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- /* $OpenBSD: xmss_fast.c,v 1.3 2018/03/22 07:06:11 markus Exp $ */
- /*
- xmss_fast.c version 20160722
- Andreas Hülsing
- Joost Rijneveld
- Public domain.
- */
- #include "includes.h"
- #ifdef WITH_XMSS
- #include <stdlib.h>
- #include <string.h>
- #ifdef HAVE_STDINT_H
- # include <stdint.h>
- #endif
- #include "xmss_fast.h"
- #include "crypto_api.h"
- #include "xmss_wots.h"
- #include "xmss_hash.h"
- #include "xmss_commons.h"
- #include "xmss_hash_address.h"
- // For testing
- #include "stdio.h"
- /**
- * Used for pseudorandom keygeneration,
- * generates the seed for the WOTS keypair at address addr
- *
- * takes n byte sk_seed and returns n byte seed using 32 byte address addr.
- */
- static void get_seed(unsigned char *seed, const unsigned char *sk_seed, int n, uint32_t addr[8])
- {
- unsigned char bytes[32];
- // Make sure that chain addr, hash addr, and key bit are 0!
- setChainADRS(addr,0);
- setHashADRS(addr,0);
- setKeyAndMask(addr,0);
- // Generate pseudorandom value
- addr_to_byte(bytes, addr);
- prf(seed, bytes, sk_seed, n);
- }
- /**
- * Initialize xmss params struct
- * parameter names are the same as in the draft
- * parameter k is K as used in the BDS algorithm
- */
- int xmss_set_params(xmss_params *params, int n, int h, int w, int k)
- {
- if (k >= h || k < 2 || (h - k) % 2) {
- fprintf(stderr, "For BDS traversal, H - K must be even, with H > K >= 2!\n");
- return 1;
- }
- params->h = h;
- params->n = n;
- params->k = k;
- wots_params wots_par;
- wots_set_params(&wots_par, n, w);
- params->wots_par = wots_par;
- return 0;
- }
- /**
- * Initialize BDS state struct
- * parameter names are the same as used in the description of the BDS traversal
- */
- void xmss_set_bds_state(bds_state *state, unsigned char *stack, int stackoffset, unsigned char *stacklevels, unsigned char *auth, unsigned char *keep, treehash_inst *treehash, unsigned char *retain, int next_leaf)
- {
- state->stack = stack;
- state->stackoffset = stackoffset;
- state->stacklevels = stacklevels;
- state->auth = auth;
- state->keep = keep;
- state->treehash = treehash;
- state->retain = retain;
- state->next_leaf = next_leaf;
- }
- /**
- * Initialize xmssmt_params struct
- * parameter names are the same as in the draft
- *
- * Especially h is the total tree height, i.e. the XMSS trees have height h/d
- */
- int xmssmt_set_params(xmssmt_params *params, int n, int h, int d, int w, int k)
- {
- if (h % d) {
- fprintf(stderr, "d must divide h without remainder!\n");
- return 1;
- }
- params->h = h;
- params->d = d;
- params->n = n;
- params->index_len = (h + 7) / 8;
- xmss_params xmss_par;
- if (xmss_set_params(&xmss_par, n, (h/d), w, k)) {
- return 1;
- }
- params->xmss_par = xmss_par;
- return 0;
- }
- /**
- * Computes a leaf from a WOTS public key using an L-tree.
- */
- static void l_tree(unsigned char *leaf, unsigned char *wots_pk, const xmss_params *params, const unsigned char *pub_seed, uint32_t addr[8])
- {
- unsigned int l = params->wots_par.len;
- unsigned int n = params->n;
- uint32_t i = 0;
- uint32_t height = 0;
- uint32_t bound;
- //ADRS.setTreeHeight(0);
- setTreeHeight(addr, height);
-
- while (l > 1) {
- bound = l >> 1; //floor(l / 2);
- for (i = 0; i < bound; i++) {
- //ADRS.setTreeIndex(i);
- setTreeIndex(addr, i);
- //wots_pk[i] = RAND_HASH(pk[2i], pk[2i + 1], SEED, ADRS);
- hash_h(wots_pk+i*n, wots_pk+i*2*n, pub_seed, addr, n);
- }
- //if ( l % 2 == 1 ) {
- if (l & 1) {
- //pk[floor(l / 2) + 1] = pk[l];
- memcpy(wots_pk+(l>>1)*n, wots_pk+(l-1)*n, n);
- //l = ceil(l / 2);
- l=(l>>1)+1;
- }
- else {
- //l = ceil(l / 2);
- l=(l>>1);
- }
- //ADRS.setTreeHeight(ADRS.getTreeHeight() + 1);
- height++;
- setTreeHeight(addr, height);
- }
- //return pk[0];
- memcpy(leaf, wots_pk, n);
- }
- /**
- * Computes the leaf at a given address. First generates the WOTS key pair, then computes leaf using l_tree. As this happens position independent, we only require that addr encodes the right ltree-address.
