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gnupg/common/t-sexputil.c
Werner Koch 5df658233a
tests: Cope with broken Libgcrypt versions
* common/t-sexputil.c (test_ecc_uncompress): Ignore unknwon curve
errors.
--

For unknown reasons some versions of Fedora or RHEL provide a patched
version of Libgcrypt with Brainpool support removed.  We better ignore
this error because it is a regression in 2.2.28 although that older
versions could not used Brainpool keys.

GnuPG-bug-id: 5502
Signed-off-by: Werner Koch <wk@gnupg.org>
2021-06-22 12:30:46 +02:00

515 lines
18 KiB
C

/* t-sexputil.c - Module test for sexputil.c
* Copyright (C) 2007 Free Software Foundation, Inc.
*
* This file is part of GnuPG.
*
* GnuPG is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses/>.
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include "util.h"
#define pass() do { ; } while(0)
#define fail(a) do { fprintf (stderr, "%s:%d: test %d failed\n",\
__FILE__,__LINE__, (a)); \
exit (1); \
} while(0)
#define fail2(a,e) do { fprintf (stderr, "%s:%d: test %d failed: %s\n", \
__FILE__,__LINE__, (a), gpg_strerror ((e))); \
exit (1); \
} while(0)
static void
test_hash_algo_from_sigval (void)
{
int algo;
/* A real world example. */
unsigned char example1_rsa_sha1[] =
("\x28\x37\x3A\x73\x69\x67\x2D\x76\x61\x6C\x28\x33\x3A\x72\x73\x61"
"\x28\x31\x3A\x73\x31\x32\x38\x3A\x17\xD2\xE9\x5F\xB4\x24\xD4\x1E"
"\x8C\xEE\x94\xDA\x41\x42\x1F\x26\x5E\xF4\x6D\xEC\x5B\xBD\x5B\x89"
"\x7A\x69\x11\x43\xE9\xD2\x23\x21\x25\x64\xA6\xB0\x56\xEF\xB4\xE9"
"\x06\xB2\x44\xF6\x80\x1E\xFF\x41\x23\xEB\xC9\xFA\xFD\x09\xBF\x9C"
"\x8E\xCF\x7F\xC3\x7F\x3A\x40\x48\x89\xDC\xBA\xB7\xDB\x9E\xF1\xBA"
"\x7C\x08\xEA\x74\x1D\x49\xE7\x65\xEF\x67\x79\xBC\x23\xD9\x49\xCD"
"\x05\x99\xD3\xD8\xB7\x7B\xC7\x0E\xF2\xB3\x01\x48\x0F\xC8\xEB\x05"
"\x7B\xFB\x61\xCC\x41\x04\x74\x6D\x33\x84\xB1\xE6\x6A\xD8\x0F\xBC"
"\x27\xAC\x43\x45\xFA\x04\xD1\x22\x29\x29\x28\x34\x3A\x68\x61\x73"
"\x68\x34\x3A\x73\x68\x61\x31\x29\x29");
/* The same but without the hash algo. */
unsigned char example1_rsa[] =
("\x28\x37\x3A\x73\x69\x67\x2D\x76\x61\x6C\x28\x33\x3A\x72\x73\x61"
"\x28\x31\x3A\x73\x31\x32\x38\x3A\x17\xD2\xE9\x5F\xB4\x24\xD4\x1E"
"\x8C\xEE\x94\xDA\x41\x42\x1F\x26\x5E\xF4\x6D\xEC\x5B\xBD\x5B\x89"
"\x7A\x69\x11\x43\xE9\xD2\x23\x21\x25\x64\xA6\xB0\x56\xEF\xB4\xE9"
"\x06\xB2\x44\xF6\x80\x1E\xFF\x41\x23\xEB\xC9\xFA\xFD\x09\xBF\x9C"
"\x8E\xCF\x7F\xC3\x7F\x3A\x40\x48\x89\xDC\xBA\xB7\xDB\x9E\xF1\xBA"
"\x7C\x08\xEA\x74\x1D\x49\xE7\x65\xEF\x67\x79\xBC\x23\xD9\x49\xCD"
"\x05\x99\xD3\xD8\xB7\x7B\xC7\x0E\xF2\xB3\x01\x48\x0F\xC8\xEB\x05"
