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libgcrypt/libgcrypt-1.6.3-rsa-fips-keygen.patch
Tomas Mraz 69ded97bb9 new upstream version
2015-03-06 17:30:30 +01:00

379 lines
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diff -up libgcrypt-1.6.3/cipher/primegen.c.fips-keygen libgcrypt-1.6.3/cipher/primegen.c
--- libgcrypt-1.6.3/cipher/primegen.c.fips-keygen 2015-03-06 16:38:56.698052602 +0100
+++ libgcrypt-1.6.3/cipher/primegen.c 2015-03-06 16:45:45.848193024 +0100
@@ -1199,6 +1199,25 @@ _gcry_prime_check (gcry_mpi_t x, unsigne
return GPG_ERR_NO_PRIME;
}
+/* Check whether the number X is prime according to FIPS 186-4 table C.2. */
+gcry_err_code_t
+_gcry_fips186_4_prime_check (gcry_mpi_t x, unsigned int bits)
+{
+ gcry_err_code_t ec = GPG_ERR_NO_ERROR;
+
+ switch (mpi_cmp_ui (x, 2))
+ {
+ case 0: return ec; /* 2 is a prime */
+ case -1: return GPG_ERR_NO_PRIME; /* Only numbers > 1 are primes. */
+ }
+
+ /* We use 5 or 4 rounds as specified in table C.2 */
+ if (! check_prime (x, mpi_const (MPI_C_TWO), bits > 1024 ? 4 : 5, NULL, NULL))
+ ec = GPG_ERR_NO_PRIME;
+
+ return ec;
+}
+
/* Find a generator for PRIME where the factorization of (prime-1) is
in the NULL terminated array FACTORS. Return the generator as a
newly allocated MPI in R_G. If START_G is not NULL, use this as s
diff -up libgcrypt-1.6.3/cipher/rsa.c.fips-keygen libgcrypt-1.6.3/cipher/rsa.c
--- libgcrypt-1.6.3/cipher/rsa.c.fips-keygen 2015-03-06 16:38:56.661052411 +0100
+++ libgcrypt-1.6.3/cipher/rsa.c 2015-03-06 16:38:56.699052607 +0100
@@ -339,6 +339,279 @@ generate_std (RSA_secret_key *sk, unsign
}
+/****************
+ * Generate a key pair with a key of size NBITS.
+ * USE_E = 0 let Libcgrypt decide what exponent to use.
+ * = 1 request the use of a "secure" exponent; this is required by some
+ * specification to be 65537.
+ * > 2 Use this public exponent. If the given exponent
+ * is not odd one is internally added to it.
+ * TESTPARMS: If set, do not generate but test whether the p,q is probably prime
+ * Returns key with zeroes to not break code calling this function.
+ * TRANSIENT_KEY: If true, generate the primes using the standard RNG.
+ * Returns: 2 structures filled with all needed values
+ */
+static gpg_err_code_t
+generate_fips (RSA_secret_key *sk, unsigned int nbits, unsigned long use_e,
+ gcry_sexp_t testparms, int transient_key)
+{
+ gcry_mpi_t p, q; /* the two primes */
+ gcry_mpi_t d; /* the private key */
+ gcry_mpi_t u;
+ gcry_mpi_t p1, q1;
+ gcry_mpi_t n; /* the public key */
+ gcry_mpi_t e; /* the exponent */
+ gcry_mpi_t g;
+ gcry_mpi_t minp;
+ gcry_mpi_t diff, mindiff;
+ gcry_random_level_t random_level;
+ unsigned int pbits = nbits/2;
+ unsigned int i;
+ int pqswitch;
+ gpg_err_code_t ec = GPG_ERR_NO_PRIME;
+
+ if (nbits < 1024 || (nbits & 0x1FF))
+ return GPG_ERR_INV_VALUE;
+ if (_gcry_enforced_fips_mode() && nbits != 2048 && nbits != 3072)
+ return GPG_ERR_INV_VALUE;
+
+ /* The random quality depends on the transient_key flag. */
+ random_level = transient_key ? GCRY_STRONG_RANDOM : GCRY_VERY_STRONG_RANDOM;
+
+ if (testparms)
+ {
+ /* Parameters to derive the key are given. */
+ /* Note that we explicitly need to setup the values of tbl
+ because some compilers (e.g. OpenWatcom, IRIX) don't allow
