openssl/test/rsa_sp800_56b_test.c
Richard Levitte 3a1ee3c199 Drop OPENSSL_NO_RSA everywhere
The configuration option 'no-rsa' was dropped with OpenSSL 1.1.0, so
this is simply a cleanup of the remains.

Reviewed-by: Tomas Mraz <tmraz@fedoraproject.org>
(Merged from https://github.com/openssl/openssl/pull/13700)
2020-12-20 12:19:42 +01:00

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/*
* Copyright 2018-2020 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (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
*/
/*
* RSA low level APIs are deprecated for public use, but still ok for
* internal use.
*/
#include "internal/deprecated.h"
#include <stdio.h>
#include <string.h>
#include "internal/nelem.h"
#include <openssl/crypto.h>
#include <openssl/err.h>
#include <openssl/rand.h>
#include <openssl/bn.h>
#include "testutil.h"
#include "rsa_local.h"
#include <openssl/rsa.h>
/* taken from RSA2 cavs data */
static const unsigned char cav_e[] = {
0x01,0x00,0x01
};
static const unsigned char cav_p[] = {
0xcf,0x72,0x1b,0x9a,0xfd,0x0d,0x22,0x1a,0x74,0x50,0x97,0x22,0x76,0xd8,0xc0,
0xc2,0xfd,0x08,0x81,0x05,0xdd,0x18,0x21,0x99,0x96,0xd6,0x5c,0x79,0xe3,0x02,
0x81,0xd7,0x0e,0x3f,0x3b,0x34,0xda,0x61,0xc9,0x2d,0x84,0x86,0x62,0x1e,0x3d,
0x5d,0xbf,0x92,0x2e,0xcd,0x35,0x3d,0x6e,0xb9,0x59,0x16,0xc9,0x82,0x50,0x41,
0x30,0x45,0x67,0xaa,0xb7,0xbe,0xec,0xea,0x4b,0x9e,0xa0,0xc3,0x05,0xbc,0x4c,
0x01,0xa5,0x4b,0xbd,0xa4,0x20,0xb5,0x20,0xd5,0x59,0x6f,0x82,0x5c,0x8f,0x4f,
0xe0,0x3a,0x4e,0x7e,0xfe,0x44,0xf3,0x3c,0xc0,0x0e,0x14,0x2b,0x32,0xe6,0x28,
0x8b,0x63,0x87,0x00,0xc3,0x53,0x4a,0x5b,0x71,0x7a,0x5b,0x28,0x40,0xc4,0x18,
0xb6,0x77,0x0b,0xab,0x59,0xa4,0x96,0x7d
};
static const unsigned char cav_q[] = {
0xfe,0xab,0xf2,0x7c,0x16,0x4a,0xf0,0x8d,0x31,0xc6,0x0a,0x82,0xe2,0xae,0xbb,
0x03,0x7e,0x7b,0x20,0x4e,0x64,0xb0,0x16,0xad,0x3c,0x01,0x1a,0xd3,0x54,0xbf,
0x2b,0xa4,0x02,0x9e,0xc3,0x0d,0x60,0x3d,0x1f,0xb9,0xc0,0x0d,0xe6,0x97,0x68,
0xbb,0x8c,0x81,0xd5,0xc1,0x54,0x96,0x0f,0x99,0xf0,0xa8,0xa2,0xf3,0xc6,0x8e,
0xec,0xbc,0x31,0x17,0x70,0x98,0x24,0xa3,0x36,0x51,0xa8,0x54,0xc4,0x44,0xdd,
0xf7,0x7e,0xda,0x47,0x4a,0x67,0x44,0x5d,0x4e,0x75,0xf0,0x4d,0x00,0x68,0xe1,
0x4a,0xec,0x1f,0x45,0xf9,0xe6,0xca,0x38,0x95,0x48,0x6f,0xdc,0x9d,0x1b,0xa3,
0x4b,0xfd,0x08,0x4b,0x54,0xcd,0xeb,0x3d,0xef,0x33,0x11,0x6e,0xce,0xe4,0x5d,
0xef,0xa9,0x58,0x5c,0x87,0x4d,0xc8,0xcf
};
static const unsigned char cav_n[] = {
0xce,0x5e,0x8d,0x1a,0xa3,0x08,0x7a,0x2d,0xb4,0x49,0x48,0xf0,0x06,0xb6,0xfe,
0xba,0x2f,0x39,0x7c,0x7b,0xe0,0x5d,0x09,0x2d,0x57,0x4e,0x54,0x60,0x9c,0xe5,