"\x7B\xFB\x61\xCC\x41\x04\x74\x6D\x33\x84\xB1\xE6\x6A\xD8\x0F\xBC"
"\x27\xAC\x43\x45\xFA\x04\xD1\x22\x29\x29\x29");
algo = hash_algo_from_sigval (example1_rsa_sha1);
if (algo != GCRY_MD_SHA1)
fail (0);
algo = hash_algo_from_sigval (example1_rsa);
if (algo)
fail (0);
}
static void
test_make_canon_sexp_from_rsa_pk (void)
{
struct {
unsigned char *m;
size_t mlen;
unsigned char *e;
size_t elen;
unsigned char *result;
size_t resultlen;
gpg_err_code_t reverr; /* Expected error from the reverse function. */
} tests[] = {
{
"\x82\xB4\x12\x48\x08\x48\xC0\x76\xAA\x8E\xF1\xF8\x7F\x5E\x9B\x89"
"\xA9\x62\x92\xA2\x16\x1B\xF5\x9F\xE1\x41\xF3\xF0\x42\xB5\x5C\x46"
"\xB8\x83\x9F\x39\x97\x73\xFF\xC5\xB2\xF4\x59\x5F\xBA\xC7\x0E\x03"
"\x9D\x27\xC0\x86\x37\x31\x46\xE0\xA1\xFE\xA1\x41\xD4\xE3\xE9\xB3"
"\x9B\xD5\x84\x65\xA5\x37\x35\x34\x07\x58\xB6\xBA\x21\xCA\x21\x72"
"\x4C\xF3\xFC\x91\x47\xD1\x3C\x1D\xA5\x9C\x38\x4D\x58\x39\x92\x16"
"\xB1\xE5\x43\xFE\xB5\x46\x4B\x43\xD1\x47\xB0\xE8\x2A\xDB\xF8\x34"
"\xB0\x5A\x22\x3D\x14\xBB\xEA\x63\x65\xA7\xF1\xF2\xF8\x97\x74\xA7",
128,
"\x40\x00\x00\x81",
4,
"\x28\x31\x30\x3a\x70\x75\x62\x6c\x69\x63\x2d\x6b\x65\x79\x28\x33"
"\x3a\x72\x73\x61\x28\x31\x3a\x6e\x31\x32\x39\x3a\x00\x82\xb4\x12"
"\x48\x08\x48\xc0\x76\xaa\x8e\xf1\xf8\x7f\x5e\x9b\x89\xa9\x62\x92"
"\xa2\x16\x1b\xf5\x9f\xe1\x41\xf3\xf0\x42\xb5\x5c\x46\xb8\x83\x9f"
"\x39\x97\x73\xff\xc5\xb2\xf4\x59\x5f\xba\xc7\x0e\x03\x9d\x27\xc0"
"\x86\x37\x31\x46\xe0\xa1\xfe\xa1\x41\xd4\xe3\xe9\xb3\x9b\xd5\x84"
"\x65\xa5\x37\x35\x34\x07\x58\xb6\xba\x21\xca\x21\x72\x4c\xf3\xfc"
"\x91\x47\xd1\x3c\x1d\xa5\x9c\x38\x4d\x58\x39\x92\x16\xb1\xe5\x43"
"\xfe\xb5\x46\x4b\x43\xd1\x47\xb0\xe8\x2a\xdb\xf8\x34\xb0\x5a\x22"
"\x3d\x14\xbb\xea\x63\x65\xa7\xf1\xf2\xf8\x97\x74\xa7\x29\x28\x31"
"\x3a\x65\x34\x3a\x40\x00\x00\x81\x29\x29\x29",
171
},
{
"\x63\xB4\x12\x48\x08\x48\xC0\x76\xAA\x8E\xF1\xF8\x7F\x5E\x9B\x89",
16,
"\x03",
1,
"\x28\x31\x30\x3a\x70\x75\x62\x6c\x69\x63\x2d\x6b\x65\x79\x28\x33"
"\x3a\x72\x73\x61\x28\x31\x3a\x6e\x31\x36\x3a\x63\xb4\x12\x48\x08"
"\x48\xc0\x76\xaa\x8e\xf1\xf8\x7f\x5e\x9b\x89\x29\x28\x31\x3a\x65"
"\x31\x3a\x03\x29\x29\x29",
54,
},
{
"",
0,
"",
0,
"\x28\x31\x30\x3a\x70\x75\x62\x6c\x69\x63\x2d\x6b\x65\x79\x28\x33"
"\x3a\x72\x73\x61\x28\x31\x3a\x6e\x31\x3a\x00\x29\x28\x31\x3a\x65"
"\x31\x3a\x00\x29\x29\x29",
38,
GPG_ERR_BAD_PUBKEY
},
{
NULL
}
};
int idx;
gpg_error_t err;
unsigned char *sexp;
size_t length;
const unsigned char *rsa_n, *rsa_e;
size_t rsa_n_len, rsa_e_len;
for (idx=0; tests[idx].m; idx++)
{
sexp = make_canon_sexp_from_rsa_pk (tests[idx].m, tests[idx].mlen,
tests[idx].e, tests[idx].elen,
&length);