- */
- static void gen_leaf_wots(unsigned char *leaf, const unsigned char *sk_seed, const xmss_params *params, const unsigned char *pub_seed, uint32_t ltree_addr[8], uint32_t ots_addr[8])
- {
- unsigned char seed[params->n];
- unsigned char pk[params->wots_par.keysize];
- get_seed(seed, sk_seed, params->n, ots_addr);
- wots_pkgen(pk, seed, &(params->wots_par), pub_seed, ots_addr);
- l_tree(leaf, pk, params, pub_seed, ltree_addr);
- }
- static int treehash_minheight_on_stack(bds_state* state, const xmss_params *params, const treehash_inst *treehash) {
- unsigned int r = params->h, i;
- for (i = 0; i < treehash->stackusage; i++) {
- if (state->stacklevels[state->stackoffset - i - 1] < r) {
- r = state->stacklevels[state->stackoffset - i - 1];
- }
- }
- return r;
- }
- /**
- * Merkle's TreeHash algorithm. The address only needs to initialize the first 78 bits of addr. Everything else will be set by treehash.
- * Currently only used for key generation.
- *
- */
- static void treehash_setup(unsigned char *node, int height, int index, bds_state *state, const unsigned char *sk_seed, const xmss_params *params, const unsigned char *pub_seed, const uint32_t addr[8])
- {
- unsigned int idx = index;
- unsigned int n = params->n;
- unsigned int h = params->h;
- unsigned int k = params->k;
- // use three different addresses because at this point we use all three formats in parallel
- uint32_t ots_addr[8];
- uint32_t ltree_addr[8];
- uint32_t node_addr[8];
- // only copy layer and tree address parts
- memcpy(ots_addr, addr, 12);
- // type = ots
- setType(ots_addr, 0);
- memcpy(ltree_addr, addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, addr, 12);
- setType(node_addr, 2);
- uint32_t lastnode, i;
- unsigned char stack[(height+1)*n];
- unsigned int stacklevels[height+1];
- unsigned int stackoffset=0;
- unsigned int nodeh;
- lastnode = idx+(1<<height);
- for (i = 0; i < h-k; i++) {
- state->treehash[i].h = i;
- state->treehash[i].completed = 1;
- state->treehash[i].stackusage = 0;
- }
- i = 0;
- for (; idx < lastnode; idx++) {
- setLtreeADRS(ltree_addr, idx);
- setOTSADRS(ots_addr, idx);
- gen_leaf_wots(stack+stackoffset*n, sk_seed, params, pub_seed, ltree_addr, ots_addr);
- stacklevels[stackoffset] = 0;
- stackoffset++;
- if (h - k > 0 && i == 3) {
- memcpy(state->treehash[0].node, stack+stackoffset*n, n);
- }
- while (stackoffset>1 && stacklevels[stackoffset-1] == stacklevels[stackoffset-2])
- {
- nodeh = stacklevels[stackoffset-1];
- if (i >> nodeh == 1) {
- memcpy(state->auth + nodeh*n, stack+(stackoffset-1)*n, n);
- }
- else {
- if (nodeh < h - k && i >> nodeh == 3) {
- memcpy(state->treehash[nodeh].node, stack+(stackoffset-1)*n, n);
- }
- else if (nodeh >= h - k) {
- memcpy(state->retain + ((1 << (h - 1 - nodeh)) + nodeh - h + (((i >> nodeh) - 3) >> 1)) * n, stack+(stackoffset-1)*n, n);
- }
- }
- setTreeHeight(node_addr, stacklevels[stackoffset-1]);
- setTreeIndex(node_addr, (idx >> (stacklevels[stackoffset-1]+1)));
- hash_h(stack+(stackoffset-2)*n, stack+(stackoffset-2)*n, pub_seed,
- node_addr, n);
- stacklevels[stackoffset-2]++;
- stackoffset--;
- }
- i++;
- }
- for (i = 0; i < n; i++)
- node[i] = stack[i];
- }
- static void treehash_update(treehash_inst *treehash, bds_state *state, const unsigned char *sk_seed, const xmss_params *params, const unsigned char *pub_seed, const uint32_t addr[8]) {
- int n = params->n;
- uint32_t ots_addr[8];
- uint32_t ltree_addr[8];
- uint32_t node_addr[8];
- // only copy layer and tree address parts
- memcpy(ots_addr, addr, 12);
- // type = ots
- setType(ots_addr, 0);
- memcpy(ltree_addr, addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, addr, 12);
- setType(node_addr, 2);
- setLtreeADRS(ltree_addr, treehash->next_idx);
- setOTSADRS(ots_addr, treehash->next_idx);
- unsigned char nodebuffer[2 * n];
- unsigned int nodeheight = 0;
- gen_leaf_wots(nodebuffer, sk_seed, params, pub_seed, ltree_addr, ots_addr);
- while (treehash->stackusage > 0 && state->stacklevels[state->stackoffset-1] == nodeheight) {
- memcpy(nodebuffer + n, nodebuffer, n);
- memcpy(nodebuffer, state->stack + (state->stackoffset-1)*n, n);
- setTreeHeight(node_addr, nodeheight);
- setTreeIndex(node_addr, (treehash->next_idx >> (nodeheight+1)));
- hash_h(nodebuffer, nodebuffer, pub_seed, node_addr, n);
- nodeheight++;
- treehash->stackusage--;
- state->stackoffset--;
- }
- if (nodeheight == treehash->h) { // this also implies stackusage == 0
- memcpy(treehash->node, nodebuffer, n);
- treehash->completed = 1;
- }
- else {
- memcpy(state->stack + state->stackoffset*n, nodebuffer, n);
- treehash->stackusage++;
- state->stacklevels[state->stackoffset] = nodeheight;
- state->stackoffset++;
- treehash->next_idx++;
- }
- }
- /**
- * Computes a root node given a leaf and an authapth
- */
- static void validate_authpath(unsigned char *root, const unsigned char *leaf, unsigned long leafidx, const unsigned char *authpath, const xmss_params *params, const unsigned char *pub_seed, uint32_t addr[8])
- {
- unsigned int n = params->n;
- uint32_t i, j;
- unsigned char buffer[2*n];
- // If leafidx is odd (last bit = 1), current path element is a right child and authpath has to go to the left.
