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cc47c8fa7b0f4567bb9dd7e692c32a558a166d5c
heimdal/lib/asn1/check-gen.c
Roland C. Dowdeswell cc47c8fa7b Turn on -Wextra -Wno-sign-compare -Wno-unused-paramter and fix issues. 
We turn on a few extra warnings and fix the fallout that occurs
when building with --enable-developer.  Note that we get different
warnings on different machines and so this will be a work in
progress.  So far, we have built on NetBSD/amd64 5.99.64 (which
uses gcc 4.5.3) and Ubuntu 10.04.3 LTS (which uses gcc 4.4.3).

Notably, we fixed

	1.  a lot of missing structure initialisers,

	2.  unchecked return values for functions that glibc
	    marks as __attribute__((warn-unused-result)),

	3.  made minor modifications to slc and asn1_compile
	    which can generate code which generates warnings,
	    and

	4.  a few stragglers here and there.

We turned off the extended warnings for many programs in appl/ as
they are nearing the end of their useful lifetime, e.g.  rsh, rcp,
popper, ftp and telnet.

Interestingly, glibc's strncmp() macro needed to be worked around
whereas the function calls did not.

We have not yet tried this on 32 bit platforms, so there will be
a few more warnings when we do.
2012-02-20 19:45:41 +00:00

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/*
* Copyright (c) 1999 - 2005 Kungliga Tekniska Högskolan
* (Royal Institute of Technology, Stockholm, Sweden).
* All rights reserved.
*
* Portions Copyright (c) 2009 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <string.h>
#include <err.h>
#include <roken.h>
#include <asn1-common.h>
#include <asn1_err.h>
#include <der.h>
#include <krb5_asn1.h>
#include <heim_asn1.h>
#include <rfc2459_asn1.h>
#include <test_asn1.h>
#include "check-common.h"
RCSID("$Id$");
static char *lha_principal[] = { "lha" };
static char *lharoot_princ[] = { "lha", "root" };
static char *datan_princ[] = { "host", "nutcracker.e.kth.se" };
static char *nada_tgt_principal[] = { "krbtgt", "NADA.KTH.SE" };
#define IF_OPT_COMPARE(ac,bc,e) \
if (((ac)->e == NULL && (bc)->e != NULL) || (((ac)->e != NULL && (bc)->e == NULL))) return 1; if ((ab)->e)
#define COMPARE_OPT_STRING(ac,bc,e) \
do { if (strcmp(*(ac)->e, *(bc)->e) != 0) return 1; } while(0)
#define COMPARE_OPT_OCTECT_STRING(ac,bc,e) \
do { if ((ac)->e->length != (bc)->e->length || memcmp((ac)->e->data, (bc)->e->data, (ac)->e->length) != 0) return 1; } while(0)
#define COMPARE_STRING(ac,bc,e) \
do { if (strcmp((ac)->e, (bc)->e) != 0) return 1; } while(0)
#define COMPARE_INTEGER(ac,bc,e) \
do { if ((ac)->e != (bc)->e) return 1; } while(0)
#define COMPARE_OPT_INTEGER(ac,bc,e) \
do { if (*(ac)->e != *(bc)->e) return 1; } while(0)
#define COMPARE_MEM(ac,bc,e,len) \
do { if (memcmp((ac)->e, (bc)->e,len) != 0) return 1; } while(0)
static int
cmp_principal (void *a, void *b)
{
Principal *pa = a;
Principal *pb = b;
int i;
COMPARE_STRING(pa,pb,realm);
COMPARE_INTEGER(pa,pb,name.name_type);
COMPARE_INTEGER(pa,pb,name.name_string.len);
for (i = 0; i < pa->name.name_string.len; i++)
COMPARE_STRING(pa,pb,name.name_string.val[i]);
return 0;
}
static int
test_principal (void)
{
struct test_case tests[] = {
{ NULL, 29,
"\x30\x1b\xa0\x10\x30\x0e\xa0\x03\x02\x01\x01\xa1\x07\x30\x05\x1b"
"\x03\x6c\x68\x61\xa1\x07\x1b\x05\x53\x55\x2e\x53\x45",
NULL
},
{ NULL, 35,
"\x30\x21\xa0\x16\x30\x14\xa0\x03\x02\x01\x01\xa1\x0d\x30\x0b\x1b"
"\x03\x6c\x68\x61\x1b\x04\x72\x6f\x6f\x74\xa1\x07\x1b\x05\x53\x55"
"\x2e\x53\x45",
NULL
},
{ NULL, 54,
"\x30\x34\xa0\x26\x30\x24\xa0\x03\x02\x01\x03\xa1\x1d\x30\x1b\x1b"
"\x04\x68\x6f\x73\x74\x1b\x13\x6e\x75\x74\x63\x72\x61\x63\x6b\x65"
"\x72\x2e\x65\x2e\x6b\x74\x68\x2e\x73\x65\xa1\x0a\x1b\x08\x45\x2e"
"\x4b\x54\x48\x2e\x53\x45",
NULL
}
};
Principal values[] = {
{ { KRB5_NT_PRINCIPAL, { 1, lha_principal } }, "SU.SE" },
{ { KRB5_NT_PRINCIPAL, { 2, lharoot_princ } }, "SU.SE" },
{ { KRB5_NT_SRV_HST, { 2, datan_princ } }, "E.KTH.SE" }
};
int i, ret;
int ntests = sizeof(tests) / sizeof(*tests);
for (i = 0; i < ntests; ++i) {
tests[i].val = &values[i];