if (!sexp)
{
fprintf (stderr, "%s:%d: out of core\n", __FILE__, __LINE__);
exit (1);
}
if (length != tests[idx].resultlen)
fail (idx);
if (memcmp (sexp, tests[idx].result, tests[idx].resultlen))
fail (idx);
/* Test the reverse function. */
err = get_rsa_pk_from_canon_sexp (sexp, length,
&rsa_n, &rsa_n_len,
&rsa_e, &rsa_e_len);
if (gpg_err_code (err) != tests[idx].reverr)
fail (idx);
if (!err)
{
if (tests[idx].mlen != rsa_n_len)
fail (idx);
if (memcmp (tests[idx].m, rsa_n, rsa_n_len))
fail (idx);
if (tests[idx].elen != rsa_e_len)
fail (idx);
if (memcmp (tests[idx].e, rsa_e, rsa_e_len))
fail (idx);
}
xfree (sexp);
}
}
/* Communiacation object for tcmp. */
struct tcmp_parm_s {
int curve_seen;
};
/* Helper for test_cmp_canon_sexp. */
static int
tcmp1 (void *opaque, int depth,
const unsigned char *aval, size_t alen,
const unsigned char *bval, size_t blen)
{
struct tcmp_parm_s *parm = opaque;
(void)depth;
if (parm->curve_seen)
{
/* Last token was "curve", canonicalize its argument. */
parm->curve_seen = 0;
if (alen == 8 && !memcmp (aval, "nistp256", alen))
{
alen = 19;
aval = "1.2.840.10045.3.1.7";
}
if (blen == 8 && !memcmp (bval, "nistp256", blen))
{
blen = 19;
bval = "1.2.840.10045.3.1.7";
}
}
else if (alen == 5 && !memcmp (aval, "curve", 5))
parm->curve_seen = 1;
else
parm->curve_seen = 0;
if (alen > blen)
return 1;
else if (alen < blen)
return -1;
else
return memcmp (aval, bval, alen);
}
static void
test_cmp_canon_sexp (void)
{
struct {
unsigned char *a;
unsigned char *b;
int expected0; /* Expected result without compare function. */
int expected1; /* Expected result with compare function tcmp1. */
}
tests[] = {
{
"(10:public-key(3:ecc(5:curve8:nistp256)(1:q10:qqqqqqqqqq)))",
"(10:public-key(3:ecc(5:curve8:nistp256)(1:q10:qqqqqqqqqq)))",
0, 0
},
{
"(10:public-key(3:ecc(5:curve19:1.2.840.10045.3.1.7)(1:q10:qqqqqqqqqq)))",
"(10:public-key(3:ecc(5:curve19:1.2.840.10045.3.1.7)(1:q10:qqqqqqqqqq)))",
0, 0
},
{
"(10:public-key(3:ecc(5:curve8:nistp256)(1:q10:qqqqqqqqqq)))",
"(10:public-key(3:ecc(5:curve19:1.2.840.10045.3.1.7)(1:q10:qqqqqqqqqq)))",
-1, 0
},
{
"(10:public-key(3:ecc(5:curve19:1.2.840.10045.3.1.7)(1:q10:qqqqqqqqqq)))",
"(10:public-key(3:ecc(5:curve8:nistp256)(1:q10:qqqqqqqqqq)))",
1, 0
},
{
NULL
}
};
struct tcmp_parm_s parm = {0};
int idx;
int res;
for (idx=0; tests[idx].a; idx++)
{
res = cmp_canon_sexp (tests[idx].a, strlen (tests[idx].a),
tests[idx].b, strlen (tests[idx].b),
NULL, NULL);
if (res != tests[idx].expected0)
fail (idx);
res = cmp_canon_sexp (tests[idx].a, strlen (tests[idx].a),
tests[idx].b, strlen (tests[idx].b),
tcmp1, &parm);
