#include #include #include "address.h" #include "hash.h" #include "hash_state.h" #include "params.h" #include "thash.h" #include "utils.h" /** * Converts the value of 'in' to 'outlen' bytes in big-endian byte order. */ void PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_ull_to_bytes( unsigned char *out, size_t outlen, unsigned long long in) { /* Iterate over out in decreasing order, for big-endianness. */ for (size_t i = outlen; i > 0; i--) { out[i - 1] = in & 0xff; in = in >> 8; } } /** * Converts the inlen bytes in 'in' from big-endian byte order to an integer. */ unsigned long long PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_bytes_to_ull( const unsigned char *in, size_t inlen) { unsigned long long retval = 0; for (size_t i = 0; i < inlen; i++) { retval |= ((unsigned long long)in[i]) << (8 * (inlen - 1 - i)); } return retval; } /** * Computes a root node given a leaf and an auth path. * Expects address to be complete other than the tree_height and tree_index. */ void PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_compute_root( unsigned char *root, const unsigned char *leaf, uint32_t leaf_idx, uint32_t idx_offset, const unsigned char *auth_path, uint32_t tree_height, const unsigned char *pub_seed, uint32_t addr[8], const hash_state *hash_state_seeded) { uint32_t i; unsigned char buffer[2 * PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N]; /* If leaf_idx is odd (last bit = 1), current path element is a right child and auth_path has to go left. Otherwise it is the other way around. */ if (leaf_idx & 1) { memcpy(buffer + PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, leaf, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); memcpy(buffer, auth_path, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } else { memcpy(buffer, leaf, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); memcpy(buffer + PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, auth_path, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } auth_path += PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N; for (i = 0; i < tree_height - 1; i++) { leaf_idx >>= 1; idx_offset >>= 1; /* Set the address of the node we're creating. */ PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_height(addr, i + 1); PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_index( addr, leaf_idx + idx_offset); /* Pick the right or left neighbor, depending on parity of the node. */ if (leaf_idx & 1) { PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_thash_2( buffer + PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, buffer, pub_seed, addr, hash_state_seeded); memcpy(buffer, auth_path, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } else { PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_thash_2( buffer, buffer, pub_seed, addr, hash_state_seeded); memcpy(buffer + PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, auth_path, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } auth_path += PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N; } /* The last iteration is exceptional; we do not copy an auth_path node. */ leaf_idx >>= 1; idx_offset >>= 1; PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_height(addr, tree_height); PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_index( addr, leaf_idx + idx_offset); PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_thash_2( root, buffer, pub_seed, addr, hash_state_seeded); } /** * For a given leaf index, computes the authentication path and the resulting * root node using Merkle's TreeHash algorithm. * Expects the layer and tree parts of the tree_addr to be set, as well as the * tree type (i.e. PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_ADDR_TYPE_HASHTREE or PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_ADDR_TYPE_FORSTREE). * Applies the offset idx_offset to indices before building addresses, so that * it is possible to continue counting indices across trees. */ static void PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_treehash( unsigned char *root, unsigned char *auth_path, unsigned char *stack, unsigned int *heights, const unsigned char *sk_seed, const unsigned char *pub_seed, uint32_t leaf_idx, uint32_t idx_offset, uint32_t tree_height, void (*gen_leaf)( unsigned char * /* leaf */, const unsigned char * /* sk_seed */, const unsigned char * /* pub_seed */, uint32_t /* addr_idx */, const uint32_t[8] /* tree_addr */, const hash_state * /* hash_state_seeded */), uint32_t tree_addr[8], const hash_state *hash_state_seeded) { unsigned int offset = 0; uint32_t idx; uint32_t tree_idx; for (idx = 0; idx < (uint32_t)(1 << tree_height); idx++) { /* Add the next leaf node to the stack. */ gen_leaf(stack + offset * PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, sk_seed, pub_seed, idx + idx_offset, tree_addr, hash_state_seeded); offset++; heights[offset - 1] = 0; /* If this is a node we need for the auth path.. */ if ((leaf_idx ^ 0x1) == idx) { memcpy(auth_path, stack + (offset - 1)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } /* While the top-most nodes are of equal height.. */ while (offset >= 2 && heights[offset - 1] == heights[offset - 2]) { /* Compute index of the new node, in the next layer. */ tree_idx = (idx >> (heights[offset - 1] + 1)); /* Set the address of the node we're creating. */ PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_height( tree_addr, heights[offset - 1] + 1); PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_set_tree_index( tree_addr, tree_idx + (idx_offset >> (heights[offset - 1] + 1))); /* Hash the top-most nodes from the stack together. */ PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_thash_2( stack + (offset - 2)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, stack + (offset - 2)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, pub_seed, tree_addr, hash_state_seeded); offset--; /* Note that the top-most node is now one layer higher. */ heights[offset - 1]++; /* If this is a node we need for the auth path.. */ if (((leaf_idx >> heights[offset - 1]) ^ 0x1) == tree_idx) { memcpy(auth_path + heights[offset - 1]*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, stack + (offset - 1)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } } } memcpy(root, stack, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N); } /* The wrappers below ensure that we use fixed-size buffers on the stack */ void PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_treehash_FORS_HEIGHT( unsigned char *root, unsigned char *auth_path, const unsigned char *sk_seed, const unsigned char *pub_seed, uint32_t leaf_idx, uint32_t idx_offset, void (*gen_leaf)( unsigned char * /* leaf */, const unsigned char * /* sk_seed */, const unsigned char * /* pub_seed */, uint32_t /* addr_idx */, const uint32_t[8] /* tree_addr */, const hash_state * /* hash_state_seeded */), uint32_t tree_addr[8], const hash_state *hash_state_seeded) { unsigned char stack[(PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_FORS_HEIGHT + 1)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N]; unsigned int heights[PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_FORS_HEIGHT + 1]; PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_treehash( root, auth_path, stack, heights, sk_seed, pub_seed, leaf_idx, idx_offset, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_FORS_HEIGHT, gen_leaf, tree_addr, hash_state_seeded); } void PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_treehash_TREE_HEIGHT( unsigned char *root, unsigned char *auth_path, const unsigned char *sk_seed, const unsigned char *pub_seed, uint32_t leaf_idx, uint32_t idx_offset, void (*gen_leaf)( unsigned char * /* leaf */, const unsigned char * /* sk_seed */, const unsigned char * /* pub_seed */, uint32_t /* addr_idx */, const uint32_t[8] /* tree_addr */, const hash_state * /* hash_state_seeded */), uint32_t tree_addr[8], const hash_state *hash_state_seeded) { unsigned char stack[(PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_TREE_HEIGHT + 1)*PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_N]; unsigned int heights[PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_TREE_HEIGHT + 1]; PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_treehash( root, auth_path, stack, heights, sk_seed, pub_seed, leaf_idx, idx_offset, PQCLEAN_SPHINCSSHA256192FSIMPLE_CLEAN_TREE_HEIGHT, gen_leaf, tree_addr, hash_state_seeded); }