+ to initialize a structure with automatic variables. */
+ struct { const char *name; gcry_mpi_t *value; } tbl[] = {
+ { "e" },
+ { "p" },
+ { "q" },
+ { NULL }
+ };
+ int idx;
+ gcry_sexp_t oneparm;
+
+ tbl[0].value = &e;
+ tbl[1].value = &p;
+ tbl[2].value = &q;
+
+ for (idx=0; tbl[idx].name; idx++)
+ {
+ oneparm = sexp_find_token (testparms, tbl[idx].name, 0);
+ if (oneparm)
+ {
+ *tbl[idx].value = sexp_nth_mpi (oneparm, 1,
+ GCRYMPI_FMT_USG);
+ sexp_release (oneparm);
+ }
+ }
+ for (idx=0; tbl[idx].name; idx++)
+ if (!*tbl[idx].value)
+ break;
+ if (tbl[idx].name)
+ {
+ /* At least one parameter is missing. */
+ for (idx=0; tbl[idx].name; idx++)
+ _gcry_mpi_release (*tbl[idx].value);
+ return GPG_ERR_MISSING_VALUE;
+ }
+ }
+ else
+ {
+ if (use_e < 65537)
+ use_e = 65537; /* This is the smallest value allowed by FIPS */
+
+ e = mpi_alloc( (32+BITS_PER_MPI_LIMB-1)/BITS_PER_MPI_LIMB );
+
+ use_e |= 1; /* make sure this is odd */
+ mpi_set_ui (e, use_e);
+
+ p = mpi_snew (pbits);
+ q = mpi_snew (pbits);
+ }
+
+ n = mpi_new (nbits);
+ d = mpi_snew (nbits);
+ u = mpi_snew (nbits);
+
+ /* prepare approximate minimum p and q */
+ minp = mpi_new (pbits);
+ mpi_set_ui (minp, 0xB504F334);
+ mpi_lshift (minp, minp, pbits - 32);
+
+ /* prepare minimum p and q difference */
+ diff = mpi_new (pbits);
+ mindiff = mpi_new (pbits - 99);
+ mpi_set_ui (mindiff, 1);
+ mpi_lshift (mindiff, mindiff, pbits - 100);
+
+ p1 = mpi_snew (pbits);
+ q1 = mpi_snew (pbits);
+ g = mpi_snew (pbits);
+
+retry:
+ /* generate p and q */
+ for (i = 0; i < 5 * pbits; i++)
+ {
+ ploop:
+ if (!testparms)
+ {
+ _gcry_mpi_randomize (p, pbits, random_level);
+ }
+ if (mpi_cmp (p, minp) < 0)
+ {
+ if (testparms) goto err;
+ goto ploop;
+ }
+
+ mpi_sub_ui (p1, p, 1);
+ if (mpi_gcd (g, p1, e))
+ {
+ if (_gcry_fips186_4_prime_check (p, pbits) != GPG_ERR_NO_ERROR)
+ {
+ /* not a prime */
+ if (testparms) goto err;
+ }
+ else
+ break;
+ }
+ else if (testparms) goto err;
+ }
+ if (i >= 5 * pbits)
+ goto err;
+
+ for (i = 0; i < 5 * pbits; i++)
+ {
+ qloop:
+ if (!testparms)
+ {
+ _gcry_mpi_randomize (q, pbits, random_level);
+ }
+ if (mpi_cmp (q, minp) < 0)
+ {
+ if (testparms) goto err;
+ goto qloop;
+ }
+ if (mpi_cmp (p, q) < 0)
+ {
+ pqswitch = 1;
+ mpi_sub (diff, q, p);
+ }
+ else
+ {
+ pqswitch = 0;
+ mpi_sub (diff, p, q);
+ }
+ if (mpi_cmp (diff, mindiff) < 0)
+ {
+ if (testparms) goto err;
+ goto qloop;
+ }
+
+ mpi_sub_ui (q1, q, 1);
+ if (mpi_gcd (g, q1, e))
+ {
+ if (_gcry_fips186_4_prime_check (q, pbits) != GPG_ERR_NO_ERROR)
+ {
+ /* not a prime */
+ if (testparms) goto err;
+ }
+ else
+ break;
+ }
+ else if (testparms) goto err;
+ }
+ if (i >= 5 * pbits)
+ goto err;
+
+ if (testparms)
+ {
+ mpi_clear (p);
+ mpi_clear (q);
+ }
+ else
+ {
+ gcry_mpi_t f;
+
+ if (pqswitch)
+ {
+ gcry_mpi_t tmp;
+
+ tmp = p;
+ p = q;
+ q = tmp;
+ }
+
+ f = mpi_snew (nbits);
+
+ /* calculate the modulus */
+ mpi_mul(n, p, q);
+
+ /* calculate the secret key d = e^1 mod phi */
+ mpi_gcd (g, p1, q1);
+ mpi_fdiv_q (f, p1, g);
+ mpi_mul (f, f, q1);
+
+ mpi_invm (d, e, f);
+
+ _gcry_mpi_release (f);
+
+ if (mpi_get_nbits (d) < pbits) goto retry;
+
+ /* calculate the inverse of p and q (used for chinese remainder theorem)*/
+ mpi_invm(u, p, q );