if (res != tests[idx].expected1)
fail (idx);
}
}
static void
test_ecc_uncompress (void)
{
struct {
const char *a; /* Uncompressed. */
const char *b; /* Compressed. */
}
tests[] = {
{
"(public-key"
" (ecc"
" (curve brainpoolP256r1)"
" (q #042ECD8679930BE2DB4AD42B8600BA3F80"
/* */"2D4D539BFF2F69B83EC9B7BBAA7F3406"
/* */"436DD11A1756AFE56CD93408410FCDA9"
/* */"BA95024EB613BD481A14FCFEC27A448A#)))",
/* The same in compressed form. */
"(public-key"
" (ecc"
" (curve brainpoolP256r1)"
" (q #022ECD8679930BE2DB4AD42B8600BA3F80"
/* */"2D4D539BFF2F69B83EC9B7BBAA7F3406#)))"
},
{
"(public-key"
" (ecc"
" (curve brainpoolP256r1)"
" (q #045B784CA008EE64AB3D85017EE0D2BE87"
/* */"558762C7300E0C8E06B1F9AF7C031458"
/* */"9EBBA41915313417BA54218EB0569C59"
/* */"0B156C76DBCAB6E84575E6EF68CE7B87#)))",
/* The same in compressed form. */
"(public-key"
" (ecc"
" (curve brainpoolP256r1)"
" (q #035B784CA008EE64AB3D85017EE0D2BE87"
/* */"558762C7300E0C8E06B1F9AF7C031458#)))"
},
{ /* A key which does not require a conversion. */
"(public-key"
" (ecdsa"
" (p #00FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFF#)"
" (curve \"NIST P-256\")"
" (b #5AC635D8AA3A93E7B3EBBD55769886BC651D06B0CC53B0F63BCE3C3E27D2604B#)"
" (g #046B17D1F2E12C4247F8BCE6E563A440F277037D812DEB33A0F4A13945D898C2964FE342E2FE1A7F9B8EE7EB4A7C0F9E162BCE33576B315ECECBB6406837BF51F5#)"
" (n #00FFFFFFFF00000000FFFFFFFFFFFFFFFFBCE6FAADA7179E84F3B9CAC2FC632551#)"
" (h #000000000000000000000000000000000000000000000000000000000000000001#)"
" (q #04C8A4CEC2E9A9BC8E173531A67B0840DF345C32E261ADD780E6D83D56EFADFD5DE872F8B854819B59543CE0B7F822330464FBC4E6324DADDCD9D059554F63B344#)))"
},
{ /* Nothing to do for an RSA private key. */
"(private-key"
" (rsa"
" (n #00B6B509596A9ECABC939212F891E656A626BA07DA8521A9CAD4C08E640C04052FBB87F424EF1A0275A48A9299AC9DB69ABE3D0124E6C756B1F7DFB9B842D6251AEA6EE85390495CADA73D671537FCE5850A932F32BAB60AB1AC1F852C1F83C625E7A7D70CDA9EF16D5C8E47739D77DF59261ABE8454807FF441E143FBD37F8545#)"
" (e #010001#)"
" (d #077AD3DE284245F4806A1B82B79E616FBDE821C82D691A65665E57B5FAD3F34E67F401E7BD2E28699E89D9C496CF821945AE83AC7A1231176A196BA6027E77D85789055D50404A7A2A95B1512F91F190BBAEF730ED550D227D512F89C0CDB31AC06FA9A19503DDF6B66D0B42B9691BFD6140EC1720FFC48AE00C34796DC899E5#)"
" (p #00D586C78E5F1B4BF2E7CD7A04CA091911706F19788B93E44EE20AAF462E8363E98A72253ED845CCBF2481BB351E8557C85BCFFF0DABDBFF8E26A79A0938096F27#)"
" (q #00DB0CDF60F26F2A296C88D6BF9F8E5BE45C0DDD713C96CC73EBCB48B061740943F21D2A93D6E42A7211E7F02A95DCED6C390A67AD21ECF739AE8A0CA46FF2EBB3#)"
" (u #33149195F16912DB20A48D020DBC3B9E3881B39D722BF79378F6340F43148A6E9FC5F53E2853B7387BA4443BA53A52FCA8173DE6E85B42F9783D4A7817D0680B#)))"