0x08,0x4b,0xe1,0x1a,0x73,0xc1,0x5e,0x2f,0xb6,0x46,0xd7,0x81,0xca,0xbc,0x98,
0xd2,0xf9,0xef,0x1c,0x92,0x8c,0x8d,0x99,0x85,0x28,0x52,0xd6,0xd5,0xab,0x70,
0x7e,0x9e,0xa9,0x87,0x82,0xc8,0x95,0x64,0xeb,0xf0,0x6c,0x0f,0x3f,0xe9,0x02,
0x29,0x2e,0x6d,0xa1,0xec,0xbf,0xdc,0x23,0xdf,0x82,0x4f,0xab,0x39,0x8d,0xcc,
0xac,0x21,0x51,0x14,0xf8,0xef,0xec,0x73,0x80,0x86,0xa3,0xcf,0x8f,0xd5,0xcf,
0x22,0x1f,0xcc,0x23,0x2f,0xba,0xcb,0xf6,0x17,0xcd,0x3a,0x1f,0xd9,0x84,0xb9,
0x88,0xa7,0x78,0x0f,0xaa,0xc9,0x04,0x01,0x20,0x72,0x5d,0x2a,0xfe,0x5b,0xdd,
0x16,0x5a,0xed,0x83,0x02,0x96,0x39,0x46,0x37,0x30,0xc1,0x0d,0x87,0xc2,0xc8,
0x33,0x38,0xed,0x35,0x72,0xe5,0x29,0xf8,0x1f,0x23,0x60,0xe1,0x2a,0x5b,0x1d,
0x6b,0x53,0x3f,0x07,0xc4,0xd9,0xbb,0x04,0x0c,0x5c,0x3f,0x0b,0xc4,0xd4,0x61,
0x96,0x94,0xf1,0x0f,0x4a,0x49,0xac,0xde,0xd2,0xe8,0x42,0xb3,0x4a,0x0b,0x64,
0x7a,0x32,0x5f,0x2b,0x5b,0x0f,0x8b,0x8b,0xe0,0x33,0x23,0x34,0x64,0xf8,0xb5,
0x7f,0x69,0x60,0xb8,0x71,0xe9,0xff,0x92,0x42,0xb1,0xf7,0x23,0xa8,0xa7,0x92,
0x04,0x3d,0x6b,0xff,0xf7,0xab,0xbb,0x14,0x1f,0x4c,0x10,0x97,0xd5,0x6b,0x71,
0x12,0xfd,0x93,0xa0,0x4a,0x3b,0x75,0x72,0x40,0x96,0x1c,0x5f,0x40,0x40,0x57,
0x13
};
static const unsigned char cav_d[] = {
0x47,0x47,0x49,0x1d,0x66,0x2a,0x4b,0x68,0xf5,0xd8,0x4a,0x24,0xfd,0x6c,0xbf,
0x56,0xb7,0x70,0xf7,0x9a,0x21,0xc8,0x80,0x9e,0xf4,0x84,0xcd,0x88,0x01,0x28,
0xea,0x50,0xab,0x13,0x63,0xdf,0xea,0x14,0x38,0xb5,0x07,0x42,0x81,0x2f,0xda,
0xe9,0x24,0x02,0x7e,0xaf,0xef,0x74,0x09,0x0e,0x80,0xfa,0xfb,0xd1,0x19,0x41,
0xe5,0xba,0x0f,0x7c,0x0a,0xa4,0x15,0x55,0xa2,0x58,0x8c,0x3a,0x48,0x2c,0xc6,
0xde,0x4a,0x76,0xfb,0x72,0xb6,0x61,0xe6,0xd2,0x10,0x44,0x4c,0x33,0xb8,0xd2,
0x74,0xb1,0x9d,0x3b,0xcd,0x2f,0xb1,0x4f,0xc3,0x98,0xbd,0x83,0xb7,0x7e,0x75,
0xe8,0xa7,0x6a,0xee,0xcc,0x51,0x8c,0x99,0x17,0x67,0x7f,0x27,0xf9,0x0d,0x6a,
0xb7,0xd4,0x80,0x17,0x89,0x39,0x9c,0xf3,0xd7,0x0f,0xdf,0xb0,0x55,0x80,0x1d,
0xaf,0x57,0x2e,0xd0,0xf0,0x4f,0x42,0x69,0x55,0xbc,0x83,0xd6,0x97,0x83,0x7a,
0xe6,0xc6,0x30,0x6d,0x3d,0xb5,0x21,0xa7,0xc4,0x62,0x0a,0x20,0xce,0x5e,0x5a,
0x17,0x98,0xb3,0x6f,0x6b,0x9a,0xeb,0x6b,0xa3,0xc4,0x75,0xd8,0x2b,0xdc,0x5c,
0x6f,0xec,0x5d,0x49,0xac,0xa8,0xa4,0x2f,0xb8,0x8c,0x4f,0x2e,0x46,0x21,0xee,
0x72,0x6a,0x0e,0x22,0x80,0x71,0xc8,0x76,0x40,0x44,0x61,0x16,0xbf,0xa5,0xf8,
0x89,0xc7,0xe9,0x87,0xdf,0xbd,0x2e,0x4b,0x4e,0xc2,0x97,0x53,0xe9,0x49,0x1c,
0x05,0xb0,0x0b,0x9b,0x9f,0x21,0x19,0x41,0xe9,0xf5,0x61,0xd7,0x33,0x2e,0x2c,
0x94,0xb8,0xa8,0x9a,0x3a,0xcc,0x6a,0x24,0x8d,0x19,0x13,0xee,0xb9,0xb0,0x48,
0x61
};
/* helper function */
static BIGNUM *bn_load_new(const unsigned char *data, int sz)
{