- // Otherwise, it is the other way around
- if (leafidx & 1) {
- for (j = 0; j < n; j++)
- buffer[n+j] = leaf[j];
- for (j = 0; j < n; j++)
- buffer[j] = authpath[j];
- }
- else {
- for (j = 0; j < n; j++)
- buffer[j] = leaf[j];
- for (j = 0; j < n; j++)
- buffer[n+j] = authpath[j];
- }
- authpath += n;
- for (i=0; i < params->h-1; i++) {
- setTreeHeight(addr, i);
- leafidx >>= 1;
- setTreeIndex(addr, leafidx);
- if (leafidx&1) {
- hash_h(buffer+n, buffer, pub_seed, addr, n);
- for (j = 0; j < n; j++)
- buffer[j] = authpath[j];
- }
- else {
- hash_h(buffer, buffer, pub_seed, addr, n);
- for (j = 0; j < n; j++)
- buffer[j+n] = authpath[j];
- }
- authpath += n;
- }
- setTreeHeight(addr, (params->h-1));
- leafidx >>= 1;
- setTreeIndex(addr, leafidx);
- hash_h(root, buffer, pub_seed, addr, n);
- }
- /**
- * Performs one treehash update on the instance that needs it the most.
- * Returns 1 if such an instance was not found
- **/
- static char bds_treehash_update(bds_state *state, unsigned int updates, const unsigned char *sk_seed, const xmss_params *params, unsigned char *pub_seed, const uint32_t addr[8]) {
- uint32_t i, j;
- unsigned int level, l_min, low;
- unsigned int h = params->h;
- unsigned int k = params->k;
- unsigned int used = 0;
- for (j = 0; j < updates; j++) {
- l_min = h;
- level = h - k;
- for (i = 0; i < h - k; i++) {
- if (state->treehash[i].completed) {
- low = h;
- }
- else if (state->treehash[i].stackusage == 0) {
- low = i;
- }
- else {
- low = treehash_minheight_on_stack(state, params, &(state->treehash[i]));
- }
- if (low < l_min) {
- level = i;
- l_min = low;
- }
- }
- if (level == h - k) {
- break;
- }
- treehash_update(&(state->treehash[level]), state, sk_seed, params, pub_seed, addr);
- used++;
- }
- return updates - used;
- }
- /**
- * Updates the state (typically NEXT_i) by adding a leaf and updating the stack
- * Returns 1 if all leaf nodes have already been processed
- **/
- static char bds_state_update(bds_state *state, const unsigned char *sk_seed, const xmss_params *params, unsigned char *pub_seed, const uint32_t addr[8]) {
- uint32_t ltree_addr[8];
- uint32_t node_addr[8];
- uint32_t ots_addr[8];
- int n = params->n;
- int h = params->h;
- int k = params->k;
- int nodeh;
- int idx = state->next_leaf;
- if (idx == 1 << h) {
- return 1;
- }
- // only copy layer and tree address parts
- memcpy(ots_addr, addr, 12);
- // type = ots
- setType(ots_addr, 0);
- memcpy(ltree_addr, addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, addr, 12);
- setType(node_addr, 2);
-
- setOTSADRS(ots_addr, idx);
- setLtreeADRS(ltree_addr, idx);
- gen_leaf_wots(state->stack+state->stackoffset*n, sk_seed, params, pub_seed, ltree_addr, ots_addr);
- state->stacklevels[state->stackoffset] = 0;
- state->stackoffset++;
- if (h - k > 0 && idx == 3) {
- memcpy(state->treehash[0].node, state->stack+state->stackoffset*n, n);
- }
- while (state->stackoffset>1 && state->stacklevels[state->stackoffset-1] == state->stacklevels[state->stackoffset-2]) {
- nodeh = state->stacklevels[state->stackoffset-1];
- if (idx >> nodeh == 1) {
- memcpy(state->auth + nodeh*n, state->stack+(state->stackoffset-1)*n, n);
- }
- else {
- if (nodeh < h - k && idx >> nodeh == 3) {
- memcpy(state->treehash[nodeh].node, state->stack+(state->stackoffset-1)*n, n);
- }
- else if (nodeh >= h - k) {
- memcpy(state->retain + ((1 << (h - 1 - nodeh)) + nodeh - h + (((idx >> nodeh) - 3) >> 1)) * n, state->stack+(state->stackoffset-1)*n, n);
- }
- }
- setTreeHeight(node_addr, state->stacklevels[state->stackoffset-1]);
- setTreeIndex(node_addr, (idx >> (state->stacklevels[state->stackoffset-1]+1)));
- hash_h(state->stack+(state->stackoffset-2)*n, state->stack+(state->stackoffset-2)*n, pub_seed, node_addr, n);
- state->stacklevels[state->stackoffset-2]++;
- state->stackoffset--;
- }
- state->next_leaf++;
- return 0;
- }
- /**
- * Returns the auth path for node leaf_idx and computes the auth path for the
- * next leaf node, using the algorithm described by Buchmann, Dahmen and Szydlo
- * in "Post Quantum Cryptography", Springer 2009.
