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|
#include "crypt-port.h"
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
static const char *const entropy[] =
{
"\x58\x35\xcd\x26\x03\xab\x2c\x14\x92\x13\x1e\x59\xb0\xbc\xfe\xd5",
"\x9b\x35\xa2\x45\xeb\x68\x9e\x8f\xd9\xa9\x09\x71\xcc\x4d\x21\x44",
"\x25\x13\xc5\x94\xc3\x93\x1d\xf4\xfd\xd4\x4f\xbd\x10\xe5\x28\x08",
"\xa0\x2d\x35\x70\xa8\x0b\xc3\xad\xdf\x61\x69\xb3\x19\xda\x7e\x8d",
0
};
#if INCLUDE_descrypt
static const char *const des_expected_output[] = { "Mp", "Pp", "ZH", "Uh"};
#endif
#if INCLUDE_bigcrypt && !INCLUDE_descrypt
static const char *const big_expected_output[] =
{
"Mp............",
"Pp............",
"ZH............",
"Uh............"
};
#endif
#if INCLUDE_bsdicrypt
static const char *const bsdi_expected_output[] =
{
"_J9..MJHn",
"_J9..PKXc",
"_J9..ZAFl",
"_J9..UqGB"
};
static const char *const bsdi_expected_output_r[] =
{
"_/.2.MJHn",
"_/.2.PKXc",
"_/.2.ZAFl",
"_/.2.UqGB"
};
static const char *const bsdi_expected_output_l[] =
{
"_/...MJHn",
"_/...PKXc",
"_/...ZAFl",
"_/...UqGB"
};
static const char *const bsdi_expected_output_h[] =
{
"_zzzzMJHn",
"_zzzzPKXc",
"_zzzzZAFl",
"_zzzzUqGB"
};
#endif
#if INCLUDE_md5crypt
static const char *const md5_expected_output[] =
{
"$1$MJHnaAke",
"$1$PKXc3hCO",
"$1$ZAFlICwY",
"$1$UqGBkVu0"
};
#endif
#if INCLUDE_nt
static const char *const nthash_expected_output[] =
{
"$3$__not_used__c809a450df09a3",
"$3$__not_used__30d0d6f834c0c3",
"$3$__not_used__0eeeebb83d6fe4",
"$3$__not_used__1c690d6a9ef88c"
};
#endif
#if INCLUDE_sunmd5
static const char *const sunmd5_expected_output[] =
{
"$md5,rounds=55349$BPm.fm03$",
"$md5,rounds=72501$WKoucttX$",
"$md5,rounds=42259$3HtkHq/x$",
"$md5,rounds=73773$p.5e9AQf$",
};
static const char *const sunmd5_expected_output_l[] =
{
"$md5,rounds=55349$BPm.fm03$",
"$md5,rounds=72501$WKoucttX$",
"$md5,rounds=42259$3HtkHq/x$",
"$md5,rounds=73773$p.5e9AQf$",
};
static const char *const sunmd5_expected_output_h[] =
{
"$md5,rounds=4294920244$BPm.fm03$",
"$md5,rounds=4294937396$WKoucttX$",
"$md5,rounds=4294907154$3HtkHq/x$",
"$md5,rounds=4294938668$p.5e9AQf$",
};
#endif
#if INCLUDE_sha1crypt
static const char *const sha1_expected_output[] =
{
"$sha1$248488$ggu.H673kaZ5$",
"$sha1$248421$SWqudaxXA5L0$",
"$sha1$257243$RAtkIrDxEovH$",
"$sha1$250464$1j.eVxRfNAPO$",
};
static const char *const sha1_expected_output_l[] =
{
"$sha1$4$ggu.H673kaZ5$",
"$sha1$4$SWqudaxXA5L0$",