if (asprintf (&tests[i].name, "Principal %d", i) < 0)
errx(1, "malloc");
if (tests[i].name == NULL)
errx(1, "malloc");
}
ret = generic_test (tests, ntests, sizeof(Principal),
(generic_encode)encode_Principal,
(generic_length)length_Principal,
(generic_decode)decode_Principal,
(generic_free)free_Principal,
cmp_principal,
NULL);
for (i = 0; i < ntests; ++i)
free (tests[i].name);
return ret;
}
static int
cmp_authenticator (void *a, void *b)
{
Authenticator *aa = a;
Authenticator *ab = b;
int i;
COMPARE_INTEGER(aa,ab,authenticator_vno);
COMPARE_STRING(aa,ab,crealm);
COMPARE_INTEGER(aa,ab,cname.name_type);
COMPARE_INTEGER(aa,ab,cname.name_string.len);
for (i = 0; i < aa->cname.name_string.len; i++)
COMPARE_STRING(aa,ab,cname.name_string.val[i]);
return 0;
}
static int
test_authenticator (void)
{
struct test_case tests[] = {
{ NULL, 63,
"\x62\x3d\x30\x3b\xa0\x03\x02\x01\x05\xa1\x0a\x1b\x08"
"\x45\x2e\x4b\x54\x48\x2e\x53\x45\xa2\x10\x30\x0e\xa0"
"\x03\x02\x01\x01\xa1\x07\x30\x05\x1b\x03\x6c\x68\x61"
"\xa4\x03\x02\x01\x0a\xa5\x11\x18\x0f\x31\x39\x37\x30"
"\x30\x31\x30\x31\x30\x30\x30\x31\x33\x39\x5a",
NULL
},
{ NULL, 67,
"\x62\x41\x30\x3f\xa0\x03\x02\x01\x05\xa1\x07\x1b\x05"
"\x53\x55\x2e\x53\x45\xa2\x16\x30\x14\xa0\x03\x02\x01"
"\x01\xa1\x0d\x30\x0b\x1b\x03\x6c\x68\x61\x1b\x04\x72"
"\x6f\x6f\x74\xa4\x04\x02\x02\x01\x24\xa5\x11\x18\x0f"
"\x31\x39\x37\x30\x30\x31\x30\x31\x30\x30\x31\x36\x33"
"\x39\x5a",
NULL
}
};
Authenticator values[] = {
{ 5, "E.KTH.SE", { KRB5_NT_PRINCIPAL, { 1, lha_principal } },
NULL, 10, 99, NULL, NULL, NULL },
{ 5, "SU.SE", { KRB5_NT_PRINCIPAL, { 2, lharoot_princ } },
NULL, 292, 999, NULL, NULL, NULL }
};
int i, ret;
int ntests = sizeof(tests) / sizeof(*tests);
for (i = 0; i < ntests; ++i) {
tests[i].val = &values[i];
if (asprintf (&tests[i].name, "Authenticator %d", i) < 0)
errx(1, "malloc");
if (tests[i].name == NULL)
errx(1, "malloc");
}
ret = generic_test (tests, ntests, sizeof(Authenticator),
(generic_encode)encode_Authenticator,
(generic_length)length_Authenticator,
(generic_decode)decode_Authenticator,
(generic_free)free_Authenticator,
cmp_authenticator,
(generic_copy)copy_Authenticator);
for (i = 0; i < ntests; ++i)
free(tests[i].name);
return ret;
}
static int
cmp_KRB_ERROR (void *a, void *b)
{
KRB_ERROR *aa = a;
KRB_ERROR *ab = b;
int i;
COMPARE_INTEGER(aa,ab,pvno);
COMPARE_INTEGER(aa,ab,msg_type);
IF_OPT_COMPARE(aa,ab,ctime) {
COMPARE_INTEGER(aa,ab,ctime);
}
IF_OPT_COMPARE(aa,ab,cusec) {
COMPARE_INTEGER(aa,ab,cusec);
}
COMPARE_INTEGER(aa,ab,stime);
COMPARE_INTEGER(aa,ab,susec);
COMPARE_INTEGER(aa,ab,error_code);
IF_OPT_COMPARE(aa,ab,crealm) {
COMPARE_OPT_STRING(aa,ab,crealm);
}
#if 0
IF_OPT_COMPARE(aa,ab,cname) {
COMPARE_OPT_STRING(aa,ab,cname);
}
#endif
COMPARE_STRING(aa,ab,realm);
COMPARE_INTEGER(aa,ab,sname.name_string.len);
for (i = 0; i < aa->sname.name_string.len; i++)
COMPARE_STRING(aa,ab,sname.name_string.val[i]);
IF_OPT_COMPARE(aa,ab,e_text) {
COMPARE_OPT_STRING(aa,ab,e_text);
}
IF_OPT_COMPARE(aa,ab,e_data) {
/* COMPARE_OPT_OCTECT_STRING(aa,ab,e_data); */
}
return 0;
}
static int
test_krb_error (void)
{
struct test_case tests[] = {
{ NULL, 127,
"\x7e\x7d\x30\x7b\xa0\x03\x02\x01\x05\xa1\x03\x02\x01\x1e\xa4\x11"
"\x18\x0f\x32\x30\x30\x33\x31\x31\x32\x34\x30\x30\x31\x31\x31\x39"
"\x5a\xa5\x05\x02\x03\x04\xed\xa5\xa6\x03\x02\x01\x1f\xa7\x0d\x1b"
"\x0b\x4e\x41\x44\x41\x2e\x4b\x54\x48\x2e\x53\x45\xa8\x10\x30\x0e"
"\xa0\x03\x02\x01\x01\xa1\x07\x30\x05\x1b\x03\x6c\x68\x61\xa9\x0d"
"\x1b\x0b\x4e\x41\x44\x41\x2e\x4b\x54\x48\x2e\x53\x45\xaa\x20\x30"
"\x1e\xa0\x03\x02\x01\x01\xa1\x17\x30\x15\x1b\x06\x6b\x72\x62\x74"
"\x67\x74\x1b\x0b\x4e\x41\x44\x41\x2e\x4b\x54\x48\x2e\x53\x45",
"KRB-ERROR Test 1"
}
};
int ntests = sizeof(tests) / sizeof(*tests);
KRB_ERROR e1;
PrincipalName lhaprincipalname = { 1, { 1, lha_principal } };
PrincipalName tgtprincipalname = { 1, { 2, nada_tgt_principal } };
char *realm = "NADA.KTH.SE";
e1.pvno = 5;
e1.msg_type = 30;
e1.ctime = NULL;
e1.cusec = NULL;
e1.stime = 1069632679;
e1.susec = 322981;
e1.error_code = 31;
