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libgcrypt
RSA-FIPS-186-4-adjustments.patch
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File RSA-FIPS-186-4-adjustments.patch of Package libgcrypt
From 1a27d6358a7eba373a6f41ba76c5b89c32c43921 Mon Sep 17 00:00:00 2001 From: Ludwig Nussel <ludwig.nussel@suse.de> Date: Wed, 24 Sep 2014 17:52:49 +0200 Subject: [PATCH] RSA FIPS 186-4 adjustments - correct lower bound for p and q random numbers. Setting the two high bits is not sufficient as it may lose a bit of randomness. - use FIPS 186-4 method for checking whether the random values acquired for p and q are prime. - only allow key size 2048 and 3072 (SP 800-57) - lower bound for e must be 2^16 - use 2048 bit keys in selftest - also check computed values in selftest --- cipher/rsa.c | 310 +++++++++++++++++++++++++++++++++++++++++++-------------- tests/pubkey.c | 4 +- 2 files changed, 238 insertions(+), 76 deletions(-) diff --git a/cipher/rsa.c b/cipher/rsa.c index 9a8d235..e852c68 100644 --- a/cipher/rsa.c +++ b/cipher/rsa.c @@ -62,36 +62,53 @@ static const char *rsa_names[] = }; -/* A sample 1024 bit RSA key used for the selftests. */ +/* A sample 2048 bit RSA key used for the selftests. */ static const char sample_secret_key[] = -"(private-key" -" (rsa" -" (n #00e0ce96f90b6c9e02f3922beada93fe50a875eac6bcc18bb9a9cf2e84965caa" -" 2d1ff95a7f542465c6c0c19d276e4526ce048868a7a914fd343cc3a87dd74291" -" ffc565506d5bbb25cbac6a0e2dd1f8bcaab0d4a29c2f37c950f363484bf269f7" -" 891440464baf79827e03a36e70b814938eebdc63e964247be75dc58b014b7ea251#)" -" (e #010001#)" -" (d #046129f2489d71579be0a75fe029bd6cdb574ebf57ea8a5b0fda942cab943b11" -" 7d7bb95e5d28875e0f9fc5fcc06a72f6d502464dabded78ef6b716177b83d5bd" -" c543dc5d3fed932e59f5897e92e6f58a0f33424106a3b6fa2cbf877510e4ac21" -" c3ee47851e97d12996222ac3566d4ccb0b83d164074abf7de655fc2446da1781#)" -" (p #00e861b700e17e8afe6837e7512e35b6ca11d0ae47d8b85161c67baf64377213" -" fe52d772f2035b3ca830af41d8a4120e1c1c70d12cc22f00d28d31dd48a8d424f1#)" -" (q #00f7a7ca5367c661f8e62df34f0d05c10c88e5492348dd7bddc942c9a8f369f9" -" 35a07785d2db805215ed786e4285df1658eed3ce84f469b81b50d358407b4ad361#)" -" (u #304559a9ead56d2309d203811a641bb1a09626bc8eb36fffa23c968ec5bd891e" -" ebbafc73ae666e01ba7c8990bae06cc2bbe10b75e69fcacb353a6473079d8e9b#)))"; -/* A sample 1024 bit RSA key used for the selftests (public only). */ +" (private-key" +" (rsa" +" (n #009F56231A3D82E3E7D613D59D53E9AB921BEF9F08A782AED0B6E46ADBC853EC" +" 7C71C422435A3CD8FA0DB9EFD55CD3295BADC4E8E2E2B94E15AE82866AB8ADE8" +" 7E469FAE76DC3577DE87F1F419C4EB41123DFAF8D16922D5EDBAD6E9076D5A1C" +" 958106F0AE5E2E9193C6B49124C64C2A241C4075D4AF16299EB87A6585BAE917" +" DEF27FCDD165764D069BC18D16527B29DAAB549F7BBED4A7C6A842D203ED6613" +" 6E2411744E432CD26D940132F25874483DCAEECDFD95744819CBCF1EA810681C" +" 42907EBCB1C7EAFBE75C87EC32C5413EA10476545D3FC7B2ADB1B66B7F200918" +" 664B0E5261C2895AA28B0DE321E921B3F877172CCCAB81F43EF98002916156F6CB#)" +" (e #010001#)" +" (d #07EF82500C403899934FE993AC5A36F14FF2DF38CF1EF315F205EE4C83EDAA19" +" 