"$sha1$4$RAtkIrDxEovH$",
"$sha1$4$1j.eVxRfNAPO$",
};
static const char *const sha1_expected_output_h[] =
{
"$sha1$3643984551$ggu.H673kaZ5$",
"$sha1$4200450659$SWqudaxXA5L0$",
"$sha1$3946507480$RAtkIrDxEovH$",
"$sha1$3486175838$1j.eVxRfNAPO$",
};
#endif
#if INCLUDE_sha256crypt
static const char *const sha256_expected_output[] =
{
"$5$MJHnaAkegEVYHsFK",
"$5$PKXc3hCOSyMqdaEQ",
"$5$ZAFlICwYRETzIzIj",
"$5$UqGBkVu01rurVZqg"
};
static const char *const sha256_expected_output_r[] =
{
"$5$rounds=10191$MJHnaAkegEVYHsFK",
"$5$rounds=10191$PKXc3hCOSyMqdaEQ",
"$5$rounds=10191$ZAFlICwYRETzIzIj",
"$5$rounds=10191$UqGBkVu01rurVZqg"
};
static const char *const sha256_expected_output_l[] =
{
"$5$rounds=1000$MJHnaAkegEVYHsFK",
"$5$rounds=1000$PKXc3hCOSyMqdaEQ",
"$5$rounds=1000$ZAFlICwYRETzIzIj",
"$5$rounds=1000$UqGBkVu01rurVZqg"
};
static const char *const sha256_expected_output_h[] =
{
"$5$rounds=999999999$MJHnaAkegEVYHsFK",
"$5$rounds=999999999$PKXc3hCOSyMqdaEQ",
"$5$rounds=999999999$ZAFlICwYRETzIzIj",
"$5$rounds=999999999$UqGBkVu01rurVZqg"
};
#endif
#if INCLUDE_sha512crypt
static const char *const sha512_expected_output[] =
{
"$6$MJHnaAkegEVYHsFK",
"$6$PKXc3hCOSyMqdaEQ",
"$6$ZAFlICwYRETzIzIj",
"$6$UqGBkVu01rurVZqg"
};
static const char *const sha512_expected_output_r[] =
{
"$6$rounds=10191$MJHnaAkegEVYHsFK",
"$6$rounds=10191$PKXc3hCOSyMqdaEQ",
"$6$rounds=10191$ZAFlICwYRETzIzIj",
"$6$rounds=10191$UqGBkVu01rurVZqg"
};
static const char *const sha512_expected_output_l[] =
{
"$6$rounds=1000$MJHnaAkegEVYHsFK",
"$6$rounds=1000$PKXc3hCOSyMqdaEQ",
"$6$rounds=1000$ZAFlICwYRETzIzIj",
"$6$rounds=1000$UqGBkVu01rurVZqg"
};
static const char *const sha512_expected_output_h[] =
{
"$6$rounds=999999999$MJHnaAkegEVYHsFK",
"$6$rounds=999999999$PKXc3hCOSyMqdaEQ",
"$6$rounds=999999999$ZAFlICwYRETzIzIj",
"$6$rounds=999999999$UqGBkVu01rurVZqg"
};
#endif
#if INCLUDE_bcrypt
static const char *const bcrypt_a_expected_output[] =
{
"$2a$05$UBVLHeMpJ/QQCv3XqJx8zO",
"$2a$05$kxUgPcrmlm9XoOjvxCyfP.",
"$2a$05$HPNDjKMRFdR7zC87CMSmA.",
"$2a$05$mAyzaIeJu41dWUkxEbn8hO"
};
static const char *const bcrypt_b_expected_output[] =
{
"$2b$05$UBVLHeMpJ/QQCv3XqJx8zO",
"$2b$05$kxUgPcrmlm9XoOjvxCyfP.",
"$2b$05$HPNDjKMRFdR7zC87CMSmA.",
"$2b$05$mAyzaIeJu41dWUkxEbn8hO"
};
static const char *const bcrypt_b_expected_output_l[] =
{
"$2b$04$UBVLHeMpJ/QQCv3XqJx8zO",
"$2b$04$kxUgPcrmlm9XoOjvxCyfP.",
"$2b$04$HPNDjKMRFdR7zC87CMSmA.",
"$2b$04$mAyzaIeJu41dWUkxEbn8hO"