},
{ /* Nothing to do dor a DSA key. */
" (public-key"
" (dsa"
" (p #0084E4C626E16005770BD9509ABF7354492E85B8C0060EFAAAEC617F725B592FAA59DF5460575F41022776A9718CE62EDD542AB73C7720869EBDBC834D174ADCD7136827DF51E2613545A25CA573BC502A61B809000B6E35F5EB7FD6F18C35678C23EA1C3638FB9CFDBA2800EE1B62F41A4479DE824F2834666FBF8DC5B53C2617#)"
" (q #00B0E6F710051002A9F425D98A677B18E0E5B038AB#)"
" (g #44370CEE0FE8609994183DBFEBA7EEA97D466838BCF65EFF506E35616DA93FA4E572A2F08886B74977BC00CA8CD3DBEA7AEB7DB8CBB180E6975E0D2CA76E023E6DE9F8CCD8826EBA2F72B8516532F6001DEFFAE76AA5E59E0FA33DBA3999B4E92D1703098CDEDCC416CF008801964084CDE1980132B2B78CB4CE9C15A559528B#)"
" (y #3D5DD14AFA2BF24A791E285B90232213D0E3BA74AB1109E768AED19639A322F84BB7D959E2BA92EF73DE4C7F381AA9F4053CFA3CD4527EF9043E304E5B95ED0A3A5A9D590AA641C13DB2B6E32B9B964A6A2C730DD3EA7C8E13F7A140AFF1A91CE375E9B9B960384779DC4EA180FA1F827C52288F366C0770A220F50D6D8FD6F6#)))"
},
{ /* Nothing to do for an ECDSA key w/o curvename. */
"(public-key"
" (ecdsa(flags param)"
" (p #00FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFF#)"
" (a #00FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFC#)"
" (b #5AC635D8AA3A93E7B3EBBD55769886BC651D06B0CC53B0F63BCE3C3E27D2604B#)"
" (g #046B17D1F2E12C4247F8BCE6E563A440F277037D812DEB33A0F4A13945D898C2964FE342E2FE1A7F9B8EE7EB4A7C0F9E162BCE33576B315ECECBB6406837BF51F5#)"
" (n #00FFFFFFFF00000000FFFFFFFFFFFFFFFFBCE6FAADA7179E84F3B9CAC2FC632551#)"
" (h #000000000000000000000000000000000000000000000000000000000000000001#)"
" (q #04C8A4CEC2E9A9BC8E173531A67B0840DF345C32E261ADD780E6D83D56EFADFD5DE872F8B854819B59543CE0B7F822330464FBC4E6324DADDCD9D059554F63B344#)))"
},
{ /* Nothing to do for Ed25519 key. */
"(public-key"
" (ecc"
" (curve Ed25519)"
" (q #04"
" 1CC662926E7EFF4982B7FB8B928E61CD74CCDD85277CC57196C3AD20B611085F"
" 47BD24842905C049257673B3F5249524E0A41FAA17B25B818D0F97E625F1A1D0#)"
" ))"
},
{ /* Nothing to do for Ed25519 with EdDSA key. */
"(public-key"
" (ecc"
" (curve Ed25519)(flags eddsa)"
" (q #773E72848C1FD5F9652B29E2E7AF79571A04990E96F2016BF4E0EC1890C2B7DB#)"
" ))"
},
{ /* Nothing to do for Ed25519 with EdDSA key with prefix. */
"(public-key"
" (ecc"
" (curve Ed25519)(flags eddsa)"
" (q #40"
" 773E72848C1FD5F9652B29E2E7AF79571A04990E96F2016BF4E0EC1890C2B7DB#)"
" ))"
},
{ /* Nothing to do for Ed25519 with EdDSA key with uncompress prefix. */
"(public-key"
" (ecc"
" (curve Ed25519)(flags eddsa)"
" (q #04"
" 629ad237d1ed04dcd4abe1711dd699a1cf51b1584c4de7a4ef8b8a640180b26f"
" 5bb7c29018ece0f46b01f2960e99041a5779afe7e2292b65f9d51f8c84723e77#)"