e1.crealm = &realm;
e1.cname = &lhaprincipalname;
e1.realm = "NADA.KTH.SE";
e1.sname = tgtprincipalname;
e1.e_text = NULL;
e1.e_data = NULL;
tests[0].val = &e1;
return generic_test (tests, ntests, sizeof(KRB_ERROR),
(generic_encode)encode_KRB_ERROR,
(generic_length)length_KRB_ERROR,
(generic_decode)decode_KRB_ERROR,
(generic_free)free_KRB_ERROR,
cmp_KRB_ERROR,
(generic_copy)copy_KRB_ERROR);
}
static int
cmp_Name (void *a, void *b)
{
Name *aa = a;
Name *ab = b;
COMPARE_INTEGER(aa,ab,element);
return 0;
}
static int
test_Name (void)
{
struct test_case tests[] = {
{ NULL, 35,
"\x30\x21\x31\x1f\x30\x0b\x06\x03\x55\x04\x03\x13\x04\x4c\x6f\x76"
"\x65\x30\x10\x06\x03\x55\x04\x07\x13\x09\x53\x54\x4f\x43\x4b\x48"
"\x4f\x4c\x4d",
"Name CN=Love+L=STOCKHOLM"
},
{ NULL, 35,
"\x30\x21\x31\x1f\x30\x0b\x06\x03\x55\x04\x03\x13\x04\x4c\x6f\x76"
"\x65\x30\x10\x06\x03\x55\x04\x07\x13\x09\x53\x54\x4f\x43\x4b\x48"
"\x4f\x4c\x4d",
"Name L=STOCKHOLM+CN=Love"
}
};
int ntests = sizeof(tests) / sizeof(*tests);
Name n1, n2;
RelativeDistinguishedName rdn1[1];
RelativeDistinguishedName rdn2[1];
AttributeTypeAndValue atv1[2];
AttributeTypeAndValue atv2[2];
unsigned cmp_CN[] = { 2, 5, 4, 3 };
unsigned cmp_L[] = { 2, 5, 4, 7 };
/* n1 */
n1.element = choice_Name_rdnSequence;
n1.u.rdnSequence.val = rdn1;
n1.u.rdnSequence.len = sizeof(rdn1)/sizeof(rdn1[0]);
rdn1[0].val = atv1;
rdn1[0].len = sizeof(atv1)/sizeof(atv1[0]);
atv1[0].type.length = sizeof(cmp_CN)/sizeof(cmp_CN[0]);
atv1[0].type.components = cmp_CN;
atv1[0].value.element = choice_DirectoryString_printableString;
atv1[0].value.u.printableString.data = "Love";
atv1[0].value.u.printableString.length = 4;
atv1[1].type.length = sizeof(cmp_L)/sizeof(cmp_L[0]);
atv1[1].type.components = cmp_L;
atv1[1].value.element = choice_DirectoryString_printableString;
atv1[1].value.u.printableString.data = "STOCKHOLM";
atv1[1].value.u.printableString.length = 9;
/* n2 */
n2.element = choice_Name_rdnSequence;
n2.u.rdnSequence.val = rdn2;
n2.u.rdnSequence.len = sizeof(rdn2)/sizeof(rdn2[0]);
rdn2[0].val = atv2;
rdn2[0].len = sizeof(atv2)/sizeof(atv2[0]);
atv2[0].type.length = sizeof(cmp_L)/sizeof(cmp_L[0]);
atv2[0].type.components = cmp_L;
atv2[0].value.element = choice_DirectoryString_printableString;
atv2[0].value.u.printableString.data = "STOCKHOLM";
atv2[0].value.u.printableString.length = 9;
atv2[1].type.length = sizeof(cmp_CN)/sizeof(cmp_CN[0]);
atv2[1].type.components = cmp_CN;
atv2[1].value.element = choice_DirectoryString_printableString;
atv2[1].value.u.printableString.data = "Love";
atv2[1].value.u.printableString.length = 4;
/* */
tests[0].val = &n1;
tests[1].val = &n2;
return generic_test (tests, ntests, sizeof(Name),
(generic_encode)encode_Name,
(generic_length)length_Name,
(generic_decode)decode_Name,
(generic_free)free_Name,
cmp_Name,
(generic_copy)copy_Name);
}
static int
cmp_KeyUsage (void *a, void *b)
{
KeyUsage *aa = a;
KeyUsage *ab = b;
return KeyUsage2int(*aa) != KeyUsage2int(*ab);
}
static int
test_bit_string (void)
{
struct test_case tests[] = {
{ NULL, 4,
"\x03\x02\x07\x80",
"bitstring 1"
},
{ NULL, 4,
"\x03\x02\x05\xa0",
"bitstring 2"
},
{ NULL, 5,
"\x03\x03\x07\x00\x80",
"bitstring 3"
},
{ NULL, 3,
"\x03\x01\x00",
"bitstring 4"
}
};
int ntests = sizeof(tests) / sizeof(*tests);
KeyUsage ku1, ku2, ku3, ku4;
memset(&ku1, 0, sizeof(ku1));
ku1.digitalSignature = 1;
tests[0].val = &ku1;
memset(&ku2, 0, sizeof(ku2));
ku2.digitalSignature = 1;
ku2.keyEncipherment = 1;
tests[1].val = &ku2;
memset(&ku3, 0, sizeof(ku3));
ku3.decipherOnly = 1;
tests[2].val = &ku3;
memset(&ku4, 0, sizeof(ku4));
tests[3].val = &ku4;
return generic_test (tests, ntests, sizeof(KeyUsage),
(generic_encode)encode_KeyUsage,
(generic_length)length_KeyUsage,
(generic_decode)decode_KeyUsage,
(generic_free)free_KeyUsage,
cmp_KeyUsage,
(generic_copy)copy_KeyUsage);
}
static int
cmp_TicketFlags (void *a, void *b)
{
TicketFlags *aa = a;
TicketFlags *ab = b;
return TicketFlags2int(*aa) != TicketFlags2int(*ab);
}
static int
test_bit_string_rfc1510 (void)
{
struct test_case tests[] = {