};
static const char *const bcrypt_b_expected_output_h[] =
{
"$2b$31$UBVLHeMpJ/QQCv3XqJx8zO",
"$2b$31$kxUgPcrmlm9XoOjvxCyfP.",
"$2b$31$HPNDjKMRFdR7zC87CMSmA.",
"$2b$31$mAyzaIeJu41dWUkxEbn8hO"
};
static const char *const bcrypt_x_expected_output[] =
{
"$2x$05$UBVLHeMpJ/QQCv3XqJx8zO",
"$2x$05$kxUgPcrmlm9XoOjvxCyfP.",
"$2x$05$HPNDjKMRFdR7zC87CMSmA.",
"$2x$05$mAyzaIeJu41dWUkxEbn8hO"
};
static const char *const bcrypt_y_expected_output[] =
{
"$2y$05$UBVLHeMpJ/QQCv3XqJx8zO",
"$2y$05$kxUgPcrmlm9XoOjvxCyfP.",
"$2y$05$HPNDjKMRFdR7zC87CMSmA.",
"$2y$05$mAyzaIeJu41dWUkxEbn8hO"
};
#endif
#if INCLUDE_yescrypt
static const char *yescrypt_expected_output[] =
{
"$y$j9T$MJHnaAkegEVYHsFKkmfzJ1",
"$y$j9T$PKXc3hCOSyMqdaEQArI62/",
"$y$j9T$ZAFlICwYRETzIzIjEIC86.",
"$y$j9T$UqGBkVu01rurVZqgNchTB0"
};
static const char *yescrypt_expected_output_l[] =
{
"$y$j75$MJHnaAkegEVYHsFKkmfzJ1",
"$y$j75$PKXc3hCOSyMqdaEQArI62/",
"$y$j75$ZAFlICwYRETzIzIjEIC86.",
"$y$j75$UqGBkVu01rurVZqgNchTB0"
};
static const char *yescrypt_expected_output_h[] =
{
"$y$jFT$MJHnaAkegEVYHsFKkmfzJ1",
"$y$jFT$PKXc3hCOSyMqdaEQArI62/",
"$y$jFT$ZAFlICwYRETzIzIjEIC86.",
"$y$jFT$UqGBkVu01rurVZqgNchTB0"
};
#endif
#if INCLUDE_scrypt
static const char *scrypt_expected_output[] =
{
"$7$CU..../....MJHnaAkegEVYHsFKkmfzJ1",
"$7$CU..../....PKXc3hCOSyMqdaEQArI62/",
"$7$CU..../....ZAFlICwYRETzIzIjEIC86.",
"$7$CU..../....UqGBkVu01rurVZqgNchTB0"
};
static const char *scrypt_expected_output_l[] =
{
"$7$BU..../....MJHnaAkegEVYHsFKkmfzJ1",
"$7$BU..../....PKXc3hCOSyMqdaEQArI62/",
"$7$BU..../....ZAFlICwYRETzIzIjEIC86.",
"$7$BU..../....UqGBkVu01rurVZqgNchTB0"
};
static const char *scrypt_expected_output_h[] =
{
"$7$GU..../....MJHnaAkegEVYHsFKkmfzJ1",
"$7$GU..../....PKXc3hCOSyMqdaEQArI62/",
"$7$GU..../....ZAFlICwYRETzIzIjEIC86.",
"$7$GU..../....UqGBkVu01rurVZqgNchTB0"
};
#endif
#if INCLUDE_gost_yescrypt
static const char *gost_yescrypt_expected_output[] =
{
"$gy$j9T$MJHnaAkegEVYHsFKkmfzJ1",
"$gy$j9T$PKXc3hCOSyMqdaEQArI62/",
"$gy$j9T$ZAFlICwYRETzIzIjEIC86.",
"$gy$j9T$UqGBkVu01rurVZqgNchTB0"
};
static const char *gost_yescrypt_expected_output_l[] =
{
"$gy$j75$MJHnaAkegEVYHsFKkmfzJ1",
"$gy$j75$PKXc3hCOSyMqdaEQArI62/",
"$gy$j75$ZAFlICwYRETzIzIjEIC86.",
"$gy$j75$UqGBkVu01rurVZqgNchTB0"
};
static const char *gost_yescrypt_expected_output_h[] =
{
"$gy$jFT$MJHnaAkegEVYHsFKkmfzJ1",
"$gy$jFT$PKXc3hCOSyMqdaEQArI62/",
"$gy$jFT$ZAFlICwYRETzIzIjEIC86.",
"$gy$jFT$UqGBkVu01rurVZqgNchTB0"