8890FC23DE9AA933CAFB37B6A8A8DBA675411958337287310D3FF2F1DDC0CB93" +" 7E70F57F75F833C021852B631D2B9A520E4431A03C5C3FCB5742DCD841D9FB12" +" 771AA1620DCEC3F1583426066ED9DC3F7028C5B59202C88FDF20396E2FA0EC4F" +" 5A22D9008F3043673931BC14A5046D6327398327900867E39CC61B2D1AFE2F48" +" EC8E1E3861C68D257D7425F4E6F99ABD77D61F10CA100EFC14389071831B33DD" +" 69CC8EABEF860D1DC2AAA84ABEAE5DFC91BC124DAF0F4C8EF5BBEA436751DE84" +" 3A8063E827A024466F44C28614F93B0732A100D4A0D86D532FE1E22C7725E401#)" +" (p #00C29D438F115825779631CD665A5739367F3E128ADC29766483A46CA80897E0" +" 79B32881860B8F9A6A04C2614A904F6F2578DAE13EA67CD60AE3D0AA00A1FF9B" +" 441485E44B2DC3D0B60260FBFE073B5AC72FAF67964DE15C8212C389D20DB9CF" +" 54AF6AEF5C4196EAA56495DD30CF709F499D5AB30CA35E086C2A1589D6283F1783#)" +" (q #00D1984135231CB243FE959C0CBEF551EDD986AD7BEDF71EDF447BE3DA27AF46" +" 79C974A6FA69E4D52FE796650623DE70622862713932AA2FD9F2EC856EAEAA77" +" 88B4EA6084DC81C902F014829B18EA8B2666EC41586818E0589E18876065F97E" +" 8D22CE2DA53A05951EC132DCEF41E70A9C35F4ACC268FFAC2ADF54FA1DA110B919#)" +" (u #67CF0FD7635205DD80FA814EE9E9C267C17376BF3209FB5D1BC42890D2822A04" +" 479DAF4D5B6ED69D0F8D1AF94164D07F8CD52ECEFE880641FA0F41DDAB1785E4" +" A37A32F997A516480B4CD4F6482B9466A1765093ED95023CA32D5EDC1E34CEE9" +" AF595BC51FE43C4BF810FA225AF697FB473B83815966188A4312C048B885E3F7#)))"; + +/* A sample 2048 bit RSA key used for the selftests (public only). */ static const char sample_public_key[] = -"(public-key" -" (rsa" -" (n #00e0ce96f90b6c9e02f3922beada93fe50a875eac6bcc18bb9a9cf2e84965caa" -" 2d1ff95a7f542465c6c0c19d276e4526ce048868a7a914fd343cc3a87dd74291" -" ffc565506d5bbb25cbac6a0e2dd1f8bcaab0d4a29c2f37c950f363484bf269f7" -" 891440464baf79827e03a36e70b814938eebdc63e964247be75dc58b014b7ea251#)" -" (e #010001#)))"; - - +" (public-key" +" (rsa" +" (n #009F56231A3D82E3E7D613D59D53E9AB921BEF9F08A782AED0B6E46ADBC853EC" +" 7C71C422435A3CD8FA0DB9EFD55CD3295BADC4E8E2E2B94E15AE82866AB8ADE8" +" 7E469FAE76DC3577DE87F1F419C4EB41123DFAF8D16922D5EDBAD6E9076D5A1C" +" 958106F0AE5E2E9193C6B49124C64C2A241C4075D4AF16299EB87A6585BAE917" +" DEF27FCDD165764D069BC18D16527B29DAAB549F7BBED4A7C6A842D203ED6613" +" 6E2411744E432CD26D940132F25874483DCAEECDFD95744819CBCF1EA810681C" +" 42907EBCB1C7EAFBE75C87EC32C5413EA10476545D3FC7B2ADB1B66B7F200918" +" 664B0E5261C2895AA28B0DE321E921B3F877172CCCAB81F43EF98002916156F6CB#)" +" (e #010001#)))"; static int test_keys (RSA_secret_key *sk, unsigned nbits); @@ -203,7 +220,7 @@ generate_std (RSA_secret_key *sk, unsigned int nbits, unsigned long use_e, gcry_mpi_t f; gcry_random_level_t random_level; - if (fips_mode ()) + if (fips_mode ()) // FIXME: fips mode doesn't actually use this function!? { if (nbits < 1024) return GPG_ERR_INV_VALUE; @@ -344,21 +361,47 @@ static gcry_mpi_t gen_x931_parm_xp (unsigned int nbits) { gcry_mpi_t xp; + gcry_mpi_t low; + gcry_mpi_t l1; xp = mpi_snew (nbits); - _gcry_mpi_randomize (xp, nbits, GCRY_VERY_STRONG_RANDOM); + l1 = mpi_new (nbits); + low = mpi_new (nbits); /* The requirement for Xp is: sqrt{2}*2^{nbits-1} <= xp <= 2^{nbits} - 