+ }
+
+ ec = 0;
+
+ if( DBG_CIPHER )
+ {
+ log_mpidump(" p= ", p );
+ log_mpidump(" q= ", q );
+ log_mpidump(" n= ", n );
+ log_mpidump(" e= ", e );
+ log_mpidump(" d= ", d );
+ log_mpidump(" u= ", u );
+ }
+
+err:
+
+ _gcry_mpi_release (p1);
+ _gcry_mpi_release (q1);
+ _gcry_mpi_release (g);
+ _gcry_mpi_release (minp);
+ _gcry_mpi_release (mindiff);
+ _gcry_mpi_release (diff);
+
+ sk->n = n;
+ sk->e = e;
+ sk->p = p;
+ sk->q = q;
+ sk->d = d;
+ sk->u = u;
+
+ /* Now we can test our keys. */
+ if (ec || (!testparms && test_keys (sk, nbits - 64)))
+ {
+ _gcry_mpi_release (sk->n); sk->n = NULL;
+ _gcry_mpi_release (sk->e); sk->e = NULL;
+ _gcry_mpi_release (sk->p); sk->p = NULL;
+ _gcry_mpi_release (sk->q); sk->q = NULL;
+ _gcry_mpi_release (sk->d); sk->d = NULL;
+ _gcry_mpi_release (sk->u); sk->u = NULL;
+ if (!ec)
+ {
+ fips_signal_error ("self-test after key generation failed");
+ return GPG_ERR_SELFTEST_FAILED;
+ }
+ }
+
+ return ec;
+}
+
+
/* Helper for generate_x931. */
static gcry_mpi_t
gen_x931_parm_xp (unsigned int nbits)
@@ -799,7 +1072,7 @@ rsa_generate (const gcry_sexp_t genparms
}
}
- if (deriveparms || (flags & PUBKEY_FLAG_USE_X931) || fips_mode ())
+ if (deriveparms || (flags & PUBKEY_FLAG_USE_X931))
{
int swapped;
ec = generate_x931 (&sk, nbits, evalue, deriveparms, &swapped);
@@ -819,9 +1092,14 @@ rsa_generate (const gcry_sexp_t genparms
sexp_release (l1);
}
}
+ deriveparms = (genparms?
+ sexp_find_token (genparms, "test-parms", 0) : NULL);
/* Generate. */
- ec = generate_std (&sk, nbits, evalue,
- !!(flags & PUBKEY_FLAG_TRANSIENT_KEY));
+ if (deriveparms || fips_mode())
+ ec = generate_fips (&sk, nbits, evalue, deriveparms, !!(flags & PUBKEY_FLAG_TRANSIENT_KEY));
+ else
+ ec = generate_std (&sk, nbits, evalue, !!(flags & PUBKEY_FLAG_TRANSIENT_KEY));
+ sexp_release (deriveparms);
}
if (!ec)
diff -up libgcrypt-1.6.3/src/g10lib.h.fips-keygen libgcrypt-1.6.3/src/g10lib.h
--- libgcrypt-1.6.3/src/g10lib.h.fips-keygen 2015-02-23 11:55:58.000000000 +0100
+++ libgcrypt-1.6.3/src/g10lib.h 2015-03-06 16:38:56.699052607 +0100
@@ -259,6 +259,9 @@ gpg_err_code_t _gcry_generate_fips186_3_
int *r_counter,
void **r_seed, size_t *r_seedlen, int *r_hashalgo);
+gpg_err_code_t _gcry_fips186_4_prime_check
+ (const gcry_mpi_t x, unsigned int bits);
+
/* Replacements of missing functions (missing-string.c). */
#ifndef HAVE_STPCPY
diff -up libgcrypt-1.6.3/tests/keygen.c.fips-keygen libgcrypt-1.6.3/tests/keygen.c
--- libgcrypt-1.6.3/tests/keygen.c.fips-keygen 2015-03-06 16:38:56.661052411 +0100
+++ libgcrypt-1.6.3/tests/keygen.c 2015-03-06 16:38:56.699052607 +0100
@@ -215,12 +215,12 @@ check_rsa_keys (void)
if (verbose)
- show ("creating 1024 bit RSA key with e=257\n");
+ show ("creating 1024 bit RSA key with e=65539\n");
rc = gcry_sexp_new (&keyparm,
"(genkey\n"
" (rsa\n"
" (nbits 4:1024)\n"
- " (rsa-use-e 3:257)\n"
+ " (rsa-use-e 5:65539)\n"
" ))", 0, 1);
if (rc)
die ("error creating S-expression: %s\n", gpg_strerror (rc));
@@ -229,7 +229,7 @@ check_rsa_keys (void)
if (rc)
die ("error generating RSA key: %s\n", gpg_strerror (rc));
- check_generated_rsa_key (key, 257);
+ check_generated_rsa_key (key, 65539);
gcry_sexp_release (key);
if (verbose)
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