BIGNUM *ret = BN_new();
if (ret != NULL)
BN_bin2bn(data, sz, ret);
return ret;
}
static int test_check_public_exponent(void)
{
int ret = 0;
BIGNUM *e = NULL;
ret = TEST_ptr(e = BN_new())
/* e is too small */
&& TEST_true(BN_set_word(e, 65535))
&& TEST_false(ossl_rsa_check_public_exponent(e))
/* e is even will fail */
&& TEST_true(BN_set_word(e, 65536))
&& TEST_false(ossl_rsa_check_public_exponent(e))
/* e is ok */
&& TEST_true(BN_set_word(e, 65537))
&& TEST_true(ossl_rsa_check_public_exponent(e))
/* e = 2^256 is too big */
&& TEST_true(BN_lshift(e, BN_value_one(), 256))
&& TEST_false(ossl_rsa_check_public_exponent(e))
/* e = 2^256-1 is odd and in range */
&& TEST_true(BN_sub(e, e, BN_value_one()))
&& TEST_true(ossl_rsa_check_public_exponent(e));
BN_free(e);
return ret;
}
static int test_check_prime_factor_range(void)
{
int ret = 0;
BN_CTX *ctx = NULL;
BIGNUM *p = NULL;
BIGNUM *bn_p1 = NULL, *bn_p2 = NULL, *bn_p3 = NULL, *bn_p4 = NULL;
/* Some range checks that are larger than 32 bits */
static const unsigned char p1[] = { 0x0B, 0x50, 0x4F, 0x33, 0x3F };
static const unsigned char p2[] = { 0x10, 0x00, 0x00, 0x00, 0x00 };
static const unsigned char p3[] = { 0x0B, 0x50, 0x4F, 0x33, 0x40 };
static const unsigned char p4[] = { 0x0F, 0xFF, 0xFF, 0xFF, 0xFF };
/* (√2)(2^(nbits/2 - 1) <= p <= 2^(nbits/2) - 1
* For 8 bits: 0xB.504F <= p <= 0xF
* for 72 bits: 0xB504F333F. <= p <= 0xF_FFFF_FFFF
*/
ret = TEST_ptr(p = BN_new())
&& TEST_ptr(bn_p1 = bn_load_new(p1, sizeof(p1)))
&& TEST_ptr(bn_p2 = bn_load_new(p2, sizeof(p2)))
&& TEST_ptr(bn_p3 = bn_load_new(p3, sizeof(p3)))
&& TEST_ptr(bn_p4 = bn_load_new(p4, sizeof(p4)))
&& TEST_ptr(ctx = BN_CTX_new())
&& TEST_true(BN_set_word(p, 0xA))
&& TEST_false(ossl_rsa_check_prime_factor_range(p, 8, ctx))
&& TEST_true(BN_set_word(p, 0x10))
&& TEST_false(ossl_rsa_check_prime_factor_range(p, 8, ctx))
&& TEST_true(BN_set_word(p, 0xB))
&& TEST_false(ossl_rsa_check_prime_factor_range(p, 8, ctx))
&& TEST_true(BN_set_word(p, 0xC))
&& TEST_true(ossl_rsa_check_prime_factor_range(p, 8, ctx))
&& TEST_true(BN_set_word(p, 0xF))
&& TEST_true(ossl_rsa_check_prime_factor_range(p, 8, ctx))
&& TEST_false(ossl_rsa_check_prime_factor_range(bn_p1, 72, ctx))
&& TEST_false(ossl_rsa_check_prime_factor_range(bn_p2, 72, ctx))
&& TEST_true(ossl_rsa_check_prime_factor_range(bn_p3, 72, ctx))
&& TEST_true(ossl_rsa_check_prime_factor_range(bn_p4, 72, ctx));
BN_free(bn_p4);
BN_free(bn_p3);
BN_free(bn_p2);
BN_free(bn_p1);
BN_free(p);
BN_CTX_free(ctx);
return ret;
}
static int test_check_prime_factor(void)
{
int ret = 0;