1 - We set the two high order bits to 1 to satisfy the lower bound. - By using mpi_set_highbit we make sure that the upper bound is - satisfied as well. */ - mpi_set_highbit (xp, nbits-1); - mpi_set_bit (xp, nbits-2); + sqrt(2)*2^31 = 3037000499.9760 => 3037000500 = 0xb504f334 + + We can use that as approximate lower bound by shifting it by + the amount of remaining bits to the left. + + 0xb is 0b1011 so the first bit is set always. + mpi_set_highbit sets one bits and clears the ones above. So we + use that as upper bound. + + */ + + _gcry_mpi_set_ui(l1, 0xb504f334); + _gcry_mpi_lshift(low, l1, nbits-32); + + while (1) { + /* 4.2 */ + _gcry_mpi_randomize (xp, nbits, GCRY_VERY_STRONG_RANDOM); + mpi_set_highbit (xp, nbits-1); + /* 4.4 */ + if (_gcry_mpi_cmp(xp, low) >= 0) + break; + } gcry_assert ( mpi_get_nbits (xp) == nbits ); + /* 4.3 must be odd */ + mpi_set_bit (xp, 0); + + _gcry_mpi_release(l1); + _gcry_mpi_release(low); + return xp; } @@ -378,6 +421,25 @@ gen_x931_parm_xi (void) } +static gpg_err_code_t +fips_186_4_prime_check(gcry_mpi_t x, unsigned int nbits, gcry_mpi_t e) +{ + gpg_err_code_t rc = GPG_ERR_NO_PRIME; + gcry_mpi_t g = mpi_snew (nbits); + gcry_mpi_t pm1 = mpi_snew (nbits); + mpi_sub_ui (pm1, x, 1); + if (mpi_gcd (g, pm1, e)) /* 4.5 */ + { + /* 4.6 _gcry_prime_check uses 64 rounds which is waaay more + * than the required 4 or 5 but the internal check_prime is + * not exposed otherwise */ + if (_gcry_prime_check(x, 0) == 0) + rc = GPG_ERR_NO_ERROR; + } + _gcry_mpi_release (g); + _gcry_mpi_release (pm1); + return rc; +} /* Variant of the standard key generation code using the algorithm from X9.31. Using this algorithm has the advantage that the @@ -406,12 +468,24 @@ generate_x931 (RSA_secret_key *sk, unsigned int nbits, unsigned long e_value, if (nbits < 1024 || (nbits % 256)) return GPG_ERR_INV_VALUE; + if (fips_mode()) + { + /* SP 800-57 only allows to generate 2048 and 3072 bit keys after 2014 */ + if (nbits != 2048 && nbits != 3072) + return GPG_ERR_INV_VALUE; + /* according to FIPS.186-4 e must be > 2^16 (B 3.1 pg 52) */ + if (e_value <= 1<<16) + return GPG_ERR_INV_VALUE; + } + else + { /* Point 2: 2 <= bitlength(e) < 2^{k-2} Note that we do not need to check the upper bound because we use an unsigned long for E and thus there is no way for E to reach that limit. */ - if (e_value < 3) - return GPG_ERR_INV_VALUE; + if (e_value < 3) + return GPG_ERR_INV_VALUE; + } /* Our implementaion requires E to be odd. */ if (!(e_value & 1)) @@ -420,8 +494,10 @@ generate_x931 (RSA_secret_key *sk, unsigned int nbits, unsigned long e_value, /* Point 3: e > 0 or e 0 if it is to be randomly generated. We support only a fixed E and thus there is no need for an extra test. */ + e = mpi_alloc_set_ui (e_value); /* Compute or extract the derive parameters. */ + do { gcry_mpi_t xp1 = NULL; gcry_mpi_t xp2 = NULL; @@ -433,24 +509,61 @@ generate_x931 (RSA_secret_key *sk, unsigned int nbits, unsigned long e_value, if (!deriveparms) { - /* Not given: Generate them. */ - xp = gen_x931_parm_xp (nbits/2); + /* Not