{ NULL, 7,
"\x03\x05\x00\x80\x00\x00\x00",
"TF bitstring 1"
},
{ NULL, 7,
"\x03\x05\x00\x40\x20\x00\x00",
"TF bitstring 2"
},
{ NULL, 7,
"\x03\x05\x00\x00\x20\x00\x00",
"TF bitstring 3"
},
{ NULL, 7,
"\x03\x05\x00\x00\x00\x00\x00",
"TF bitstring 4"
}
};
int ntests = sizeof(tests) / sizeof(*tests);
TicketFlags tf1, tf2, tf3, tf4;
memset(&tf1, 0, sizeof(tf1));
tf1.reserved = 1;
tests[0].val = &tf1;
memset(&tf2, 0, sizeof(tf2));
tf2.forwardable = 1;
tf2.pre_authent = 1;
tests[1].val = &tf2;
memset(&tf3, 0, sizeof(tf3));
tf3.pre_authent = 1;
tests[2].val = &tf3;
memset(&tf4, 0, sizeof(tf4));
tests[3].val = &tf4;
return generic_test (tests, ntests, sizeof(TicketFlags),
(generic_encode)encode_TicketFlags,
(generic_length)length_TicketFlags,
(generic_decode)decode_TicketFlags,
(generic_free)free_TicketFlags,
cmp_TicketFlags,
(generic_copy)copy_TicketFlags);
}
static int
cmp_KerberosTime (void *a, void *b)
{
KerberosTime *aa = a;
KerberosTime *ab = b;
return *aa != *ab;
}
static int
test_time (void)
{
struct test_case tests[] = {
{ NULL, 17,
"\x18\x0f\x31\x39\x37\x30\x30\x31\x30\x31\x30\x31\x31\x38\x33\x31"
"\x5a",
"time 1" },
{ NULL, 17,
"\x18\x0f\x32\x30\x30\x39\x30\x35\x32\x34\x30\x32\x30\x32\x34\x30"
"\x5a",
"time 2" }
};
int ntests = sizeof(tests) / sizeof(*tests);
KerberosTime times[] = {
4711,
1243130560
};
tests[0].val = &times[0];
tests[1].val = &times[1];
return generic_test (tests, ntests, sizeof(KerberosTime),
(generic_encode)encode_KerberosTime,
(generic_length)length_KerberosTime,
(generic_decode)decode_KerberosTime,
(generic_free)free_KerberosTime,
cmp_KerberosTime,
(generic_copy)copy_KerberosTime);
}
struct {
const char *cert;
size_t len;
} certs[] = {
{
"\x30\x82\x02\x6c\x30\x82\x01\xd5\xa0\x03\x02\x01\x02\x02\x09\x00"
"\x99\x32\xde\x61\x0e\x40\x19\x8a\x30\x0d\x06\x09\x2a\x86\x48\x86"
"\xf7\x0d\x01\x01\x05\x05\x00\x30\x2a\x31\x1b\x30\x19\x06\x03\x55"
"\x04\x03\x0c\x12\x68\x78\x35\x30\x39\x20\x54\x65\x73\x74\x20\x52"
"\x6f\x6f\x74\x20\x43\x41\x31\x0b\x30\x09\x06\x03\x55\x04\x06\x13"
"\x02\x53\x45\x30\x1e\x17\x0d\x30\x39\x30\x34\x32\x36\x32\x30\x32"
"\x39\x34\x30\x5a\x17\x0d\x31\x39\x30\x34\x32\x34\x32\x30\x32\x39"
"\x34\x30\x5a\x30\x2a\x31\x1b\x30\x19\x06\x03\x55\x04\x03\x0c\x12"
"\x68\x78\x35\x30\x39\x20\x54\x65\x73\x74\x20\x52\x6f\x6f\x74\x20"
"\x43\x41\x31\x0b\x30\x09\x06\x03\x55\x04\x06\x13\x02\x53\x45\x30"
"\x81\x9f\x30\x0d\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x01\x05"
"\x00\x03\x81\x8d\x00\x30\x81\x89\x02\x81\x81\x00\xb9\xd3\x1b\x67"
"\x1c\xf7\x5e\x26\x81\x3b\x82\xff\x03\xa4\x43\xb5\xb2\x63\x0b\x89"
"\x58\x43\xfe\x3d\xe0\x38\x7d\x93\x74\xbb\xad\x21\xa4\x29\xd9\x34"
"\x79\xf3\x1c\x8c\x5a\xd6\xb0\xd7\x19\xea\xcc\xaf\xe0\xa8\x40\x02"
"\x1d\x91\xf1\xac\x36\xb0\xfb\x08\xbd\xcc\x9a\xe1\xb7\x6e\xee\x0a"
"\x69\xbf\x6d\x2b\xee\x20\x82\x61\x06\xf2\x18\xcc\x89\x11\x64\x7e"
"\xb2\xff\x47\xd1\x3b\x52\x73\xeb\x5a\xc0\x03\xa6\x4b\xc7\x40\x7e"
"\xbc\xe1\x0e\x65\x44\x3f\x40\x8b\x02\x82\x54\x04\xd9\xcc\x2c\x67"
"\x01\xb6\x16\x82\xd8\x33\x53\x17\xd7\xde\x8d\x5d\x02\x03\x01\x00"
"\x01\xa3\x81\x99\x30\x81\x96\x30\x1d\x06\x03\x55\x1d\x0e\x04\x16"
"\x04\x14\x6e\x48\x13\xdc\xbf\x8b\x95\x4c\x13\xf3\x1f\x97\x30\xdd"
"\x27\x96\x59\x9b\x0e\x68\x30\x5a\x06\x03\x55\x1d\x23\x04\x53\x30"
"\x51\x80\x14\x6e\x48\x13\xdc\xbf\x8b\x95\x4c\x13\xf3\x1f\x97\x30"
"\xdd\x27\x96\x59\x9b\x0e\x68\xa1\x2e\xa4\x2c\x30\x2a\x31\x1b\x30"
"\x19\x06\x03\x55\x04\x03\x0c\x12\x68\x78\x35\x30\x39\x20\x54\x65"
"\x73\x74\x20\x52\x6f\x6f\x74\x20\x43\x41\x31\x0b\x30\x09\x06\x03"
"\x55\x04\x06\x13\x02\x53\x45\x82\x09\x00\x99\x32\xde\x61\x0e\x40"
"\x19\x8a\x30\x0c\x06\x03\x55\x1d\x13\x04\x05\x30\x03\x01\x01\xff"
"\x30\x0b\x06\x03\x55\x1d\x0f\x04\x04\x03\x02\x01\xe6\x30\x0d\x06"
"\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x05\x05\x00\x03\x81\x81\x00"
"\x52\x9b\xe4\x0e\xee\xc2\x5d\xb7\xf1\xba\x47\xe3\xfe\xaf\x3d\x51"
"\x10\xfd\xe8\x0d\x14\x58\x05\x36\xa7\xeb\xd8\x05\xe5\x27\x6f\x51"
"\xb8\xec\x90\xd9\x03\xe1\xbc\x9c\x93\x38\x21\x5c\xaf\x4e\x6c\x7b"
"\x6c\x65\xa9\x92\xcd\x94\xef\xa8\xae\x90\x12\x14\x78\x2d\xa3\x15"
