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openssl/crypto/bn/bn_rand.c
Rich Salz 2301d91dd5 Change callers to use the new constants. 
Reviewed-by: Matt Caswell <matt@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/1429)
2016-08-10 10:07:37 -04:00

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/*
* Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the OpenSSL license (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#include <stdio.h>
#include <time.h>
#include "internal/cryptlib.h"
#include "bn_lcl.h"
#include <openssl/rand.h>
#include <openssl/sha.h>
static int bnrand(int pseudorand, BIGNUM *rnd, int bits, int top, int bottom)
{
unsigned char *buf = NULL;
int ret = 0, bit, bytes, mask;
time_t tim;
if (bits < 0 || (bits == 1 && top > 0)) {
BNerr(BN_F_BNRAND, BN_R_BITS_TOO_SMALL);
return 0;
}
if (bits == 0) {
BN_zero(rnd);
return 1;
}
bytes = (bits + 7) / 8;
bit = (bits - 1) % 8;
mask = 0xff << (bit + 1);
buf = OPENSSL_malloc(bytes);
if (buf == NULL) {
BNerr(BN_F_BNRAND, ERR_R_MALLOC_FAILURE);
goto err;
}
/* make a random number and set the top and bottom bits */
time(&tim);
RAND_add(&tim, sizeof(tim), 0.0);
if (RAND_bytes(buf, bytes) <= 0)
goto err;
if (pseudorand == 2) {
/*
* generate patterns that are more likely to trigger BN library bugs
*/
int i;
unsigned char c;
for (i = 0; i < bytes; i++) {
if (RAND_bytes(&c, 1) <= 0)
goto err;
if (c >= 128 && i > 0)
buf[i] = buf[i - 1];
else if (c < 42)
buf[i] = 0;
else if (c < 84)
buf[i] = 255;
}
}
if (top >= 0) {
if (top) {
if (bit == 0) {
buf[0] = 1;
buf[1] |= 0x80;
} else {
buf[0] |= (3 << (bit - 1));
}
} else {
buf[0] |= (1 << bit);
}
}
buf[0] &= ~mask;
if (bottom) /* set bottom bit if requested */
buf[bytes - 1] |= 1;
if (!BN_bin2bn(buf, bytes, rnd))
goto err;
ret = 1;
err:
OPENSSL_clear_free(buf, bytes);
bn_check_top(rnd);
return (ret);
}
int BN_rand(BIGNUM *rnd, int bits, int top, int bottom)
{
return bnrand(0, rnd, bits, top, bottom);
}
int BN_pseudo_rand(BIGNUM *rnd, int bits, int top, int bottom)
{
return bnrand(1, rnd, bits, top, bottom);
}
int BN_bntest_rand(BIGNUM *rnd, int bits, int top, int bottom)
{
return bnrand(2, rnd, bits, top, bottom);
}
/* random number r: 0 <= r < range */
static int bn_rand_range(int pseudo, BIGNUM *r, const BIGNUM *range)
{
int (*bn_rand) (BIGNUM *, int, int, int) =
pseudo ? BN_pseudo_rand : BN_rand;
int n;
int count = 100;
if (range->neg || BN_is_zero(range)) {
BNerr(BN_F_BN_RAND_RANGE, BN_R_INVALID_RANGE);
return 0;
}
n = BN_num_bits(range); /* n > 0 */
/* BN_is_bit_set(range, n - 1) always holds */
if (n == 1)
BN_zero(r);
else if (!BN_is_bit_set(range, n - 2) && !BN_is_bit_set(range, n - 3)) {
/*
* range = 100..._2, so 3*range (= 11..._2) is exactly one bit longer
* than range
*/
do {
if (!bn_rand(r, n + 1, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY))
return 0;
/*
* If r < 3*range, use r := r MOD range (which is either r, r -
* range, or r - 2*range). Otherwise, iterate once more. Since
* 3*range = 11..._2, each iteration succeeds with probability >=
* .75.
