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test_sign_inc.c
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test_sign_inc.c
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/*
* This bangs on the incremental version of the signature generation logic
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "hss.h"
#include "hss_sign_inc.h"
#include "test_hss.h"
static bool generate_random(void *output, size_t length) {
unsigned char *p = output;
int i = 1;
while (length--) {
*p++ = i++;
}
return true;
}
/* We have no reason to write the key updates anywhere */
static bool ignore_update(unsigned char *private_key, size_t len, void *ctx) {
return true;
}
static bool run_test(int d, param_set_t *lm_array, param_set_t *lm_ots_array,
unsigned num_iter, bool at_end) {
size_t len_private_key = hss_get_private_key_len(d, lm_array, lm_ots_array );
if (len_private_key == 0 || len_private_key > HSS_MAX_PRIVATE_KEY_LEN) {
printf( " Len private key failed\n" );
return false;
}
unsigned char private_key[HSS_MAX_PRIVATE_KEY_LEN];
unsigned len_public_key = hss_get_public_key_len(d, lm_array, lm_ots_array );
if (len_public_key == 0 || len_public_key > HSS_MAX_PUBLIC_KEY_LEN) {
printf( " Len public key failed\n" );
return false;
}
size_t len_sig = hss_get_signature_len(d, lm_array, lm_ots_array );
if (len_sig == 0) {
printf( " Len signature failed\n" );
return false;
}
unsigned char public_key[HSS_MAX_PUBLIC_KEY_LEN];
unsigned char aux_data[1000];
/* Generate the public key */
if (!hss_generate_private_key(
generate_random,
d, lm_array, lm_ots_array,
NULL, private_key,
public_key, len_public_key,
aux_data, sizeof aux_data, 0 )) {
printf( " Gen private key failed\n" );
return false;
}
/* Load the private key into memory (twice!) */
struct hss_working_key *w = hss_load_private_key(
NULL, private_key,
0, /* Minimal memory */
aux_data, sizeof aux_data, 0 );
struct hss_working_key *w2 = hss_load_private_key(
NULL, private_key,
0, /* Minimal memory */
aux_data, sizeof aux_data, 0 );
if (!w || !w2) {
printf( " *** failed loading private key\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
return false;
}
unsigned i;
unsigned char *sig_1 = malloc(len_sig);
unsigned char *sig_2 = malloc(len_sig);
if (!sig_1 || !sig_2) {
free(sig_1); free(sig_2);
return false;
}
for (i = 0; i<num_iter; i++) {
/* Generate a signature using the standard API */
unsigned char message[3] = "ABC";
if (!hss_generate_signature( w, ignore_update, NULL,
message, sizeof message,
sig_1, len_sig, 0 )) {
printf( " *** failed normal signature\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
/* Now, do the same using the incremental API */
struct hss_sign_inc ctx;
struct hss_extra_info info;
hss_init_extra_info( &info );
if (!hss_sign_init(&ctx, w2, ignore_update, NULL,
sig_2, len_sig, &info )) {
printf( " *** failed signature init\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
/* Check if the hit-end flag we were returned is what we should */
/* expect */
if (hss_extra_info_test_last_signature(&info) !=
(at_end && (i+1 == num_iter))) {
printf( " *** at-end flag not correct\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
if (!hss_sign_update( &ctx, "A", 1) ||
!hss_sign_update( &ctx, "BC", 2)) {
printf( " *** failed signature update\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
if (!hss_sign_finalize( &ctx, w2, sig_2, 0)) {
printf( " *** failed signature finalize\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
/* Check if the two signatures are the same */
if (0 != memcmp( sig_1, sig_2, len_sig )) {
printf( " *** Generated different signatures\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
}
/* If we're supposed to be at the end, make sure asking for another */
/* signature fails */
if (at_end) {
struct hss_sign_inc ctx;
struct hss_extra_info info = { 0 };
if (hss_sign_init(&ctx, w2, ignore_update, NULL,
sig_2, len_sig, &info )) {
printf( " *** signinit succeeded when it should have failed\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
if (hss_extra_info_test_error_code(&info) != hss_error_private_key_expired) {
printf( " *** signinit gave incorrect error code\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return false;
}
}
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig_1); free(sig_2);
return true;
}
static bool run_test_2(int d, param_set_t *lm_array, param_set_t *lm_ots_array,
unsigned num_iter) {
size_t len_private_key = hss_get_private_key_len(d, lm_array, lm_ots_array );
if (len_private_key == 0 || len_private_key > HSS_MAX_PRIVATE_KEY_LEN) {
printf( " Len private key failed\n" );
return false;
}
unsigned char private_key[HSS_MAX_PRIVATE_KEY_LEN];
unsigned len_public_key = hss_get_public_key_len(d, lm_array, lm_ots_array );
if (len_public_key == 0 || len_public_key > HSS_MAX_PUBLIC_KEY_LEN) {
printf( " Len public key failed\n" );
return false;
}