- */
- static void bds_round(bds_state *state, const unsigned long leaf_idx, const unsigned char *sk_seed, const xmss_params *params, unsigned char *pub_seed, uint32_t addr[8])
- {
- unsigned int i;
- unsigned int n = params->n;
- unsigned int h = params->h;
- unsigned int k = params->k;
- unsigned int tau = h;
- unsigned int startidx;
- unsigned int offset, rowidx;
- unsigned char buf[2 * n];
- uint32_t ots_addr[8];
- uint32_t ltree_addr[8];
- uint32_t node_addr[8];
- // only copy layer and tree address parts
- memcpy(ots_addr, addr, 12);
- // type = ots
- setType(ots_addr, 0);
- memcpy(ltree_addr, addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, addr, 12);
- setType(node_addr, 2);
- for (i = 0; i < h; i++) {
- if (! ((leaf_idx >> i) & 1)) {
- tau = i;
- break;
- }
- }
- if (tau > 0) {
- memcpy(buf, state->auth + (tau-1) * n, n);
- // we need to do this before refreshing state->keep to prevent overwriting
- memcpy(buf + n, state->keep + ((tau-1) >> 1) * n, n);
- }
- if (!((leaf_idx >> (tau + 1)) & 1) && (tau < h - 1)) {
- memcpy(state->keep + (tau >> 1)*n, state->auth + tau*n, n);
- }
- if (tau == 0) {
- setLtreeADRS(ltree_addr, leaf_idx);
- setOTSADRS(ots_addr, leaf_idx);
- gen_leaf_wots(state->auth, sk_seed, params, pub_seed, ltree_addr, ots_addr);
- }
- else {
- setTreeHeight(node_addr, (tau-1));
- setTreeIndex(node_addr, leaf_idx >> tau);
- hash_h(state->auth + tau * n, buf, pub_seed, node_addr, n);
- for (i = 0; i < tau; i++) {
- if (i < h - k) {
- memcpy(state->auth + i * n, state->treehash[i].node, n);
- }
- else {
- offset = (1 << (h - 1 - i)) + i - h;
- rowidx = ((leaf_idx >> i) - 1) >> 1;
- memcpy(state->auth + i * n, state->retain + (offset + rowidx) * n, n);
- }
- }
- for (i = 0; i < ((tau < h - k) ? tau : (h - k)); i++) {
- startidx = leaf_idx + 1 + 3 * (1 << i);
- if (startidx < 1U << h) {
- state->treehash[i].h = i;
- state->treehash[i].next_idx = startidx;
- state->treehash[i].completed = 0;
- state->treehash[i].stackusage = 0;
- }
- }
- }
- }
- /*
- * Generates a XMSS key pair for a given parameter set.
- * Format sk: [(32bit) idx || SK_SEED || SK_PRF || PUB_SEED || root]
- * Format pk: [root || PUB_SEED] omitting algo oid.
- */
- int xmss_keypair(unsigned char *pk, unsigned char *sk, bds_state *state, xmss_params *params)
- {
- unsigned int n = params->n;
- // Set idx = 0
- sk[0] = 0;
- sk[1] = 0;
- sk[2] = 0;
- sk[3] = 0;
- // Init SK_SEED (n byte), SK_PRF (n byte), and PUB_SEED (n byte)
- randombytes(sk+4, 3*n);
- // Copy PUB_SEED to public key
- memcpy(pk+n, sk+4+2*n, n);
- uint32_t addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- // Compute root
- treehash_setup(pk, params->h, 0, state, sk+4, params, sk+4+2*n, addr);
- // copy root to sk
- memcpy(sk+4+3*n, pk, n);
- return 0;
- }
- /**
- * Signs a message.
- * Returns
- * 1. an array containing the signature followed by the message AND
- * 2. an updated secret key!