BN_CTX *ctx = NULL;
BIGNUM *p = NULL, *e = NULL;
BIGNUM *bn_p1 = NULL, *bn_p2 = NULL, *bn_p3 = NULL;
/* Some range checks that are larger than 32 bits */
static const unsigned char p1[] = { 0x0B, 0x50, 0x4f, 0x33, 0x73 };
static const unsigned char p2[] = { 0x0B, 0x50, 0x4f, 0x33, 0x75 };
static const unsigned char p3[] = { 0x0F, 0x50, 0x00, 0x03, 0x75 };
ret = TEST_ptr(p = BN_new())
&& TEST_ptr(bn_p1 = bn_load_new(p1, sizeof(p1)))
&& TEST_ptr(bn_p2 = bn_load_new(p2, sizeof(p2)))
&& TEST_ptr(bn_p3 = bn_load_new(p3, sizeof(p3)))
&& TEST_ptr(e = BN_new())
&& TEST_ptr(ctx = BN_CTX_new())
/* Fails the prime test */
&& TEST_true(BN_set_word(e, 0x1))
&& TEST_false(ossl_rsa_check_prime_factor(bn_p1, e, 72, ctx))
/* p is prime and in range and gcd(p-1, e) = 1 */
&& TEST_true(ossl_rsa_check_prime_factor(bn_p2, e, 72, ctx))
/* gcd(p-1,e) = 1 test fails */
&& TEST_true(BN_set_word(e, 0x2))
&& TEST_false(ossl_rsa_check_prime_factor(p, e, 72, ctx))
/* p fails the range check */
&& TEST_true(BN_set_word(e, 0x1))
&& TEST_false(ossl_rsa_check_prime_factor(bn_p3, e, 72, ctx));
BN_free(bn_p3);
BN_free(bn_p2);
BN_free(bn_p1);
BN_free(e);
BN_free(p);
BN_CTX_free(ctx);
return ret;
}
/* This test uses legacy functions because they can take invalid numbers */
static int test_check_private_exponent(void)
{
int ret = 0;
RSA *key = NULL;
BN_CTX *ctx = NULL;
BIGNUM *p = NULL, *q = NULL, *e = NULL, *d = NULL, *n = NULL;
ret = TEST_ptr(key = RSA_new())
&& TEST_ptr(ctx = BN_CTX_new())
&& TEST_ptr(p = BN_new())
&& TEST_ptr(q = BN_new())
/* lcm(15-1,17-1) = 14*16 / 2 = 112 */
&& TEST_true(BN_set_word(p, 15))
&& TEST_true(BN_set_word(q, 17))
&& TEST_true(RSA_set0_factors(key, p, q));
if (!ret) {
BN_free(p);
BN_free(q);
goto end;
}
ret = TEST_ptr(e = BN_new())
&& TEST_ptr(d = BN_new())
&& TEST_ptr(n = BN_new())
&& TEST_true(BN_set_word(e, 5))
&& TEST_true(BN_set_word(d, 157))
&& TEST_true(BN_set_word(n, 15*17))
&& TEST_true(RSA_set0_key(key, n, e, d));
if (!ret) {
BN_free(e);
BN_free(d);
BN_free(n);
goto end;
}
/* fails since d >= lcm(p-1, q-1) */
ret = TEST_false(ossl_rsa_check_private_exponent(key, 8, ctx))
&& TEST_true(BN_set_word(d, 45))
/* d is correct size and 1 = e.d mod lcm(p-1, q-1) */
&& TEST_true(ossl_rsa_check_private_exponent(key, 8, ctx))
/* d is too small compared to nbits */
&& TEST_false(ossl_rsa_check_private_exponent(key, 16, ctx))
/* d is too small compared to nbits */
&& TEST_true(BN_set_word(d, 16))
&& TEST_false(ossl_rsa_check_private_exponent(key, 8, ctx))
/* fail if 1 != e.d mod lcm(p-1, q-1) */
&& TEST_true(BN_set_word(d, 46))