};
#endif
struct testcase
{
const char *prefix;
const char *const *expected_output;
unsigned int expected_len;
unsigned int expected_auto_len;
unsigned long rounds;
};
// For all hashing methods with a linear cost parameter (that is,
// DES/BSD, MD5/Sun, SHA1, SHA256, and SHA512), crypt_gensalt will
// accept any value in the range of 'unsigned long' and clip it to the
// actual valid range.
#define MIN_LINEAR_COST 1
#define MAX_LINEAR_COST ULONG_MAX
static const struct testcase testcases[] =
{
#if INCLUDE_descrypt
{ "", des_expected_output, 2, 0, 0 },
// DES doesn't have variable round count.
#endif
#if INCLUDE_bigcrypt && !INCLUDE_descrypt
{ "", big_expected_output, 14, 0, 0 },
// bigcrypt doesn't have variable round count.
#endif
#if INCLUDE_bsdicrypt
{ "_", bsdi_expected_output, 9, 0, 0 },
// BSDI/DES always emits a round count.
// The _r expectation is used to verify that even inputs are
// made odd, rather than rejected.
{ "_", bsdi_expected_output_r, 9, 0, 16384 },
{ "_", bsdi_expected_output_l, 9, 0, MIN_LINEAR_COST },
{ "_", bsdi_expected_output_h, 9, 0, MAX_LINEAR_COST },
#endif
#if INCLUDE_md5crypt
{ "$1$", md5_expected_output, 11, 0, 0 },
// MD5/BSD doesn't have variable round count.
#endif
#if INCLUDE_nt
{ "$3$", nthash_expected_output, 29, 0, 0 },
// NTHASH doesn't have variable round count.
#endif
#if INCLUDE_sunmd5
{ "$md5", sunmd5_expected_output, 27, 0, 0 },
// MD5/Sun always emits a round count.
{ "$md5", sunmd5_expected_output_l, 27, 0, MIN_LINEAR_COST },
{ "$md5", sunmd5_expected_output_h, 32, 0, MAX_LINEAR_COST },
#endif
#if INCLUDE_sha1crypt
{ "$sha1", sha1_expected_output, 26, 34, 0 },
// SHA1/PBKDF always emits a round count.
{ "$sha1", sha1_expected_output_l, 21, 29, MIN_LINEAR_COST },
{ "$sha1", sha1_expected_output_h, 30, 38, MAX_LINEAR_COST },
#endif
#if INCLUDE_sha256crypt
{ "$5$", sha256_expected_output, 19, 0, 0 },
{ "$5$", sha256_expected_output_r, 32, 0, 10191 },
{ "$5$", sha256_expected_output_l, 31, 0, MIN_LINEAR_COST },
{ "$5$", sha256_expected_output_h, 36, 0, MAX_LINEAR_COST },
#endif
#if INCLUDE_sha512crypt
{ "$6$", sha512_expected_output, 19, 0, 0 },
{ "$6$", sha512_expected_output_r, 32, 0, 10191 },
{ "$6$", sha512_expected_output_l, 31, 0, MIN_LINEAR_COST },
{ "$6$", sha512_expected_output_h, 36, 0, MAX_LINEAR_COST },
#endif
#if INCLUDE_bcrypt
{ "$2b$", bcrypt_b_expected_output, 29, 0, 0 },
// bcrypt always emits a cost parameter.