" ))"
},
{ /* Noting to do for a Cv25519 tweaked key. */
"(public-key"
" (ecc"
" (curve Curve25519)(flags djb-tweak)"
" (q #40"
" 918C1733127F6BF2646FAE3D081A18AE77111C903B906310B077505EFFF12740#)"
" ))"
},
{ /* Nothing to do for a shadowed key. */
"(shadowed-private-key"
" (rsa"
" (n #00B493C79928398DA9D99AC0E949FE6EB62F683CB974FFFBFBC01066F5C9A89B"
" D3DC48EAD7C65F36EA943C2B2C865C26C4884FF9EDFDA8C99C855B737D77EEF6"
" B85DBC0CCEC0E900C1F89A6893A2A93E8B31028469B6927CEB2F08687E547C68"
" 6B0A2F7E50A194FF7AB7637E03DE0912EF7F6E5F1EC37625BD1620CCC2E7A564"
" 31E168CDAFBD1D9E61AE47A69A6FA03EF22F844528A710B2392F262B95A3078C"
" F321DC8325F92A5691EF69F34FD0DE0B22C79D29DC87723FCADE463829E8E5F7"
" D196D73D6C9C180F6A6A0DDBF7B9D8F7FA293C36163B12199EF6A1A95CAE4051"
" E3069C522CC6C4A7110F663A5DAD20F66C13A1674D050088208FAE4F33B3AB51"
" 03#)"
" (e #00010001#)"
" (shadowed t1-v1"
" (#D2760001240102000005000123350000# OPENPGP.1)"
")))"
},
{
NULL
}};
gpg_error_t err;
int idx;
gcry_sexp_t sexp;
unsigned char *abuf, *bbuf, *rbuf;
size_t abuflen, bbuflen, rbuflen;
for (idx=0; tests[idx].a; idx++)
{
err = gcry_sexp_new (&sexp, tests[idx].a, 0, 1);
if (err)
fail2 (idx,err);
err = make_canon_sexp (sexp, &abuf, &abuflen);
if (err)
fail2 (idx,err);
gcry_sexp_release (sexp);
if (tests[idx].b)
{
err = gcry_sexp_new (&sexp, tests[idx].b, 0, 1);
if (err)
fail2 (idx,err);
err = make_canon_sexp (sexp, &bbuf, &bbuflen);
if (err)
fail2 (idx,err);
gcry_sexp_release (sexp);
}
else
bbuf = NULL;
err = uncompress_ecc_q_in_canon_sexp (abuf, abuflen, &rbuf, &rbuflen);
if (err)
fail2 (idx,err);
if (rbuf)
fail (idx); /* Converted without a need. */
if (bbuf)
{
err = uncompress_ecc_q_in_canon_sexp (bbuf, bbuflen, &rbuf, &rbuflen);
if (gpg_err_code (err) == GPG_ERR_UNKNOWN_CURVE)
{
static int shown;
fprintf (stderr, "%s:%d: test %d failed: %s - ignored\n",
__FILE__,__LINE__, idx, gpg_strerror (err));
if (!shown)
{
shown = 1;
fprintf (stderr, "This is likely due to a patched"
" version of Libgcrypt with removed support"
" for Brainpool curves\n");
}
}
else
{
if (err)
fail2 (idx,err);
if (!rbuf)
fail (idx); /* Not converted despite a need for it. */
/* log_printcanon (" orig:", abuf, abuflen); */
/* log_printcanon (" comp:", bbuf, bbuflen); */
/* log_printcanon ("uncomp:", rbuf, rbuflen); */
if (rbuflen != abuflen || memcmp (rbuf, abuf, abuflen))
fail (idx);
}
}
xfree (abuf);
xfree (bbuf);
xfree (rbuf);
}
}
int
main (int argc, char **argv)
{
(void)argc;
(void)argv;
test_hash_algo_from_sigval ();
test_make_canon_sexp_from_rsa_pk ();
test_cmp_canon_sexp ();
test_ecc_uncompress ();
return 0;
}