addr( sk, sk_seed, fors_leaf_addr, state_seeded); } static void fors_sk_to_leaf(unsigned char *leaf, const unsigned char *sk, const unsigned char *pub_seed, uint32_t fors_leaf_addr[8], hash_state *state_seeded) { PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_thash_1( leaf, sk, pub_seed, fors_leaf_addr, state_seeded); } static void fors_gen_leaf(unsigned char *leaf, const unsigned char *sk_seed, const unsigned char *pub_seed, uint32_t addr_idx, const uint32_t fors_tree_addr[8], hash_state *state_seeded) { uint32_t fors_leaf_addr[8] = {0}; /* Only copy the parts that must be kept in fors_leaf_addr. */ PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_copy_keypair_addr( fors_leaf_addr, fors_tree_addr); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_type( fors_leaf_addr, SPX_ADDR_TYPE_FORSTREE); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_tree_index( fors_leaf_addr, addr_idx); fors_gen_sk(leaf, sk_seed, fors_leaf_addr, state_seeded); fors_sk_to_leaf(leaf, leaf, pub_seed, fors_leaf_addr, state_seeded); } /** * Interprets m as SPX_FORS_HEIGHT-bit unsigned integers. * Assumes m contains at least SPX_FORS_HEIGHT * SPX_FORS_TREES bits. * Assumes indices has space for SPX_FORS_TREES integers. */ static void message_to_indices(uint32_t *indices, const unsigned char *m) { unsigned int i, j; unsigned int offset = 0; for (i = 0; i < SPX_FORS_TREES; i++) { indices[i] = 0; for (j = 0; j < SPX_FORS_HEIGHT; j++) { indices[i] ^= (((uint32_t)m[offset >> 3] >> (offset & 0x7)) & 0x1) << j; offset++; } } } /** * Signs a message m, deriving the secret key from sk_seed and the FTS address. * Assumes m contains at least SPX_FORS_HEIGHT * SPX_FORS_TREES bits. */ void PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_fors_sign( unsigned char *sig, unsigned char *pk, const unsigned char *m, const unsigned char *sk_seed, const unsigned char *pub_seed, const uint32_t fors_addr[8], hash_state *state_seeded) { uint32_t indices[SPX_FORS_TREES]; unsigned char roots[SPX_FORS_TREES * SPX_N]; uint32_t fors_tree_addr[8] = {0}; uint32_t fors_pk_addr[8] = {0}; uint32_t idx_offset; unsigned int i; PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_copy_keypair_addr( fors_tree_addr, fors_addr); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_copy_keypair_addr( fors_pk_addr, fors_addr); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_type( fors_tree_addr, SPX_ADDR_TYPE_FORSTREE); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_type( fors_pk_addr, SPX_ADDR_TYPE_FORSPK); message_to_indices(indices, m); for (i = 0; i < SPX_FORS_TREES; i++) { idx_offset = i * (1 << SPX_FORS_HEIGHT); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_tree_height( fors_tree_addr, 0); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_tree_index( fors_tree_addr, indices[i] + idx_offset); /* Include the secret key part that produces the selected leaf node. */ fors_gen_sk(sig, sk_seed, fors_tree_addr, state_seeded); sig += SPX_N; /* Compute the authentication path for this leaf node. */ PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_treehash_FORS_HEIGHT( roots + i * SPX_N, sig, sk_seed, pub_seed, indices[i], idx_offset, fors_gen_leaf, fors_tree_addr, state_seeded); sig += SPX_N * SPX_FORS_HEIGHT; } /* Hash horizontally across all tree roots to derive the public key. */ PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_thash_FORS_TREES( pk, roots, pub_seed, fors_pk_addr, state_seeded); } /** * Derives the FORS public key from a signature. * This can be used for verification by comparing to a known public key, or to * subsequently verify a signature on the derived public key. The latter is the * typical use-case when used as an FTS below an OTS in a hypertree. * Assumes m contains at least SPX_FORS_HEIGHT * SPX_FORS_TREES bits. */ void PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_fors_pk_from_sig( unsigned char *pk, const unsigned char *sig, const unsigned char *m, const unsigned char *pub_seed, const uint32_t fors_addr[8], hash_state *state_seeded) { uint32_t indices[SPX_FORS_TREES]; unsigned char roots[SPX_FORS_TREES * SPX_N]; unsigned char leaf[SPX_N]; uint32_t fors_tree_addr[8] = {0}; uint32_t fors_pk_addr[8] = {0}; uint32_t idx_offset; unsigned int i; PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_copy_keypair_addr( fors_tree_addr, fors_addr); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_copy_keypair_addr( fors_pk_addr, fors_addr); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_type( fors_tree_addr, SPX_ADDR_TYPE_FORSTREE); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_type( fors_pk_addr, SPX_ADDR_TYPE_FORSPK); message_to_indices(indices, m); for (i = 0; i < SPX_FORS_TREES; i++) { idx_offset = i * (1 << SPX_FORS_HEIGHT); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_tree_height( fors_tree_addr, 0); PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_set_tree_index( fors_tree_addr, indices[i] + idx_offset); /* Derive the leaf from the included secret key part. */ fors_sk_to_leaf(leaf, sig, pub_seed, fors_tree_addr, state_seeded); sig += SPX_N; /* Derive the corresponding root node of this tree. */ PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_compute_root( roots + i * SPX_N, leaf, indices[i], idx_offset, sig, SPX_FORS_HEIGHT, pub_seed, fors_tree_addr, state_seeded); sig += SPX_N * SPX_FORS_HEIGHT; } /* Hash horizontally across all tree roots to derive the public key. */ PQCLEAN_SPHINCSSHA256256SSIMPLE_CLEAN_thash_FORS_TREES( pk, roots, pub_seed, fors_pk_addr, state_seeded); }