// bcrypt's cost parameter is exponential, not linear, and
// values outside the documented range are errors.
{ "$2b$", bcrypt_b_expected_output_l, 29, 0, 4 },
{ "$2b$", bcrypt_b_expected_output_h, 29, 0, 31 },
// Salt generation for legacy bcrypt variants uses the same code as
// the 'b' variant, so we don't bother testing them on non-default
// rounds.
{ "$2a$", bcrypt_a_expected_output, 29, 0, 0 },
{ "$2x$", bcrypt_x_expected_output, 29, 0, 0 },
{ "$2y$", bcrypt_y_expected_output, 29, 0, 0 },
#endif
#if INCLUDE_yescrypt
{ "$y$", yescrypt_expected_output, 29, 29, 0 },
{ "$y$", yescrypt_expected_output_l, 29, 29, 1 },
{ "$y$", yescrypt_expected_output_h, 29, 29, 11 },
#endif
#if INCLUDE_scrypt
{ "$7$", scrypt_expected_output, 36, 36, 0 },
{ "$7$", scrypt_expected_output_l, 36, 36, 6 },
{ "$7$", scrypt_expected_output_h, 36, 36, 11 },
#endif
#if INCLUDE_gost_yescrypt
{ "$gy$", gost_yescrypt_expected_output, 30, 30, 0 },
{ "$gy$", gost_yescrypt_expected_output_l, 30, 30, 1 },
{ "$gy$", gost_yescrypt_expected_output_h, 30, 30, 11 },
#endif
{ 0, 0, 0, 0, 0 }
};
int
main (void)
{
int status = 0;
unsigned int ent;
const struct testcase *tcase;
char output[CRYPT_GENSALT_OUTPUT_SIZE];
char prev_output[CRYPT_GENSALT_OUTPUT_SIZE];
for (tcase = testcases; tcase->prefix; tcase++)
{
XCRYPT_SECURE_MEMSET (prev_output, CRYPT_GENSALT_OUTPUT_SIZE);
for (ent = 0; ent < ARRAY_SIZE (entropy); ent++)
{
XCRYPT_SECURE_MEMSET (output, CRYPT_GENSALT_OUTPUT_SIZE);
char *salt = crypt_gensalt_rn (tcase->prefix, tcase->rounds,
entropy[ent], 16,
output, CRYPT_GENSALT_OUTPUT_SIZE);
if (salt == 0)
{
if (entropy[ent] == 0 && errno == ENOSYS)
{
fprintf (stderr,
"UNSUPPORTED: %s/%lu/auto-entropy -> ENOSYS\n",
tcase->prefix, tcase->rounds);
}
else
{
fprintf (stderr, "ERROR: %s/%lu/%u -> 0\n",
tcase->prefix, tcase->rounds, ent);
status = 1;
}
continue;
}
size_t slen = strlen (salt);
unsigned int expected_len =
(!entropy[ent] && tcase->expected_auto_len) ?