given: Generate them. */ + unsigned i = 0; + while(1) + { + _gcry_mpi_release (xp); + xp = gen_x931_parm_xp (nbits/2); + if (!fips_mode()) + break; + if (fips_186_4_prime_check(xp, nbits/2, e) == GPG_ERR_NO_ERROR) + break; + ++i; + if (i >= 5*(nbits/2)) { + _gcry_mpi_release (xp); + _gcry_mpi_release (e); + return GPG_ERR_NO_PRIME; + } + } /* Make sure that |xp - xq| > 2^{nbits - 100} holds. */ tmpval = mpi_snew (nbits/2); - do - { - _gcry_mpi_release (xq); - xq = gen_x931_parm_xp (nbits/2); - mpi_sub (tmpval, xp, xq); - } - while (mpi_get_nbits (tmpval) <= (nbits/2 - 100)); + while(1) + { + do + { + _gcry_mpi_release (xq); + xq = gen_x931_parm_xp (nbits/2); + mpi_sub (tmpval, xp, xq); + } + while (mpi_get_nbits (tmpval) <= (nbits/2 - 100)); + if (!fips_mode()) + break; + if (fips_186_4_prime_check(xq, nbits/2, e) == GPG_ERR_NO_ERROR) + break; + ++i; + if (i >= 5*(nbits/2)) { + _gcry_mpi_release (xp); + _gcry_mpi_release (xq); + _gcry_mpi_release (e); + return GPG_ERR_NO_PRIME; + } + } _gcry_mpi_release (tmpval); - xp1 = gen_x931_parm_xi (); - xp2 = gen_x931_parm_xi (); - xq1 = gen_x931_parm_xi (); - xq2 = gen_x931_parm_xi (); - + if (fips_mode()) + { + p = xp; xp = NULL; + q = xq; xq = NULL; + break; + } + else + { + xp1 = gen_x931_parm_xi (); + xp2 = gen_x931_parm_xi (); + xq1 = gen_x931_parm_xi (); + xq2 = gen_x931_parm_xi (); + } } else { @@ -494,12 +607,12 @@ generate_x931 (RSA_secret_key *sk, unsigned int nbits, unsigned long e_value, /* At least one parameter is missing. */ for (idx=0; tbl[idx].name; idx++) _gcry_mpi_release (*tbl[idx].value); + _gcry_mpi_release (e); return GPG_ERR_MISSING_VALUE; } } - e = mpi_alloc_set_ui (e_value); - + /* only used in non-fips mode */ /* Find two prime numbers. */ p = _gcry_derive_x931_prime (xp, xp1, xp2, e, NULL, NULL); q = _gcry_derive_x931_prime (xq, xq1, xq2, e, NULL, NULL); @@ -517,6 +630,7 @@ generate_x931 (RSA_secret_key *sk, unsigned int nbits, unsigned long e_value, return GPG_ERR_NO_PRIME; } } + while(0); /* Compute the public modulus. We make sure that p is smaller than @@ -1332,20 +1446,32 @@ compute_keygrip (gcry_md_hd_t md, gcry_sexp_t keyparam) */ static const char * -selftest_sign_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) +selftest_sign_2048 (gcry_sexp_t pkey, gcry_sexp_t skey) { static const char sample_data[] = "(data (flags pkcs1)" - " (hash sha1 #11223344556677889900aabbccddeeff10203040#))"; + " (hash sha256 #11223344556677889900aabbccddeeff102030405060708090a0b0c0d0f01121#))"; static const char sample_data_bad[] = "(data (flags pkcs1)" - " (hash sha1 #11223344556677889900aabbccddeeff80203040#))"; + " (hash sha256 #11223344556677889900aabbccddeeff802030405060708090a0b0c0d0f01121#))"; const char *errtxt = NULL; gcry_error_t err; gcry_sexp_t data = NULL; gcry_sexp_t data_bad = NULL; gcry_sexp_t sig = NULL; + /* raw signature data reference */ + const char