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Clean up key generation

master
Joost Rijneveld 7年前
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a9fe0e43fe
この署名に対応する既知のキーがデータベースに存在しません GPGキーID: A4FE39CF49CBC553
1個のファイルの変更70行の追加72行の削除
  1. +70
    -72
      xmss_core.c

+ 70
- 72
xmss_core.c ファイルの表示

@@ -11,50 +11,56 @@
#include "xmss_core.h"

/**
* 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.
* Merkle's TreeHash algorithm. Currently only used for key generation.
* Computes the root node of the top-most subtree.
*/
static void treehash(const xmss_params *params, unsigned char *node, uint32_t index, const unsigned char *sk_seed, const unsigned char *pub_seed, const uint32_t addr[8])
static void treehash_root(const xmss_params *params, unsigned char *root,
const unsigned char *sk_seed,
const unsigned char *pub_seed)
{
uint32_t idx = index;
// 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
unsigned char stack[(params->tree_height+1)*params->n];
unsigned int heights[params->tree_height+1];
unsigned int offset = 0;

/* The subtree has at most 2^20 leafs, so uint32_t suffices. */
uint32_t idx;

/* We need all three types of addresses in parallel. */
uint32_t ots_addr[8] = {0};
uint32_t ltree_addr[8] = {0};
uint32_t node_addr[8] = {0};

/* To support the multi-tree setting, select the top tree. */
set_layer_addr(ots_addr, params->d - 1);
set_layer_addr(ltree_addr, params->d - 1);
set_layer_addr(node_addr, params->d - 1);

set_type(ots_addr, 0);
memcpy(ltree_addr, addr, 12);
set_type(ltree_addr, 1);
memcpy(node_addr, addr, 12);
set_type(node_addr, 2);

uint32_t lastnode, i;
unsigned char stack[(params->tree_height+1)*params->n];
uint16_t stacklevels[params->tree_height+1];
unsigned int stackoffset=0;

lastnode = idx+(1 << params->tree_height);

for (; idx < lastnode; idx++) {
for (idx = 0; idx < (uint32_t)(1 << params->tree_height); idx++) {
/* Add the next leaf node to the stack. */
set_ltree_addr(ltree_addr, idx);
set_ots_addr(ots_addr, idx);
gen_leaf_wots(params, stack+stackoffset*params->n, sk_seed, pub_seed, ltree_addr, ots_addr);
stacklevels[stackoffset] = 0;
stackoffset++;
while (stackoffset>1 && stacklevels[stackoffset-1] == stacklevels[stackoffset-2]) {
set_tree_height(node_addr, stacklevels[stackoffset-1]);
set_tree_index(node_addr, (idx >> (stacklevels[stackoffset-1]+1)));
hash_h(params, stack+(stackoffset-2)*params->n, stack+(stackoffset-2)*params->n, pub_seed, node_addr);
stacklevels[stackoffset-2]++;
stackoffset--;
gen_leaf_wots(params, stack + offset*params->n,
sk_seed, pub_seed, ltree_addr, ots_addr);
heights[offset] = 0;
offset++;

/* While the top-most nodes are of equal height.. */
while (offset >= 2 && heights[offset - 1] == heights[offset - 2]) {
/* Hash the top-most nodes from the stack together. */
set_tree_height(node_addr, heights[offset - 1]);
set_tree_index(node_addr, (idx >> (heights[offset - 1] + 1)));
hash_h(params, stack + (offset-2)*params->n,
stack + (offset-2)*params->n, pub_seed, node_addr);
/* Note that the top-most node is now one layer higher. */
heights[offset-2]++;
offset--;
}
}
for (i = 0; i < params->n; i++) {
node[i] = stack[i];
}
memcpy(root, stack, params->n);
}

/**
@@ -112,29 +118,26 @@ static void compute_authpath_wots(const xmss_params *params, unsigned char *root
memcpy(root, tree+params->n, params->n);
}


/*
* 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.
* Format sk: [(32bit) index || SK_SEED || SK_PRF || PUB_SEED || root]
* Format pk: [root || PUB_SEED], omitting algorithm OID.
*/
int xmss_core_keypair(const xmss_params *params, unsigned char *pk, unsigned char *sk)
int xmss_core_keypair(const xmss_params *params,
unsigned char *pk, unsigned char *sk)
{
// Set idx = 0
sk[0] = 0;
sk[1] = 0;
sk[2] = 0;
sk[3] = 0;
// Init SK_SEED (params->n byte), SK_PRF (params->n byte), and PUB_SEED (params->n byte)
randombytes(sk+4, 3*params->n);
// Copy PUB_SEED to public key
memcpy(pk+params->n, sk+4+2*params->n, params->n);

uint32_t addr[8] = {0, 0, 0, 0, 0, 0, 0, 0};
// Compute root
treehash(params, pk, 0, sk+4, sk+4+2*params->n, addr);
// copy root to sk
memcpy(sk+4+3*params->n, pk, params->n);
/* Initialize index to 0. */
memset(sk, 0, params->index_len);
sk += 4;

/* Initialize SK_SEED, SK_PRF and PUB_SEED. */
randombytes(sk, 3 * params->n);
memcpy(pk + params->n, sk + 2*params->n, params->n);

/* Compute root node. */
treehash_root(params, pk, sk, pk + params->n);
memcpy(sk + 3*params->n, pk, params->n);

return 0;
}

@@ -242,28 +245,23 @@ int xmss_core_sign(const xmss_params *params, unsigned char *sk, unsigned char *

/*
* Generates a XMSSMT key pair for a given parameter set.
* Format sk: [(ceil(h/8) bit) idx || SK_SEED || SK_PRF || PUB_SEED]
* Format pk: [root || PUB_SEED] omitting algo oid.
* Format sk: [(ceil(h/8) bit) index || SK_SEED || SK_PRF || PUB_SEED]
* Format pk: [root || PUB_SEED] omitting algorithm OID.
*/
int xmssmt_core_keypair(const xmss_params *params, unsigned char *pk, unsigned char *sk)
{
uint16_t i;
// Set idx = 0
for (i = 0; i < params->index_len; i++) {
sk[i] = 0;
}
// Init SK_SEED (params->n byte), SK_PRF (params->n byte), and PUB_SEED (params->n byte)
randombytes(sk+params->index_len, 3*params->n);
// Copy PUB_SEED to public key
memcpy(pk+params->n, sk+params->index_len+2*params->n, params->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};
set_layer_addr(addr, (params->d-1));

// Compute root
treehash(params, pk, 0, sk+params->index_len, pk+params->n, addr);
memcpy(sk+params->index_len+3*params->n, pk, params->n);
/* Initialize index to 0. */
memset(sk, 0, params->index_len);
sk += 4;

/* Initialize SK_SEED, SK_PRF and PUB_SEED. */
randombytes(sk, 3 * params->n);
memcpy(pk + params->n, sk + 2*params->n, params->n);

/* Compute root node of the top-most subtree. */
treehash_root(params, pk, sk, pk + params->n);
memcpy(sk + 3*params->n, pk, params->n);

return 0;
}



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