- *
- */
- int xmss_sign(unsigned char *sk, bds_state *state, unsigned char *sig_msg, unsigned long long *sig_msg_len, const unsigned char *msg, unsigned long long msglen, const xmss_params *params)
- {
- unsigned int h = params->h;
- unsigned int n = params->n;
- unsigned int k = params->k;
- uint16_t i = 0;
- // Extract SK
- unsigned long idx = ((unsigned long)sk[0] << 24) | ((unsigned long)sk[1] << 16) | ((unsigned long)sk[2] << 8) | sk[3];
- unsigned char sk_seed[n];
- memcpy(sk_seed, sk+4, n);
- unsigned char sk_prf[n];
- memcpy(sk_prf, sk+4+n, n);
- unsigned char pub_seed[n];
- memcpy(pub_seed, sk+4+2*n, n);
-
- // index as 32 bytes string
- unsigned char idx_bytes_32[32];
- to_byte(idx_bytes_32, idx, 32);
-
- unsigned char hash_key[3*n];
-
- // Update SK
- sk[0] = ((idx + 1) >> 24) & 255;
- sk[1] = ((idx + 1) >> 16) & 255;
- sk[2] = ((idx + 1) >> 8) & 255;
- sk[3] = (idx + 1) & 255;
- // -- Secret key for this non-forward-secure version is now updated.
- // -- A productive implementation should use a file handle instead and write the updated secret key at this point!
- // Init working params
- unsigned char R[n];
- unsigned char msg_h[n];
- unsigned char ots_seed[n];
- uint32_t ots_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- // ---------------------------------
- // Message Hashing
- // ---------------------------------
- // Message Hash:
- // First compute pseudorandom value
- prf(R, idx_bytes_32, sk_prf, n);
- // Generate hash key (R || root || idx)
- memcpy(hash_key, R, n);
- memcpy(hash_key+n, sk+4+3*n, n);
- to_byte(hash_key+2*n, idx, n);
- // Then use it for message digest
- h_msg(msg_h, msg, msglen, hash_key, 3*n, n);
- // Start collecting signature
- *sig_msg_len = 0;
- // Copy index to signature
- sig_msg[0] = (idx >> 24) & 255;
- sig_msg[1] = (idx >> 16) & 255;
- sig_msg[2] = (idx >> 8) & 255;
- sig_msg[3] = idx & 255;
- sig_msg += 4;
- *sig_msg_len += 4;
- // Copy R to signature
- for (i = 0; i < n; i++)
- sig_msg[i] = R[i];
- sig_msg += n;
- *sig_msg_len += n;
- // ----------------------------------
- // Now we start to "really sign"
- // ----------------------------------
- // Prepare Address
- setType(ots_addr, 0);
- setOTSADRS(ots_addr, idx);
- // Compute seed for OTS key pair
- get_seed(ots_seed, sk_seed, n, ots_addr);
- // Compute WOTS signature
- wots_sign(sig_msg, msg_h, ots_seed, &(params->wots_par), pub_seed, ots_addr);
- sig_msg += params->wots_par.keysize;
- *sig_msg_len += params->wots_par.keysize;
- // the auth path was already computed during the previous round
- memcpy(sig_msg, state->auth, h*n);
- if (idx < (1U << h) - 1) {
- bds_round(state, idx, sk_seed, params, pub_seed, ots_addr);
- bds_treehash_update(state, (h - k) >> 1, sk_seed, params, pub_seed, ots_addr);
- }
- /* TODO: save key/bds state here! */
- sig_msg += params->h*n;
- *sig_msg_len += params->h*n;
- //Whipe secret elements?
- //zerobytes(tsk, CRYPTO_SECRETKEYBYTES);
- memcpy(sig_msg, msg, msglen);
- *sig_msg_len += msglen;
- return 0;
- }
- /**
- * Verifies a given message signature pair under a given public key.
- */
- int xmss_sign_open(unsigned char *msg, unsigned long long *msglen, const unsigned char *sig_msg, unsigned long long sig_msg_len, const unsigned char *pk, const xmss_params *params)
- {
- unsigned int n = params->n;
- unsigned long long i, m_len;
- unsigned long idx=0;
- unsigned char wots_pk[params->wots_par.keysize];
- unsigned char pkhash[n];
- unsigned char root[n];
- unsigned char msg_h[n];
- unsigned char hash_key[3*n];
- unsigned char pub_seed[n];
- memcpy(pub_seed, pk+n, n);
- // Init addresses
- uint32_t ots_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- uint32_t ltree_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- uint32_t node_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- setType(ots_addr, 0);
- setType(ltree_addr, 1);
- setType(node_addr, 2);
- // Extract index
- idx = ((unsigned long)sig_msg[0] << 24) | ((unsigned long)sig_msg[1] << 16) | ((unsigned long)sig_msg[2] << 8) | sig_msg[3];
- printf("verify:: idx = %lu\n", idx);
-
- // Generate hash key (R || root || idx)
- memcpy(hash_key, sig_msg+4,n);
- memcpy(hash_key+n, pk, n);
- to_byte(hash_key+2*n, idx, n);
-
- sig_msg += (n+4);
- sig_msg_len -= (n+4);
- // hash message
- unsigned long long tmp_sig_len = params->wots_par.keysize+params->h*n;
- m_len = sig_msg_len - tmp_sig_len;
- h_msg(msg_h, sig_msg + tmp_sig_len, m_len, hash_key, 3*n, n);
- //-----------------------
- // Verify signature
- //-----------------------
- // Prepare Address
- setOTSADRS(ots_addr, idx);
- // Check WOTS signature
- wots_pkFromSig(wots_pk, sig_msg, msg_h, &(params->wots_par), pub_seed, ots_addr);
- sig_msg += params->wots_par.keysize;
- sig_msg_len -= params->wots_par.keysize;
- // Compute Ltree
- setLtreeADRS(ltree_addr, idx);
- l_tree(pkhash, wots_pk, params, pub_seed, ltree_addr);
- // Compute root
- validate_authpath(root, pkhash, idx, sig_msg, params, pub_seed, node_addr);
- sig_msg += params->h*n;
- sig_msg_len -= params->h*n;
- for (i = 0; i < n; i++)
- if (root[i] != pk[i])
- goto fail;
- *msglen = sig_msg_len;
- for (i = 0; i < *msglen; i++)
- msg[i] = sig_msg[i];
- return 0;
- fail:
- *msglen = sig_msg_len;
- for (i = 0; i < *msglen; i++)
- msg[i] = 0;
- *msglen = -1;
- return -1;
- }
- /*
- * Generates a XMSSMT key pair for a given parameter set.