"\xaa\x42\xf1\xd9\x44\x64\x2c\x3c\xc0\xbd\x3a\x48\xd8\x80\x45\x8b"
"\xd1\x79\x82\xe0\x0f\xdf\x08\x3c\x60\x21\x6f\x31\x47\x98\xae\x2f"
"\xcb\xb1\xa1\xb9\xc1\xa3\x71\x5e\x4a\xc2\x67\xdf\x66\x0a\x51\xb5"
"\xad\x60\x05\xdb\x02\xd4\x1a\xd2\xb9\x4e\x01\x08\x2b\xc3\x57\xaf",
624 },
{
"\x30\x82\x02\x54\x30\x82\x01\xbd\xa0\x03\x02\x01\x02\x02\x01\x08"
"\x30\x0d\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x05\x05\x00\x30"
"\x2a\x31\x1b\x30\x19\x06\x03\x55\x04\x03\x0c\x12\x68\x78\x35\x30"
"\x39\x20\x54\x65\x73\x74\x20\x52\x6f\x6f\x74\x20\x43\x41\x31\x0b"
"\x30\x09\x06\x03\x55\x04\x06\x13\x02\x53\x45\x30\x1e\x17\x0d\x30"
"\x39\x30\x34\x32\x36\x32\x30\x32\x39\x34\x30\x5a\x17\x0d\x31\x39"
"\x30\x34\x32\x34\x32\x30\x32\x39\x34\x30\x5a\x30\x1b\x31\x0b\x30"
"\x09\x06\x03\x55\x04\x06\x13\x02\x53\x45\x31\x0c\x30\x0a\x06\x03"
"\x55\x04\x03\x0c\x03\x6b\x64\x63\x30\x81\x9f\x30\x0d\x06\x09\x2a"
"\x86\x48\x86\xf7\x0d\x01\x01\x01\x05\x00\x03\x81\x8d\x00\x30\x81"
"\x89\x02\x81\x81\x00\xd2\x41\x7a\xf8\x4b\x55\xb2\xaf\x11\xf9\x43"
"\x9b\x43\x81\x09\x3b\x9a\x94\xcf\x00\xf4\x85\x75\x92\xd7\x2a\xa5"
"\x11\xf1\xa8\x50\x6e\xc6\x84\x74\x24\x17\xda\x84\xc8\x03\x37\xb2"
"\x20\xf3\xba\xb5\x59\x36\x21\x4d\xab\x70\xe2\xc3\x09\x93\x68\x14"
"\x12\x79\xc5\xbb\x9e\x1b\x4a\xf0\xc6\x24\x59\x25\xc3\x1c\xa8\x70"
"\x66\x5b\x3e\x41\x8e\xe3\x25\x71\x9a\x94\xa0\x5b\x46\x91\x6f\xdd"
"\x58\x14\xec\x89\xe5\x8c\x96\xc5\x38\x60\xe4\xab\xf2\x75\xee\x6e"
"\x62\xfc\xe1\xbd\x03\x47\xff\xc4\xbe\x0f\xca\x70\x73\xe3\x74\x58"
"\x3a\x2f\x04\x2d\x39\x02\x03\x01\x00\x01\xa3\x81\x98\x30\x81\x95"
"\x30\x09\x06\x03\x55\x1d\x13\x04\x02\x30\x00\x30\x0b\x06\x03\x55"
"\x1d\x0f\x04\x04\x03\x02\x05\xe0\x30\x12\x06\x03\x55\x1d\x25\x04"
"\x0b\x30\x09\x06\x07\x2b\x06\x01\x05\x02\x03\x05\x30\x1d\x06\x03"
"\x55\x1d\x0e\x04\x16\x04\x14\x3a\xd3\x73\xff\xab\xdb\x7d\x8d\xc6"
"\x3a\xa2\x26\x3e\xae\x78\x95\x80\xc9\xe6\x31\x30\x48\x06\x03\x55"
"\x1d\x11\x04\x41\x30\x3f\xa0\x3d\x06\x06\x2b\x06\x01\x05\x02\x02"
"\xa0\x33\x30\x31\xa0\x0d\x1b\x0b\x54\x45\x53\x54\x2e\x48\x35\x4c"
"\x2e\x53\x45\xa1\x20\x30\x1e\xa0\x03\x02\x01\x01\xa1\x17\x30\x15"
"\x1b\x06\x6b\x72\x62\x74\x67\x74\x1b\x0b\x54\x45\x53\x54\x2e\x48"
"\x35\x4c\x2e\x53\x45\x30\x0d\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01"
"\x01\x05\x05\x00\x03\x81\x81\x00\x83\xf4\x14\xa7\x6e\x59\xff\x80"
"\x64\xe7\xfa\xcf\x13\x80\x86\xe1\xed\x02\x38\xad\x96\x72\x25\xe5"
"\x06\x7a\x9a\xbc\x24\x74\xa9\x75\x55\xb2\x49\x80\x69\x45\x95\x4a"
"\x4c\x76\xa9\xe3\x4e\x49\xd3\xc2\x69\x5a\x95\x03\xeb\xba\x72\x23"
"\x9c\xfd\x3d\x8b\xc6\x07\x82\x3b\xf4\xf3\xef\x6c\x2e\x9e\x0b\xac"
"\x9e\x6c\xbb\x37\x4a\xa1\x9e\x73\xd1\xdc\x97\x61\xba\xfc\xd3\x49"
"\xa6\xc2\x4c\x55\x2e\x06\x37\x76\xb5\xef\x57\xe7\x57\x58\x8a\x71"
"\x63\xf3\xeb\xe7\x55\x68\x0d\xf6\x46\x4c\xfb\xf9\x43\xbb\x0c\x92"
"\x4f\x4e\x22\x7b\x63\xe8\x4f\x9c",
600
}
};
static int
test_cert(void)
{
Certificate c, c2;
size_t size;
size_t i;
int ret;
for (i = 0; i < sizeof(certs)/sizeof(certs[0]); i++) {
ret = decode_Certificate((unsigned char *)certs[i].cert,
certs[i].len, &c, &size);
if (ret)
return ret;
ret = copy_Certificate(&c, &c2);
free_Certificate(&c);
if (ret)
return ret;
free_Certificate(&c2);
}
return 0;
}
static int
cmp_TESTLargeTag (void *a, void *b)
{
TESTLargeTag *aa = a;
TESTLargeTag *ab = b;
COMPARE_INTEGER(aa,ab,foo);
COMPARE_INTEGER(aa,ab,bar);
return 0;
}
static int
test_large_tag (void)
{
struct test_case tests[] = {
{ NULL, 15, "\x30\x0d\xbf\x7f\x03\x02\x01\x01\xbf\x81\x00\x03\x02\x01\x02", "large tag 1" }
};
int ntests = sizeof(tests) / sizeof(*tests);
TESTLargeTag lt1;
memset(&lt1, 0, sizeof(lt1));
lt1.foo = 1;
lt1.bar = 2;
tests[0].val = &lt1;
return generic_test (tests, ntests, sizeof(TESTLargeTag),
(generic_encode)encode_TESTLargeTag,
(generic_length)length_TESTLargeTag,
(generic_decode)decode_TESTLargeTag,
(generic_free)free_TESTLargeTag,
cmp_TESTLargeTag,
(generic_copy)copy_TESTLargeTag);
}
struct test_data {
int ok;
size_t len;
size_t expected_len;
void *data;
};
static int
check_tag_length(void)