&& TEST_false(ossl_rsa_check_private_exponent(key, 8, ctx));
end:
RSA_free(key);
BN_CTX_free(ctx);
return ret;
}
static int test_check_crt_components(void)
{
const int P = 15;
const int Q = 17;
const int E = 5;
const int N = P*Q;
const int DP = 3;
const int DQ = 13;
const int QINV = 8;
int ret = 0;
RSA *key = NULL;
BN_CTX *ctx = NULL;
BIGNUM *p = NULL, *q = NULL, *e = NULL;
ret = TEST_ptr(key = RSA_new())
&& TEST_ptr(ctx = BN_CTX_new())
&& TEST_ptr(p = BN_new())
&& TEST_ptr(q = BN_new())
&& TEST_ptr(e = BN_new())
&& TEST_true(BN_set_word(p, P))
&& TEST_true(BN_set_word(q, Q))
&& TEST_true(BN_set_word(e, E))
&& TEST_true(RSA_set0_factors(key, p, q));
if (!ret) {
BN_free(p);
BN_free(q);
goto end;
}
ret = TEST_true(ossl_rsa_sp800_56b_derive_params_from_pq(key, 8, e, ctx))
&& TEST_BN_eq_word(key->n, N)
&& TEST_BN_eq_word(key->dmp1, DP)
&& TEST_BN_eq_word(key->dmq1, DQ)
&& TEST_BN_eq_word(key->iqmp, QINV)
&& TEST_true(ossl_rsa_check_crt_components(key, ctx))
/* (a) 1 < dP < (p 1). */
&& TEST_true(BN_set_word(key->dmp1, 1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmp1, P-1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmp1, DP))
/* (b) 1 < dQ < (q - 1). */
&& TEST_true(BN_set_word(key->dmq1, 1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmq1, Q-1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmq1, DQ))
/* (c) 1 < qInv < p */
&& TEST_true(BN_set_word(key->iqmp, 1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->iqmp, P))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->iqmp, QINV))
/* (d) 1 = (dP . e) mod (p - 1)*/
&& TEST_true(BN_set_word(key->dmp1, DP+1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmp1, DP))
/* (e) 1 = (dQ . e) mod (q - 1) */
&& TEST_true(BN_set_word(key->dmq1, DQ-1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->dmq1, DQ))
/* (f) 1 = (qInv . q) mod p */
&& TEST_true(BN_set_word(key->iqmp, QINV+1))
&& TEST_false(ossl_rsa_check_crt_components(key, ctx))
&& TEST_true(BN_set_word(key->iqmp, QINV))
/* check defaults are still valid */
&& TEST_true(ossl_rsa_check_crt_components(key, ctx));
end:
BN_free(e);
RSA_free(key);
BN_CTX_free(ctx);
return ret;
}
static int test_pq_diff(void)
{
int ret = 0;
BIGNUM *tmp = NULL, *p = NULL, *q = NULL;
ret = TEST_ptr(tmp = BN_new())
&& TEST_ptr(p = BN_new())
&& TEST_ptr(q = BN_new())
/* |1-(2+1)| > 2^1 */
&& TEST_true(BN_set_word(p, 1))
&& TEST_true(BN_set_word(q, 1+2))
&& TEST_false(ossl_rsa_check_pminusq_diff(tmp, p, q, 202))
/* Check |p - q| > 2^(nbits/2 - 100) */
&& TEST_true(BN_set_word(q, 1+3))
&& TEST_true(ossl_rsa_check_pminusq_diff(tmp, p, q, 202))