- * Format sk: [(ceil(h/8) bit) idx || SK_SEED || SK_PRF || PUB_SEED || root]
- * Format pk: [root || PUB_SEED] omitting algo oid.
- */
- int xmssmt_keypair(unsigned char *pk, unsigned char *sk, bds_state *states, unsigned char *wots_sigs, xmssmt_params *params)
- {
- unsigned int n = params->n;
- unsigned int i;
- unsigned char ots_seed[params->n];
- // Set idx = 0
- for (i = 0; i < params->index_len; i++) {
- sk[i] = 0;
- }
- // Init SK_SEED (n byte), SK_PRF (n byte), and PUB_SEED (n byte)
- randombytes(sk+params->index_len, 3*n);
- // Copy PUB_SEED to public key
- memcpy(pk+n, sk+params->index_len+2*n, n);
- // Set address to point on the single tree on layer d-1
- uint32_t addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- setLayerADRS(addr, (params->d-1));
- // Set up state and compute wots signatures for all but topmost tree root
- for (i = 0; i < params->d - 1; i++) {
- // Compute seed for OTS key pair
- treehash_setup(pk, params->xmss_par.h, 0, states + i, sk+params->index_len, &(params->xmss_par), pk+n, addr);
- setLayerADRS(addr, (i+1));
- get_seed(ots_seed, sk+params->index_len, n, addr);
- wots_sign(wots_sigs + i*params->xmss_par.wots_par.keysize, pk, ots_seed, &(params->xmss_par.wots_par), pk+n, addr);
- }
- treehash_setup(pk, params->xmss_par.h, 0, states + i, sk+params->index_len, &(params->xmss_par), pk+n, addr);
- memcpy(sk+params->index_len+3*n, pk, n);
- return 0;
- }
- /**
- * Signs a message.
- * Returns
- * 1. an array containing the signature followed by the message AND
- * 2. an updated secret key!
- *
- */
- int xmssmt_sign(unsigned char *sk, bds_state *states, unsigned char *wots_sigs, unsigned char *sig_msg, unsigned long long *sig_msg_len, const unsigned char *msg, unsigned long long msglen, const xmssmt_params *params)
- {
- unsigned int n = params->n;
-
- unsigned int tree_h = params->xmss_par.h;
- unsigned int h = params->h;
- unsigned int k = params->xmss_par.k;
- unsigned int idx_len = params->index_len;
- uint64_t idx_tree;
- uint32_t idx_leaf;
- uint64_t i, j;
- int needswap_upto = -1;
- unsigned int updates;
- unsigned char sk_seed[n];
- unsigned char sk_prf[n];
- unsigned char pub_seed[n];
- // Init working params
- unsigned char R[n];
- unsigned char msg_h[n];
- unsigned char hash_key[3*n];
- unsigned char ots_seed[n];
- uint32_t addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- uint32_t ots_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- unsigned char idx_bytes_32[32];
- bds_state tmp;
- // Extract SK
- unsigned long long idx = 0;
- for (i = 0; i < idx_len; i++) {
- idx |= ((unsigned long long)sk[i]) << 8*(idx_len - 1 - i);
- }
- memcpy(sk_seed, sk+idx_len, n);
- memcpy(sk_prf, sk+idx_len+n, n);
- memcpy(pub_seed, sk+idx_len+2*n, n);
- // Update SK
- for (i = 0; i < idx_len; i++) {
- sk[i] = ((idx + 1) >> 8*(idx_len - 1 - i)) & 255;
- }
- // -- Secret key for this non-forward-secure version is now updated.
- // -- A productive implementation should use a file handle instead and write the updated secret key at this point!