ref_data[] = + "6252a19a11e1d5155ed9376036277193d644fa239397fff03e9b92d6f86415d6" + "d30da9273775f290e580d038295ff8ff89522becccfa6ae870bf76b76df402a8" + "54f69347e3db3de8e1e7d4dada281ec556810c7a8ecd0b5f51f9b1c0e7aa7557" + "61aa2b8ba5f811304acc6af0eca41fe49baf33bf34eddaf44e21e036ac7f0b68" + "03cdef1c60021fb7b5b97ebacdd88ab755ce29af568dbc5728cc6e6eff42618d" + "62a0386ca8beed46402bdeeef29b6a3feded906bace411a06a39192bf516ae10" + "67e4320fa8ea113968525f4574d022a3ceeaafdc41079efe1f22cc94bf59d8d3" + "328085da9674857db56de5978a62394aab48aa3b72e23a1b16260cfd9daafe65"; + gcry_mpi_t ref_mpi = NULL; + gcry_mpi_t sig_mpi = NULL; err = sexp_sscan (&data, NULL, sample_data, strlen (sample_data)); if (!err) @@ -1363,6 +1489,27 @@ selftest_sign_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) errtxt = "signing failed"; goto leave; } + + err = _gcry_mpi_scan(&ref_mpi, GCRYMPI_FMT_HEX, ref_data, 0, NULL); + if (err) + { + errtxt = "converting ref_data to mpi failed"; + goto leave; + } + + err = _gcry_sexp_extract_param(sig, "sig-val!rsa", "s", &sig_mpi, NULL); + if (err) + { + errtxt = "extracting signature data failed"; + goto leave; + } + + if (mpi_cmp (sig_mpi, ref_mpi)) + { + errtxt = "signature does not match reference data"; + goto leave; + } + err = _gcry_pk_verify (sig, data, pkey); if (err) { @@ -1381,6 +1528,7 @@ selftest_sign_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) sexp_release (sig); sexp_release (data_bad); sexp_release (data); + _gcry_mpi_release (ref_mpi); return errtxt; } @@ -1419,25 +1567,32 @@ extract_a_from_sexp (gcry_sexp_t encr_data) static const char * -selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) +selftest_encr_2048 (gcry_sexp_t pkey, gcry_sexp_t skey) { const char *errtxt = NULL; gcry_error_t err; - const unsigned int nbits = 1000; /* Encrypt 1000 random bits. */ - gcry_mpi_t plaintext = NULL; + const char plaintext[] = "Jim quickly realized that the beautiful gowns are expensive."; gcry_sexp_t plain = NULL; gcry_sexp_t encr = NULL; gcry_mpi_t ciphertext = NULL; gcry_sexp_t decr = NULL; - gcry_mpi_t decr_plaintext = NULL; + char *decr_plaintext = NULL; gcry_sexp_t tmplist = NULL; - - /* Create plaintext. The plaintext is actually a big integer number. */ - plaintext = mpi_new (nbits); - _gcry_mpi_randomize (plaintext, nbits, GCRY_WEAK_RANDOM); + /* expected result of encrypting the plaintext with sample_secret_key */ + const char ref_data[] = + "18022e2593a402a737caaa93b4c7e750e20ca265452980e1d6b7710fbd3e" + "7dce72be5c2110fb47691cb38f42170ee3b4a37f2498d4a51567d762585e" + "4cb81d04fbc7df4144f8e5eac2d4b8688521b64011f11d7ad53f4c874004" + "819856f2e2a6f83d1c9c4e73ac26089789c14482b0b8d44139133c88c4a5" + "2dba9dd6d6ffc622666b7d129168333d999706af30a2d7d272db7734e5ed" + "fb8c64ea3018af3ad20f4a013a5060cb0f5e72753967bebe294280a6ed0d" + "dbd3c4f11d0a8696e9d32a0dc03deb0b5e49b2cbd1503392642d4e1211f3" + "e8e2ee38abaa3671ccd57fcde8ca76e85fd2cb77c35706a970a213a27352" + "cec92a9604d543ddb5fc478ff50e0622"; + gcry_mpi_t ref_mpi = NULL; /* Put the plaintext into an S-expression. */ - err = sexp_build (&plain, NULL, "(data (flags raw) (value %m))", plaintext); + err = sexp_build (&plain, NULL, "(data (flags raw) (value %s))", plaintext); if (err) { errtxt = "converting data failed"; @@ -1452,6 +1607,13 @@ selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) goto leave; } + err = _gcry_mpi_scan(&ref_mpi, GCRYMPI_FMT_HEX, ref_data, 0, NULL); + if (err) + { + errtxt = "converting encrydata to mpi failed"; + goto leave; + } + /* Extraxt the ciphertext from the returned S-expression. */ /*sexp_dump (encr);*/ ciphertext = extract_a_from_sexp (encr); @@ -1464,9 +1626,9 @@ selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) /* Check that the ciphertext does no match the plaintext. */ /* _gcry_log_printmpi ("plaintext", plaintext); */ /* _gcry_log_printmpi ("ciphertxt", ciphertext); */ - if (!mpi_cmp (plaintext, ciphertext)) + if (mpi_cmp (ref_mpi, ciphertext)) { - errtxt = "ciphertext matches plaintext"; + errtxt = "ciphertext doesn't match reference data"; goto leave; } @@ -1486,9 +1648,9 @@ selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) take care of it anyway. */ tmplist = sexp_find_token (decr, "value", 0); if (tmplist) - decr_plaintext = sexp_nth_mpi (tmplist, 1, GCRYMPI_FMT_USG); + decr_plaintext = sexp_nth_string (tmplist, 1); else - decr_plaintext = sexp_nth_mpi (decr, 0, GCRYMPI_FMT_USG); + decr_plaintext = sexp_nth_string (decr, 0); if (!decr_plaintext) { errtxt = "decrypt returned no plaintext"; @@ -1496,7 +1658,7 @@ selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) } /* Check that the decrypted plaintext matches the original plaintext. */ - if (mpi_cmp (plaintext, decr_plaintext)) + if (strcmp (plaintext, decr_plaintext)) { errtxt = "mismatch"; goto leave; @@ -1504,12 +1666,12 @@ selftest_encr_1024 (gcry_sexp_t pkey, gcry_sexp_t skey) leave: sexp_release (tmplist); - _gcry_mpi_release (decr_plaintext); + free (decr_plaintext); sexp_release (decr); _gcry_mpi_release (ciphertext); + _gcry_mpi_release (ref_mpi); sexp_release (encr); sexp_release (plain); - _gcry_mpi_release (plaintext); return errtxt; } @@ -1544,12 +1706,12 @@ selftests_rsa (selftest_report_func_t report) } what = "sign"; - errtxt = selftest_sign_1024 (pkey, skey); + errtxt = selftest_sign_2048 (pkey, skey); if (errtxt) goto failed; what = "encrypt"; - errtxt = selftest_encr_1024 (pkey, skey); + errtxt = selftest_encr_2048 (pkey, skey); if (errtxt) goto failed; diff --git a/tests/pubkey.c b/tests/pubkey.c index ae5eea2..f5da67b 100644 --- a/tests/pubkey.c +++ b/tests/pubkey.c @@ -354,7 +354,7 @@ get_keys_new (gcry_sexp_t *pkey, gcry_sexp_t *skey) int rc; rc = gcry_sexp_new (&key_spec, - "(genkey (rsa (nbits 4:1024)))", 0, 1); + "(genkey (rsa (nbits 4:2048)))", 0, 1); if (rc) die ("error creating S-expression: %s\n", gcry_strerror (rc)); rc = gcry_pk_genkey (&key, key_spec); @@ -386,7 +386,7 @@ get_keys_x931_new (gcry_sexp_t *pkey, gcry_sexp_t *skey) int rc; rc = gcry_sexp_new (&key_spec, - "(genkey (rsa (nbits 4:1024)(use-x931)))", 0, 1); + "(genkey (rsa (nbits 4:2048)(use-x931)))", 0, 1); if (rc) die ("error creating S-expression: %s\n", gcry_strerror (rc)); rc = gcry_pk_genkey (&key, key_spec); -- 2.1.0
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