{
struct test_data td[] = {
{ 1, 3, 3, "\x02\x01\x00"},
{ 1, 3, 3, "\x02\x01\x7f"},
{ 1, 4, 4, "\x02\x02\x00\x80"},
{ 1, 4, 4, "\x02\x02\x01\x00"},
{ 1, 4, 4, "\x02\x02\x02\x00"},
{ 0, 3, 0, "\x02\x02\x00"},
{ 0, 3, 0, "\x02\x7f\x7f"},
{ 0, 4, 0, "\x02\x03\x00\x80"},
{ 0, 4, 0, "\x02\x7f\x01\x00"},
{ 0, 5, 0, "\x02\xff\x7f\x02\x00"}
};
size_t sz;
TESTuint32 values[] = {0, 127, 128, 256, 512,
0, 127, 128, 256, 512 };
TESTuint32 u;
int i, ret, failed = 0;
void *buf;
for (i = 0; i < sizeof(td)/sizeof(td[0]); i++) {
struct map_page *page;
buf = map_alloc(OVERRUN, td[i].data, td[i].len, &page);
ret = decode_TESTuint32(buf, td[i].len, &u, &sz);
if (ret) {
if (td[i].ok) {
printf("failed with tag len test %d\n", i);
failed = 1;
}
} else {
if (td[i].ok == 0) {
printf("failed with success for tag len test %d\n", i);
failed = 1;
}
if (td[i].expected_len != sz) {
printf("wrong expected size for tag test %d\n", i);
failed = 1;
}
if (values[i] != u) {
printf("wrong value for tag test %d\n", i);
failed = 1;
}
}
map_free(page, "test", "decode");
}
return failed;
}
static int
check_tag_length64(void)
{
struct test_data td[] = {
{ 1, 3, 3, "\x02\x01\x00"},
{ 1, 7, 7, "\x02\x05\x01\xff\xff\xff\xff"},
{ 1, 7, 7, "\x02\x05\x02\x00\x00\x00\x00"},
{ 1, 9, 9, "\x02\x07\x7f\xff\xff\xff\xff\xff\xff"},
{ 1, 10, 10, "\x02\x08\x00\x80\x00\x00\x00\x00\x00\x00"},
{ 1, 10, 10, "\x02\x08\x7f\xff\xff\xff\xff\xff\xff\xff"},
{ 1, 11, 11, "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xff"},
{ 0, 3, 0, "\x02\x02\x00"},
{ 0, 3, 0, "\x02\x7f\x7f"},
{ 0, 4, 0, "\x02\x03\x00\x80"},
{ 0, 4, 0, "\x02\x7f\x01\x00"},
{ 0, 5, 0, "\x02\xff\x7f\x02\x00"}
};
size_t sz;
TESTuint64 values[] = {0, 8589934591LL, 8589934592LL,
36028797018963967LL, 36028797018963968LL,
9223372036854775807LL, 18446744073709551615ULL,
0, 127, 128, 256, 512 };
TESTuint64 u;
int i, ret, failed = 0;
void *buf;
if (sizeof(TESTuint64) != sizeof(uint64_t)) {
ret += 1;
printf("sizeof(TESTuint64) %d != sizeof(uint64_t) %d\n",
(int)sizeof(TESTuint64), (int)sizeof(uint64_t));
}
for (i = 0; i < sizeof(td)/sizeof(td[0]); i++) {
struct map_page *page;
buf = map_alloc(OVERRUN, td[i].data, td[i].len, &page);
ret = decode_TESTuint64(buf, td[i].len, &u, &sz);
if (ret) {
if (td[i].ok) {
printf("failed with tag len test %d\n", i);
printf("ret = %d\n", ret);
failed = 1;
}
} else {
if (td[i].ok == 0) {
printf("failed with success for tag len test %d\n", i);
failed = 1;
}
if (td[i].expected_len != sz) {
printf("wrong expected size for tag test %d\n", i);
printf("sz = %lu\n", (unsigned long)sz);
failed = 1;
}
if (values[i] != u) {
printf("wrong value for tag test %d\n", i);
printf("Expected value: %llu\nActual value: %llu\n",
(unsigned long long)values[i], (unsigned long long)u);
failed = 1;
}
}
map_free(page, "test", "decode");
}
return failed;
}
static int
check_tag_length64s(void)
{
struct test_data td[] = {
{ 1, 3, 3, "\x02\x01\x00"},
{ 1, 7, 7, "\x02\x05\xfe\x00\x00\x00\x01"},
{ 1, 7, 7, "\x02\x05\xfe\x00\x00\x00\x00"},
{ 1, 9, 9, "\x02\x07\x80\x00\x00\x00\x00\x00\x01"},
{ 1, 9, 9, "\x02\x07\x80\x00\x00\x00\x00\x00\x00"},
{ 1, 10, 10, "\x02\x08\x80\x00\x00\x00\x00\x00\x00\x01"},
{ 1, 9, 9, "\x02\x07\x80\x00\x00\x00\x00\x00\x01"},
{ 0, 3, 0, "\x02\x02\x00"},
{ 0, 3, 0, "\x02\x7f\x7f"},
{ 0, 4, 0, "\x02\x03\x00\x80"},
{ 0, 4, 0, "\x02\x7f\x01\x00"},
{ 0, 5, 0, "\x02\xff\x7f\x02\x00"}
};
size_t sz;
TESTint64 values[] = {0, -8589934591LL, -8589934592LL,
-36028797018963967LL, -36028797018963968LL,
-9223372036854775807LL, -36028797018963967LL,
0, 127, 128, 256, 512 };
TESTint64 u;
int i, ret, failed = 0;
void *buf;
for (i = 0; i < sizeof(td)/sizeof(td[0]); i++) {
struct map_page *page;
buf = map_alloc(OVERRUN, td[i].data, td[i].len, &page);
ret = decode_TESTint64(buf, td[i].len, &u, &sz);
if (ret) {
if (td[i].ok) {
printf("failed with tag len test %d\n", i);
printf("ret = %d\n", ret);
failed = 1;
}
} else {
if (td[i].ok == 0) {
printf("failed with success for tag len test %d\n", i);
failed = 1;
}
if (td[i].expected_len != sz) {