- // ---------------------------------
- // Message Hashing
- // ---------------------------------
- // Message Hash:
- // First compute pseudorandom value
- to_byte(idx_bytes_32, idx, 32);
- prf(R, idx_bytes_32, sk_prf, n);
- // Generate hash key (R || root || idx)
- memcpy(hash_key, R, n);
- memcpy(hash_key+n, sk+idx_len+3*n, n);
- to_byte(hash_key+2*n, idx, n);
-
- // Then use it for message digest
- h_msg(msg_h, msg, msglen, hash_key, 3*n, n);
- // Start collecting signature
- *sig_msg_len = 0;
- // Copy index to signature
- for (i = 0; i < idx_len; i++) {
- sig_msg[i] = (idx >> 8*(idx_len - 1 - i)) & 255;
- }
- sig_msg += idx_len;
- *sig_msg_len += idx_len;
- // Copy R to signature
- for (i = 0; i < n; i++)
- sig_msg[i] = R[i];
- sig_msg += n;
- *sig_msg_len += n;
- // ----------------------------------
- // Now we start to "really sign"
- // ----------------------------------
- // Handle lowest layer separately as it is slightly different...
- // Prepare Address
- setType(ots_addr, 0);
- idx_tree = idx >> tree_h;
- idx_leaf = (idx & ((1 << tree_h)-1));
- setLayerADRS(ots_addr, 0);
- setTreeADRS(ots_addr, idx_tree);
- setOTSADRS(ots_addr, idx_leaf);
- // Compute seed for OTS key pair
- get_seed(ots_seed, sk_seed, n, ots_addr);
- // Compute WOTS signature
- wots_sign(sig_msg, msg_h, ots_seed, &(params->xmss_par.wots_par), pub_seed, ots_addr);
- sig_msg += params->xmss_par.wots_par.keysize;
- *sig_msg_len += params->xmss_par.wots_par.keysize;
- memcpy(sig_msg, states[0].auth, tree_h*n);
- sig_msg += tree_h*n;
- *sig_msg_len += tree_h*n;
- // prepare signature of remaining layers
- for (i = 1; i < params->d; i++) {
- // put WOTS signature in place
- memcpy(sig_msg, wots_sigs + (i-1)*params->xmss_par.wots_par.keysize, params->xmss_par.wots_par.keysize);
- sig_msg += params->xmss_par.wots_par.keysize;
- *sig_msg_len += params->xmss_par.wots_par.keysize;
- // put AUTH nodes in place
- memcpy(sig_msg, states[i].auth, tree_h*n);
- sig_msg += tree_h*n;
- *sig_msg_len += tree_h*n;
- }
- updates = (tree_h - k) >> 1;
- setTreeADRS(addr, (idx_tree + 1));
- // mandatory update for NEXT_0 (does not count towards h-k/2) if NEXT_0 exists
- if ((1 + idx_tree) * (1 << tree_h) + idx_leaf < (1ULL << h)) {
- bds_state_update(&states[params->d], sk_seed, &(params->xmss_par), pub_seed, addr);
- }
- for (i = 0; i < params->d; i++) {
- // check if we're not at the end of a tree
- if (! (((idx + 1) & ((1ULL << ((i+1)*tree_h)) - 1)) == 0)) {
- idx_leaf = (idx >> (tree_h * i)) & ((1 << tree_h)-1);
- idx_tree = (idx >> (tree_h * (i+1)));
- setLayerADRS(addr, i);
- setTreeADRS(addr, idx_tree);
- if (i == (unsigned int) (needswap_upto + 1)) {
- bds_round(&states[i], idx_leaf, sk_seed, &(params->xmss_par), pub_seed, addr);
- }
- updates = bds_treehash_update(&states[i], updates, sk_seed, &(params->xmss_par), pub_seed, addr);
- setTreeADRS(addr, (idx_tree + 1));
- // if a NEXT-tree exists for this level;
- if ((1 + idx_tree) * (1 << tree_h) + idx_leaf < (1ULL << (h - tree_h * i))) {
- if (i > 0 && updates > 0 && states[params->d + i].next_leaf < (1ULL << h)) {
- bds_state_update(&states[params->d + i], sk_seed, &(params->xmss_par), pub_seed, addr);
- updates--;
- }
- }
- }
- else if (idx < (1ULL << h) - 1) {
- memcpy(&tmp, states+params->d + i, sizeof(bds_state));
- memcpy(states+params->d + i, states + i, sizeof(bds_state));
- memcpy(states + i, &tmp, sizeof(bds_state));
- setLayerADRS(ots_addr, (i+1));
- setTreeADRS(ots_addr, ((idx + 1) >> ((i+2) * tree_h)));
- setOTSADRS(ots_addr, (((idx >> ((i+1) * tree_h)) + 1) & ((1 << tree_h)-1)));
- get_seed(ots_seed, sk+params->index_len, n, ots_addr);
- wots_sign(wots_sigs + i*params->xmss_par.wots_par.keysize, states[i].stack, ots_seed, &(params->xmss_par.wots_par), pub_seed, ots_addr);
- states[params->d + i].stackoffset = 0;
- states[params->d + i].next_leaf = 0;
- updates--; // WOTS-signing counts as one update
- needswap_upto = i;
- for (j = 0; j < tree_h-k; j++) {
- states[i].treehash[j].completed = 1;
- }
- }
- }
- //Whipe secret elements?