*/
if (BN_cmp(r, range) >= 0) {
if (!BN_sub(r, r, range))
return 0;
if (BN_cmp(r, range) >= 0)
if (!BN_sub(r, r, range))
return 0;
}
if (!--count) {
BNerr(BN_F_BN_RAND_RANGE, BN_R_TOO_MANY_ITERATIONS);
return 0;
}
}
while (BN_cmp(r, range) >= 0);
} else {
do {
/* range = 11..._2 or range = 101..._2 */
if (!bn_rand(r, n, BN_RAND_TOP_ANY, BN_RAND_BOTTOM_ANY))
return 0;
if (!--count) {
BNerr(BN_F_BN_RAND_RANGE, BN_R_TOO_MANY_ITERATIONS);
return 0;
}
}
while (BN_cmp(r, range) >= 0);
}
bn_check_top(r);
return 1;
}
int BN_rand_range(BIGNUM *r, const BIGNUM *range)
{
return bn_rand_range(0, r, range);
}
int BN_pseudo_rand_range(BIGNUM *r, const BIGNUM *range)
{
return bn_rand_range(1, r, range);
}
/*
* BN_generate_dsa_nonce generates a random number 0 <= out < range. Unlike
* BN_rand_range, it also includes the contents of |priv| and |message| in
* the generation so that an RNG failure isn't fatal as long as |priv|
* remains secret. This is intended for use in DSA and ECDSA where an RNG
* weakness leads directly to private key exposure unless this function is
* used.
*/
int BN_generate_dsa_nonce(BIGNUM *out, const BIGNUM *range,
const BIGNUM *priv, const unsigned char *message,
size_t message_len, BN_CTX *ctx)
{
SHA512_CTX sha;
/*
* We use 512 bits of random data per iteration to ensure that we have at
* least |range| bits of randomness.
*/
unsigned char random_bytes[64];
unsigned char digest[SHA512_DIGEST_LENGTH];
unsigned done, todo;
/* We generate |range|+8 bytes of random output. */
const unsigned num_k_bytes = BN_num_bytes(range) + 8;
unsigned char private_bytes[96];
unsigned char *k_bytes;
int ret = 0;
k_bytes = OPENSSL_malloc(num_k_bytes);
if (k_bytes == NULL)
goto err;
/* We copy |priv| into a local buffer to avoid exposing its length. */
todo = sizeof(priv->d[0]) * priv->top;
if (todo > sizeof(private_bytes)) {
/*
* No reasonable DSA or ECDSA key should have a private key this
* large and we don't handle this case in order to avoid leaking the
* length of the private key.
*/
BNerr(BN_F_BN_GENERATE_DSA_NONCE, BN_R_PRIVATE_KEY_TOO_LARGE);
goto err;
}
memcpy(private_bytes, priv->d, todo);
memset(private_bytes + todo, 0, sizeof(private_bytes) - todo);
for (done = 0; done < num_k_bytes;) {
if (RAND_bytes(random_bytes, sizeof(random_bytes)) != 1)
goto err;
SHA512_Init(&sha);
SHA512_Update(&sha, &done, sizeof(done));
SHA512_Update(&sha, private_bytes, sizeof(private_bytes));
SHA512_Update(&sha, message, message_len);
SHA512_Update(&sha, random_bytes, sizeof(random_bytes));
SHA512_Final(digest, &sha);
todo = num_k_bytes - done;
if (todo > SHA512_DIGEST_LENGTH)
todo = SHA512_DIGEST_LENGTH;
memcpy(k_bytes + done, digest, todo);
done += todo;
}
if (!BN_bin2bn(k_bytes, num_k_bytes, out))
goto err;
if (BN_mod(out, out, range, ctx) != 1)
goto err;
ret = 1;
err:
OPENSSL_free(k_bytes);
return ret;
}
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