printf("wrong expected size for tag test %d\n", i);
printf("sz = %lu\n", (unsigned long)sz);
failed = 1;
}
if (values[i] != u) {
printf("wrong value for tag test %d\n", i);
printf("Expected value: %lld\nActual value: %lld\n",
(long long)values[i], (long long)u);
failed = 1;
}
}
map_free(page, "test", "decode");
}
return failed;
}
static int
cmp_TESTChoice (void *a, void *b)
{
return 0;
}
static int
test_choice (void)
{
struct test_case tests[] = {
{ NULL, 5, "\xa1\x03\x02\x01\x01", "large choice 1" },
{ NULL, 5, "\xa2\x03\x02\x01\x02", "large choice 2" }
};
int ret = 0, ntests = sizeof(tests) / sizeof(*tests);
TESTChoice1 c1;
TESTChoice1 c2_1;
TESTChoice2 c2_2;
memset(&c1, 0, sizeof(c1));
c1.element = choice_TESTChoice1_i1;
c1.u.i1 = 1;
tests[0].val = &c1;
memset(&c2_1, 0, sizeof(c2_1));
c2_1.element = choice_TESTChoice1_i2;
c2_1.u.i2 = 2;
tests[1].val = &c2_1;
ret += generic_test (tests, ntests, sizeof(TESTChoice1),
(generic_encode)encode_TESTChoice1,
(generic_length)length_TESTChoice1,
(generic_decode)decode_TESTChoice1,
(generic_free)free_TESTChoice1,
cmp_TESTChoice,
(generic_copy)copy_TESTChoice1);
memset(&c2_2, 0, sizeof(c2_2));
c2_2.element = choice_TESTChoice2_asn1_ellipsis;
c2_2.u.asn1_ellipsis.data = "\xa2\x03\x02\x01\x02";
c2_2.u.asn1_ellipsis.length = 5;
tests[1].val = &c2_2;
ret += generic_test (tests, ntests, sizeof(TESTChoice2),
(generic_encode)encode_TESTChoice2,
(generic_length)length_TESTChoice2,
(generic_decode)decode_TESTChoice2,
(generic_free)free_TESTChoice2,
cmp_TESTChoice,
(generic_copy)copy_TESTChoice2);
return ret;
}
static int
cmp_TESTImplicit (void *a, void *b)
{
TESTImplicit *aa = a;
TESTImplicit *ab = b;
COMPARE_INTEGER(aa,ab,ti1);
COMPARE_INTEGER(aa,ab,ti2.foo);
COMPARE_INTEGER(aa,ab,ti3);
return 0;
}
/*
UNIV CONS Sequence 14
CONTEXT PRIM 0 1 00
CONTEXT CONS 1 6
CONTEXT CONS 127 3
UNIV PRIM Integer 1 02
CONTEXT PRIM 2 1 03
*/
static int
test_implicit (void)
{
struct test_case tests[] = {
{ NULL, 16,
"\x30\x0e\x80\x01\x00\xa1\x06\xbf"
"\x7f\x03\x02\x01\x02\x82\x01\x03",
"implicit 1" }
};
int ret = 0, ntests = sizeof(tests) / sizeof(*tests);
TESTImplicit c0;
memset(&c0, 0, sizeof(c0));
c0.ti1 = 0;
c0.ti2.foo = 2;
c0.ti3 = 3;
tests[0].val = &c0;
ret += generic_test (tests, ntests, sizeof(TESTImplicit),
(generic_encode)encode_TESTImplicit,
(generic_length)length_TESTImplicit,
(generic_decode)decode_TESTImplicit,
(generic_free)free_TESTImplicit,
cmp_TESTImplicit,
(generic_copy)copy_TESTImplicit);
#ifdef IMPLICIT_TAGGING_WORKS
ret += generic_test (tests, ntests, sizeof(TESTImplicit2),
(generic_encode)encode_TESTImplicit2,
(generic_length)length_TESTImplicit2,
(generic_decode)decode_TESTImplicit2,
(generic_free)free_TESTImplicit2,
cmp_TESTImplicit,
NULL);
#endif /* IMPLICIT_TAGGING_WORKS */
return ret;
}
static int
cmp_TESTAlloc (void *a, void *b)
{
TESTAlloc *aa = a;
TESTAlloc *ab = b;
IF_OPT_COMPARE(aa,ab,tagless) {
COMPARE_INTEGER(aa,ab,tagless->ai);
}
COMPARE_INTEGER(aa,ab,three);
IF_OPT_COMPARE(aa,ab,tagless2) {
COMPARE_OPT_OCTECT_STRING(aa, ab, tagless2);
}
return 0;
}
/*
UNIV CONS Sequence 12
UNIV CONS Sequence 5
CONTEXT CONS 0 3
UNIV PRIM Integer 1 01
CONTEXT CONS 1 3
UNIV PRIM Integer 1 03
UNIV CONS Sequence 5
CONTEXT CONS 1 3
UNIV PRIM Integer 1 03
UNIV CONS Sequence 8
CONTEXT CONS 1 3
UNIV PRIM Integer 1 04
UNIV PRIM Integer 1 05
*/
static int
test_taglessalloc (void)
{
struct test_case tests[] = {
{ NULL, 14,
"\x30\x0c\x30\x05\xa0\x03\x02\x01\x01\xa1\x03\x02\x01\x03",
"alloc 1" },
{ NULL, 7,
"\x30\x05\xa1\x03\x02\x01\x03",
"alloc 2" },
{ NULL, 10,
"\x30\x08\xa1\x03\x02\x01\x04\x02\x01\x05",
"alloc 3" }
};
int ret = 0, ntests = sizeof(tests) / sizeof(*tests);
TESTAlloc c1, c2, c3;
heim_any any3;
memset(&c1, 0, sizeof(c1));
c1.tagless = ecalloc(1, sizeof(*c1.tagless));
c1.tagless->ai = 1;
c1.three = 3;
tests[0].val = &c1;
memset(&c2, 0, sizeof(c2));
c2.tagless = NULL;
c2.three = 3;
tests[1].val = &c2;
memset(&c3, 0, sizeof(c3));
c3.tagless = NULL;
c3.three = 4;
c3.tagless2 = &any3;
any3.data = "\x02\x01\x05";
any3.length = 3;
tests[2].val = &c3;
