xmss-KAT-generator/hash.c

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4.3 KiB
C
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#include <stdint.h>
#include <string.h>
#include <openssl/sha.h>
#include "hash_address.h"
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#include "xmss_commons.h"
#include "params.h"
#include "hash.h"
#include "fips202.h"
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#define XMSS_HASH_PADDING_F 0
#define XMSS_HASH_PADDING_H 1
#define XMSS_HASH_PADDING_HASH 2
#define XMSS_HASH_PADDING_PRF 3
void addr_to_bytes(unsigned char *bytes, const uint32_t addr[8])
{
int i;
for (i = 0; i < 8; i++) {
ull_to_bytes(bytes + i*4, 4, addr[i]);
}
}
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static int core_hash(const xmss_params *params,
unsigned char *out,
const unsigned char *in, unsigned long long inlen)
{
if (params->n == 32 && params->func == XMSS_SHA2) {
SHA256(in, inlen, out);
}
else if (params->n == 32 && params->func == XMSS_SHAKE) {
shake128(out, 32, in, inlen);
}
else if (params->n == 64 && params->func == XMSS_SHA2) {
SHA512(in, inlen, out);
}
else if (params->n == 64 && params->func == XMSS_SHAKE) {
shake256(out, 64, in, inlen);
}
else {
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return -1;
}
return 0;
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}
/*
* Computes PRF(key, in), for a key of params->n bytes, and a 32-byte input.
*/
int prf(const xmss_params *params,
unsigned char *out, const unsigned char in[32],
const unsigned char *key)
{
unsigned char buf[2*params->n + 32];
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ull_to_bytes(buf, params->n, XMSS_HASH_PADDING_PRF);
memcpy(buf + params->n, key, params->n);
memcpy(buf + 2*params->n, in, 32);
return core_hash(params, out, buf, 3 * params->n);
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}
/*
* Computes the message hash using R, the public root, the index of the leaf
* node, and the message. Notably, it requires m_with_prefix to have 4*n bytes
* of space before the message, to use for the prefix. This is necessary to
* prevent having to move the message around (and thus allocate memory for it).
*/
int hash_message(const xmss_params *params, unsigned char *out,
const unsigned char *R, const unsigned char *root,
unsigned long long idx,
unsigned char *m_with_prefix, unsigned long long mlen)
{
/* We're creating a hash using input of the form:
toByte(X, 32) || R || root || index || M */
ull_to_bytes(m_with_prefix, params->n, XMSS_HASH_PADDING_HASH);
memcpy(m_with_prefix + params->n, R, params->n);
memcpy(m_with_prefix + 2*params->n, root, params->n);
ull_to_bytes(m_with_prefix + 3*params->n, params->n, idx);
return core_hash(params, out, m_with_prefix, mlen + 4*params->n);
}
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/**
* We assume the left half is in in[0]...in[n-1]
*/
int hash_h(const xmss_params *params,
unsigned char *out, const unsigned char *in,
const unsigned char *pub_seed, uint32_t addr[8])
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{
unsigned char buf[4 * params->n];
unsigned char bitmask[2 * params->n];
unsigned char addr_as_bytes[32];
unsigned int i;
/* Set the function padding. */
ull_to_bytes(buf, params->n, XMSS_HASH_PADDING_H);
/* Generate the n-byte key. */
set_key_and_mask(addr, 0);
addr_to_bytes(addr_as_bytes, addr);
prf(params, buf + params->n, addr_as_bytes, pub_seed);
/* Generate the 2n-byte mask. */
set_key_and_mask(addr, 1);
addr_to_bytes(addr_as_bytes, addr);
prf(params, bitmask, addr_as_bytes, pub_seed);
set_key_and_mask(addr, 2);
addr_to_bytes(addr_as_bytes, addr);
prf(params, bitmask + params->n, addr_as_bytes, pub_seed);
for (i = 0; i < 2 * params->n; i++) {
buf[2*params->n + i] = in[i] ^ bitmask[i];
}
return core_hash(params, out, buf, 4 * params->n);
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}
int hash_f(const xmss_params *params,
unsigned char *out, const unsigned char *in,
const unsigned char *pub_seed, uint32_t addr[8])
{
unsigned char buf[3 * params->n];
unsigned char bitmask[params->n];
unsigned char addr_as_bytes[32];
unsigned int i;
/* Set the function padding. */
ull_to_bytes(buf, params->n, XMSS_HASH_PADDING_F);
/* Generate the n-byte key. */
set_key_and_mask(addr, 0);
addr_to_bytes(addr_as_bytes, addr);
prf(params, buf + params->n, addr_as_bytes, pub_seed);
/* Generate the n-byte mask. */
set_key_and_mask(addr, 1);
addr_to_bytes(addr_as_bytes, addr);
prf(params, bitmask, addr_as_bytes, pub_seed);
for (i = 0; i < params->n; i++) {
buf[2*params->n + i] = in[i] ^ bitmask[i];
}
return core_hash(params, out, buf, 3 * params->n);
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}