&& TEST_true(BN_set_word(p, 1+3))
&& TEST_true(BN_set_word(q, 1))
&& TEST_true(ossl_rsa_check_pminusq_diff(tmp, p, q, 202));
BN_free(p);
BN_free(q);
BN_free(tmp);
return ret;
}
static int test_invalid_keypair(void)
{
int ret = 0;
RSA *key = NULL;
BN_CTX *ctx = NULL;
BIGNUM *p = NULL, *q = NULL, *n = NULL, *e = NULL, *d = NULL;
ret = TEST_ptr(key = RSA_new())
&& TEST_ptr(ctx = BN_CTX_new())
/* NULL parameters */
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 2048))
/* load key */
&& TEST_ptr(p = bn_load_new(cav_p, sizeof(cav_p)))
&& TEST_ptr(q = bn_load_new(cav_q, sizeof(cav_q)))
&& TEST_true(RSA_set0_factors(key, p, q));
if (!ret) {
BN_free(p);
BN_free(q);
goto end;
}
ret = TEST_ptr(e = bn_load_new(cav_e, sizeof(cav_e)))
&& TEST_ptr(n = bn_load_new(cav_n, sizeof(cav_n)))
&& TEST_ptr(d = bn_load_new(cav_d, sizeof(cav_d)))
&& TEST_true(RSA_set0_key(key, n, e, d));
if (!ret) {
BN_free(e);
BN_free(n);
BN_free(d);
goto end;
}
/* bad strength/key size */
ret = TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, 100, 2048))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, 112, 1024))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, 128, 2048))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, 140, 3072))
/* mismatching exponent */
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, BN_value_one(),
-1, 2048))
/* bad exponent */
&& TEST_true(BN_add_word(e, 1))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 2048))
&& TEST_true(BN_sub_word(e, 1))
/* mismatch between bits and modulus */
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 3072))
&& TEST_true(ossl_rsa_sp800_56b_check_keypair(key, e, 112, 2048))
/* check n == pq failure */
&& TEST_true(BN_add_word(n, 1))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 2048))
&& TEST_true(BN_sub_word(n, 1))
/* check p */
&& TEST_true(BN_sub_word(p, 2))
&& TEST_true(BN_mul(n, p, q, ctx))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 2048))
&& TEST_true(BN_add_word(p, 2))
&& TEST_true(BN_mul(n, p, q, ctx))
/* check q */
&& TEST_true(BN_sub_word(q, 2))
&& TEST_true(BN_mul(n, p, q, ctx))
&& TEST_false(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, 2048))
&& TEST_true(BN_add_word(q, 2))
&& TEST_true(BN_mul(n, p, q, ctx));
end:
RSA_free(key);
BN_CTX_free(ctx);
return ret;
}
static int keygen_size[] =
{
2048, 3072
};
static int test_sp80056b_keygen(int id)
{
RSA *key = NULL;
int ret;
int sz = keygen_size[id];
ret = TEST_ptr(key = RSA_new())
&& TEST_true(ossl_rsa_sp800_56b_generate_key(key, sz, NULL, NULL))