size_t len_sig = hss_get_signature_len(d, lm_array, lm_ots_array );
if (len_sig == 0) {
printf( " Len signature failed\n" );
return false;
}
unsigned char public_key[HSS_MAX_PUBLIC_KEY_LEN];
unsigned char aux_data[1000];
/* Generate the public key */
if (!hss_generate_private_key(
generate_random,
d, lm_array, lm_ots_array,
NULL, private_key,
public_key, len_public_key,
aux_data, sizeof aux_data, 0 )) {
printf( " Gen private key failed\n" );
return false;
}
/* Load the private key into memory (twice!) */
struct hss_working_key *w = hss_load_private_key(
NULL, private_key,
0, /* Minimal memory */
aux_data, sizeof aux_data, 0 );
struct hss_working_key *w2 = hss_load_private_key(
NULL, private_key,
0, /* Minimal memory */
aux_data, sizeof aux_data, 0 );
if (!w || !w2) {
printf( " *** failed loading private key\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
return false;
}
unsigned char *sig = malloc( len_sig * num_iter );
struct hss_sign_inc *ctx = malloc(sizeof(struct hss_sign_inc) * num_iter);
unsigned char *sig_2 = malloc(len_sig);
if (!sig || !ctx || !sig_2) {
printf( " *** memory allocation failure\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
unsigned i;
for (i = 0; i<num_iter; i++) {
/* Start the signature with the incremental API */
if (!hss_sign_init(&ctx[i], w2, ignore_update, NULL,
&sig[i * len_sig], len_sig, 0 )) {
printf( " *** failed signature init\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
/* Start updating */
if (!hss_sign_update( &ctx[i], "AB", 2)) {
printf( " *** failed signature update\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
}
for (i = 0; i<num_iter; i++) {
/* Generate a signature using the standard API */
unsigned char message[3] = "ABC";
if (!hss_generate_signature( w, ignore_update, NULL,
message, sizeof message,
sig_2, len_sig, 0 )) {
printf( " *** failed normal signature\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
/* Now, finish the signature with the incremental API */
if (!hss_sign_update( &ctx[i], "C", 1)) {
printf( " *** failed signature update\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
if (!hss_sign_finalize( &ctx[i], w2, &sig[i * len_sig], 0)) {
printf( " *** failed signature finalize\n" );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
/* Check if the two signatures are the same */
if (0 != memcmp( &sig[i * len_sig], sig_2, len_sig )) {
printf( " *** Generated different signatures i = %d\n", i );
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return false;
}
}
hss_free_working_key(w);
hss_free_working_key(w2);
free(sig); free(ctx); free(sig_2);
return true;
}
bool test_sign_inc(bool fast_flag, bool quiet_flag) {
/*
* First set of tests; for several different parameter sets, create the
* same key with two different working_keys; generate signatures with both
* (one using the standard API, and one with the incremental, and see if
* they match
*/
{
int d = 1;
param_set_t lm_array[1] = { LMS_SHA256_N32_H5 };
param_set_t lm_ots_array[1] = { LMOTS_SHA256_N32_W8 };
if (!run_test( d, lm_array, lm_ots_array, 32, true )) return false;
}
{
int d = 1;
param_set_t lm_array[1] = { LMS_SHA256_N32_H10 };
param_set_t lm_ots_array[1] = { LMOTS_SHA256_N32_W4 };
if (!run_test( d, lm_array, lm_ots_array, 1024, true )) return false;
}
{
int d = 2;
param_set_t lm_array[2] = { LMS_SHA256_N32_H5, LMS_SHA256_N32_H5 };
param_set_t lm_ots_array[2] = { LMOTS_SHA256_N32_W4, LMOTS_SHA256_N32_W2 };
if (!run_test( d, lm_array, lm_ots_array, 1024, true )) return false;
}
{
int d = 2;
param_set_t lm_array[2] = { LMS_SHA256_N32_H10, LMS_SHA256_N32_H5 };
param_set_t lm_ots_array[2] = { LMOTS_SHA256_N32_W8, LMOTS_SHA256_N32_W2 };
if (!run_test( d, lm_array, lm_ots_array, 100, false )) return false;
}
{
int d = 3;
param_set_t lm_array[3] = {
LMS_SHA256_N32_H10, LMS_SHA256_N32_H5, LMS_SHA256_N32_H5 };
param_set_t lm_ots_array[3] = {
LMOTS_SHA256_N32_W8, LMOTS_SHA256_N32_W4, LMOTS_SHA256_N32_W2 };
if (!run_test( d, lm_array, lm_ots_array, 2000, false )) return false;
}
/*
* Second test; for one particular parm set, initiate a large number of
* signature ops, but don't close them out; then, close them out in
* order, and see if they match the normal signature. This verifies that
* stepping the tree past where the original auth path was doesn't mess
* things up
* In slow mode, we make sure to step past the first penultimate Merkle
* tree (level 2 in this case), to make sure that we don't need the
* original tree there to be valid; it takes too long for fast mode
*/
{
int d = 3;
param_set_t lm_array[3] = {
LMS_SHA256_N32_H10, LMS_SHA256_N32_H5, LMS_SHA256_N32_H5 };
param_set_t lm_ots_array[3] = {
LMOTS_SHA256_N32_W8, LMOTS_SHA256_N32_W8, LMOTS_SHA256_N32_W8 };
int num_iter;
if (fast_flag) num_iter = 100; else num_iter = 10000;
if (!run_test_2( d, lm_array, lm_ots_array, num_iter )) return false;
}
return true;
}