tcase->expected_auto_len : tcase->expected_len;
if (slen != expected_len)
{
fprintf (stderr,
"ERROR: %s/%lu/%u -> %s (expected len=%u got %zu)\n",
tcase->prefix, tcase->rounds, ent, salt,
expected_len, slen);
status = 1;
}
else if (strncmp (salt, tcase->prefix, strlen (tcase->prefix)))
{
fprintf (stderr, "ERROR: %s/%lu/%u -> %s (prefix wrong)\n",
tcase->prefix, tcase->rounds, ent, salt);
status = 1;
}
else if (!strcmp (salt, prev_output))
{
fprintf (stderr, "ERROR: %s/%lu/%u -> %s (same as prev)\n",
tcase->prefix, tcase->rounds, ent, salt);
status = 1;
}
else if (entropy[ent] && strcmp (salt, tcase->expected_output[ent]))
{
fprintf (stderr, "ERROR: %s/%lu/%u -> %s (expected %s)\n",
tcase->prefix, tcase->rounds, ent, salt,
tcase->expected_output[ent]);
status = 1;
}
else
fprintf (stderr, " ok: %s/%lu/%u -> %s\n",
tcase->prefix, tcase->rounds, ent, salt);
XCRYPT_STRCPY_OR_ABORT (prev_output, CRYPT_GENSALT_OUTPUT_SIZE, salt);
/* Test if crypt works with this salt. */
if (!tcase->rounds)
{
#define PASSW "alexander"
static struct crypt_data a, b;
if (!crypt_rn (PASSW, salt, &a, sizeof(a)))
{
fprintf (stderr, "ERROR: %s/%u -> crypt(gensalt) fail\n",
tcase->prefix, ent);
status = 1;
}
else if (!crypt_rn (PASSW, a.output, &b, sizeof(b)))
{
fprintf (stderr, "ERROR: %s/%u -> crypt(crypt(gensalt)) fail\n",
tcase->prefix, ent);
status = 1;
}
else if (strcmp (a.output, b.output))
{
fprintf (stderr, "ERROR: %s/%u -> crypt(gensalt) != crypt(crypt(gensalt))\n",
tcase->prefix, ent);
status = 1;
}
else
{
fprintf (stderr, " ok: %s/%u -> crypt works with this salt\n",
tcase->prefix, ent);
}
}
}
}
/* Currently, passing a null pointer as the prefix argument to
crypt_gensalt is supposed to produce a yescrypt setting
string. */
{
char *setting1, *setting2;
setting1 = crypt_gensalt_ra ("$y$", 0, entropy[0], 16);
setting2 = crypt_gensalt_ra (0, 0, entropy[0], 16);
if ((setting1 == 0 && setting2 != 0) ||
(setting1 != 0 && setting2 == 0) ||
(setting1 != 0 && setting2 != 0 && strcmp (setting1, setting2)))
{
printf ("FAILED: crypt_gensalt defaulting to $y$\n"
" $y$ -> %s\n"
" null -> %s\n",
setting1, setting2);
status = 1;
}
free (setting1);
free (setting2);
}
#if INCLUDE_bcrypt
/* FIXME: This test is a little too specific. It used to be in
test-bcrypt.c and I'm not sure what it's meant to be testing. */
{
char *setting1, *setting2;
const char *which = "$2a$05$CCCCCCCCCCCCCCCCCCCCC.E5YPO9kmyuRGyh0XouQYb4YMJKvyOeW";
setting1 = crypt_gensalt (which, 12, "CCCCCCCCCCCCCCCCCCCCC", 21);
if (!setting1 || strncmp (setting1, "$2a$12$", 7))
{
printf ("FAILED (crypt_gensalt: wrong prefix) s1=%s\n", setting1);
status = 1;
}
setting2 = crypt_gensalt_ra (setting1, 12, "CCCCCCCCCCCCCCCCCCCCC", 21);
if (strcmp (setting1, setting2))
{
printf ("FAILED (crypt_gensalt_ra/1: s1=%s s2=%s)\n", setting1, setting2);
status = 1;
}
setting1 = crypt_gensalt_ra (setting2, 12, "DCCCCCCCCCCCCCCCCCCCC", 21);
if (!strcmp (setting1, setting2))
{
printf ("FAILED (crypt_gensalt_ra/2: s1=%s s2=%s)\n", setting1, setting2);
status = 1;
}
free (setting1);
free (setting2);
}
#endif
return status;
}
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