&& TEST_true(ossl_rsa_sp800_56b_check_public(key))
&& TEST_true(ossl_rsa_sp800_56b_check_private(key))
&& TEST_true(ossl_rsa_sp800_56b_check_keypair(key, NULL, -1, sz));
RSA_free(key);
return ret;
}
static int test_check_private_key(void)
{
int ret = 0;
BIGNUM *n = NULL, *d = NULL, *e = NULL;
RSA *key = NULL;
ret = TEST_ptr(key = RSA_new())
/* check NULL pointers fail */
&& TEST_false(ossl_rsa_sp800_56b_check_private(key))
/* load private key */
&& TEST_ptr(n = bn_load_new(cav_n, sizeof(cav_n)))
&& TEST_ptr(d = bn_load_new(cav_d, sizeof(cav_d)))
&& TEST_ptr(e = bn_load_new(cav_e, sizeof(cav_e)))
&& TEST_true(RSA_set0_key(key, n, e, d));
if (!ret) {
BN_free(n);
BN_free(e);
BN_free(d);
goto end;
}
/* check d is in range */
ret = TEST_true(ossl_rsa_sp800_56b_check_private(key))
/* check d is too low */
&& TEST_true(BN_set_word(d, 0))
&& TEST_false(ossl_rsa_sp800_56b_check_private(key))
/* check d is too high */
&& TEST_ptr(BN_copy(d, n))
&& TEST_false(ossl_rsa_sp800_56b_check_private(key));
end:
RSA_free(key);
return ret;
}
static int test_check_public_key(void)
{
int ret = 0;
BIGNUM *n = NULL, *e = NULL;
RSA *key = NULL;
ret = TEST_ptr(key = RSA_new())
/* check NULL pointers fail */
&& TEST_false(ossl_rsa_sp800_56b_check_public(key))
/* load public key */
&& TEST_ptr(e = bn_load_new(cav_e, sizeof(cav_e)))
&& TEST_ptr(n = bn_load_new(cav_n, sizeof(cav_n)))
&& TEST_true(RSA_set0_key(key, n, e, NULL));
if (!ret) {
BN_free(e);
BN_free(n);
goto end;
}
/* check public key is valid */
ret = TEST_true(ossl_rsa_sp800_56b_check_public(key))
/* check fail if n is even */
&& TEST_true(BN_add_word(n, 1))
&& TEST_false(ossl_rsa_sp800_56b_check_public(key))
&& TEST_true(BN_sub_word(n, 1))
/* check fail if n is wrong number of bits */
&& TEST_true(BN_lshift1(n, n))
&& TEST_false(ossl_rsa_sp800_56b_check_public(key))
&& TEST_true(BN_rshift1(n, n))
/* test odd exponent fails */
&& TEST_true(BN_add_word(e, 1))
&& TEST_false(ossl_rsa_sp800_56b_check_public(key))
&& TEST_true(BN_sub_word(e, 1))
/* modulus fails composite check */
&& TEST_true(BN_add_word(n, 2))
&& TEST_false(ossl_rsa_sp800_56b_check_public(key));
end:
RSA_free(key);
return ret;
}
int setup_tests(void)
{
ADD_TEST(test_check_public_exponent);
ADD_TEST(test_check_prime_factor_range);
ADD_TEST(test_check_prime_factor);
ADD_TEST(test_check_private_exponent);
ADD_TEST(test_check_crt_components);
ADD_TEST(test_check_private_key);
ADD_TEST(test_check_public_key);
ADD_TEST(test_invalid_keypair);
ADD_TEST(test_pq_diff);
ADD_ALL_TESTS(test_sp80056b_keygen, (int)OSSL_NELEM(keygen_size));
return 1;
}