- //zerobytes(tsk, CRYPTO_SECRETKEYBYTES);
- memcpy(sig_msg, msg, msglen);
- *sig_msg_len += msglen;
- return 0;
- }
- /**
- * Verifies a given message signature pair under a given public key.
- */
- int xmssmt_sign_open(unsigned char *msg, unsigned long long *msglen, const unsigned char *sig_msg, unsigned long long sig_msg_len, const unsigned char *pk, const xmssmt_params *params)
- {
- unsigned int n = params->n;
- unsigned int tree_h = params->xmss_par.h;
- unsigned int idx_len = params->index_len;
- uint64_t idx_tree;
- uint32_t idx_leaf;
- unsigned long long i, m_len;
- unsigned long long idx=0;
- unsigned char wots_pk[params->xmss_par.wots_par.keysize];
- unsigned char pkhash[n];
- unsigned char root[n];
- unsigned char msg_h[n];
- unsigned char hash_key[3*n];
- unsigned char pub_seed[n];
- memcpy(pub_seed, pk+n, n);
- // Init addresses
- uint32_t ots_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- uint32_t ltree_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- uint32_t node_addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
- // Extract index
- for (i = 0; i < idx_len; i++) {
- idx |= ((unsigned long long)sig_msg[i]) << (8*(idx_len - 1 - i));
- }
- printf("verify:: idx = %llu\n", idx);
- sig_msg += idx_len;
- sig_msg_len -= idx_len;
-
- // Generate hash key (R || root || idx)
- memcpy(hash_key, sig_msg,n);
- memcpy(hash_key+n, pk, n);
- to_byte(hash_key+2*n, idx, n);
- sig_msg += n;
- sig_msg_len -= n;
-
- // hash message (recall, R is now on pole position at sig_msg
- unsigned long long tmp_sig_len = (params->d * params->xmss_par.wots_par.keysize) + (params->h * n);
- m_len = sig_msg_len - tmp_sig_len;
- h_msg(msg_h, sig_msg + tmp_sig_len, m_len, hash_key, 3*n, n);
-
- //-----------------------
- // Verify signature
- //-----------------------
- // Prepare Address
- idx_tree = idx >> tree_h;
- idx_leaf = (idx & ((1 << tree_h)-1));
- setLayerADRS(ots_addr, 0);
- setTreeADRS(ots_addr, idx_tree);
- setType(ots_addr, 0);
- memcpy(ltree_addr, ots_addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, ltree_addr, 12);
- setType(node_addr, 2);
-
- setOTSADRS(ots_addr, idx_leaf);
- // Check WOTS signature
- wots_pkFromSig(wots_pk, sig_msg, msg_h, &(params->xmss_par.wots_par), pub_seed, ots_addr);
- sig_msg += params->xmss_par.wots_par.keysize;
- sig_msg_len -= params->xmss_par.wots_par.keysize;
- // Compute Ltree
- setLtreeADRS(ltree_addr, idx_leaf);
- l_tree(pkhash, wots_pk, &(params->xmss_par), pub_seed, ltree_addr);
- // Compute root
- validate_authpath(root, pkhash, idx_leaf, sig_msg, &(params->xmss_par), pub_seed, node_addr);
- sig_msg += tree_h*n;
- sig_msg_len -= tree_h*n;
- for (i = 1; i < params->d; i++) {
- // Prepare Address
- idx_leaf = (idx_tree & ((1 << tree_h)-1));
- idx_tree = idx_tree >> tree_h;
- setLayerADRS(ots_addr, i);
- setTreeADRS(ots_addr, idx_tree);
- setType(ots_addr, 0);
- memcpy(ltree_addr, ots_addr, 12);
- setType(ltree_addr, 1);
- memcpy(node_addr, ltree_addr, 12);
- setType(node_addr, 2);
- setOTSADRS(ots_addr, idx_leaf);
- // Check WOTS signature
- wots_pkFromSig(wots_pk, sig_msg, root, &(params->xmss_par.wots_par), pub_seed, ots_addr);
- sig_msg += params->xmss_par.wots_par.keysize;
- sig_msg_len -= params->xmss_par.wots_par.keysize;
- // Compute Ltree
- setLtreeADRS(ltree_addr, idx_leaf);
- l_tree(pkhash, wots_pk, &(params->xmss_par), pub_seed, ltree_addr);
- // Compute root
- validate_authpath(root, pkhash, idx_leaf, sig_msg, &(params->xmss_par), pub_seed, node_addr);
- sig_msg += tree_h*n;
- sig_msg_len -= tree_h*n;
- }
- for (i = 0; i < n; i++)
- if (root[i] != pk[i])
- goto fail;
- *msglen = sig_msg_len;
- for (i = 0; i < *msglen; i++)
- msg[i] = sig_msg[i];
- return 0;
- fail:
- *msglen = sig_msg_len;
- for (i = 0; i < *msglen; i++)
- msg[i] = 0;
- *msglen = -1;
- return -1;
- }
- #endif /* WITH_XMSS */
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