ret += generic_test (tests, ntests, sizeof(TESTAlloc),
(generic_encode)encode_TESTAlloc,
(generic_length)length_TESTAlloc,
(generic_decode)decode_TESTAlloc,
(generic_free)free_TESTAlloc,
cmp_TESTAlloc,
(generic_copy)copy_TESTAlloc);
free(c1.tagless);
return ret;
}
static int
cmp_TESTOptional (void *a, void *b)
{
TESTOptional *aa = a;
TESTOptional *ab = b;
IF_OPT_COMPARE(aa,ab,zero) {
COMPARE_OPT_INTEGER(aa,ab,zero);
}
IF_OPT_COMPARE(aa,ab,one) {
COMPARE_OPT_INTEGER(aa,ab,one);
}
return 0;
}
/*
UNIV CONS Sequence 5
CONTEXT CONS 0 3
UNIV PRIM Integer 1 00
UNIV CONS Sequence 5
CONTEXT CONS 1 3
UNIV PRIM Integer 1 03
UNIV CONS Sequence 10
CONTEXT CONS 0 3
UNIV PRIM Integer 1 00
CONTEXT CONS 1 3
UNIV PRIM Integer 1 01
*/
static int
test_optional (void)
{
struct test_case tests[] = {
{ NULL, 2,
"\x30\x00",
"optional 0" },
{ NULL, 7,
"\x30\x05\xa0\x03\x02\x01\x00",
"optional 1" },
{ NULL, 7,
"\x30\x05\xa1\x03\x02\x01\x01",
"optional 2" },
{ NULL, 12,
"\x30\x0a\xa0\x03\x02\x01\x00\xa1\x03\x02\x01\x01",
"optional 3" }
};
int ret = 0, ntests = sizeof(tests) / sizeof(*tests);
TESTOptional c0, c1, c2, c3;
int zero = 0;
int one = 1;
c0.zero = NULL;
c0.one = NULL;
tests[0].val = &c0;
c1.zero = &zero;
c1.one = NULL;
tests[1].val = &c1;
c2.zero = NULL;
c2.one = &one;
tests[2].val = &c2;
c3.zero = &zero;
c3.one = &one;
tests[3].val = &c3;
ret += generic_test (tests, ntests, sizeof(TESTOptional),
(generic_encode)encode_TESTOptional,
(generic_length)length_TESTOptional,
(generic_decode)decode_TESTOptional,
(generic_free)free_TESTOptional,
cmp_TESTOptional,
(generic_copy)copy_TESTOptional);
return ret;
}
static int
check_fail_largetag(void)
{
struct test_case tests[] = {
{NULL, 14, "\x30\x0c\xbf\x87\xff\xff\xff\xff\xff\x7f\x03\x02\x01\x01",
"tag overflow"},
{NULL, 0, "", "empty buffer"},
{NULL, 7, "\x30\x05\xa1\x03\x02\x02\x01",
"one too short" },
{NULL, 7, "\x30\x04\xa1\x03\x02\x02\x01",
"two too short" },
{NULL, 7, "\x30\x03\xa1\x03\x02\x02\x01",
"three too short" },
{NULL, 7, "\x30\x02\xa1\x03\x02\x02\x01",
"four too short" },
{NULL, 7, "\x30\x01\xa1\x03\x02\x02\x01",
"five too short" },
{NULL, 7, "\x30\x00\xa1\x03\x02\x02\x01",
"six too short" },
{NULL, 7, "\x30\x05\xa1\x04\x02\x02\x01",
"inner one too long" },
{NULL, 7, "\x30\x00\xa1\x02\x02\x02\x01",
"inner one too short" },
{NULL, 8, "\x30\x05\xbf\x7f\x03\x02\x02\x01",
"inner one too short"},
{NULL, 8, "\x30\x06\xbf\x64\x03\x02\x01\x01",
"wrong tag"},
{NULL, 10, "\x30\x08\xbf\x9a\x9b\x38\x03\x02\x01\x01",
"still wrong tag"}
};
int ntests = sizeof(tests) / sizeof(*tests);
return generic_decode_fail(tests, ntests, sizeof(TESTLargeTag),
(generic_decode)decode_TESTLargeTag);
}
static int
check_fail_sequence(void)
{
struct test_case tests[] = {
{NULL, 0, "", "empty buffer"},
{NULL, 24,
"\x30\x16\xa0\x03\x02\x01\x01\xa1\x08\x30\x06\xbf\x7f\x03\x02\x01\x01"
"\x02\x01\x01\xa2\x03\x02\x01\x01",
"missing one byte from the end, internal length ok"},
{NULL, 25,
"\x30\x18\xa0\x03\x02\x01\x01\xa1\x08\x30\x06\xbf\x7f\x03\x02\x01\x01"
"\x02\x01\x01\xa2\x03\x02\x01\x01",
"inner length one byte too long"},
{NULL, 24,
"\x30\x17\xa0\x03\x02\x01\x01\xa1\x08\x30\x06\xbf\x7f\x03\x02\x01"
"\x01\x02\x01\x01\xa2\x03\x02\x01\x01",
"correct buffer but missing one too short"}
};
int ntests = sizeof(tests) / sizeof(*tests);
return generic_decode_fail(tests, ntests, sizeof(TESTSeq),
(generic_decode)decode_TESTSeq);
}
static int
check_fail_choice(void)
{
struct test_case tests[] = {
{NULL, 6,
"\xa1\x02\x02\x01\x01",
"choice one too short"},
{NULL, 6,
"\xa1\x03\x02\x02\x01",
"choice one too short inner"}
};
int ntests = sizeof(tests) / sizeof(*tests);
return generic_decode_fail(tests, ntests, sizeof(TESTChoice1),
(generic_decode)decode_TESTChoice1);
}
static int
check_seq(void)
{
TESTSeqOf seq;
TESTInteger i;
int ret;
seq.val = NULL;
seq.len = 0;
ret = add_TESTSeqOf(&seq, &i);
if (ret) { printf("failed adding\n"); goto out; }
ret = add_TESTSeqOf(&seq, &i);
if (ret) { printf("failed adding\n"); goto out; }
ret = add_TESTSeqOf(&seq, &i);
if (ret) { printf("failed adding\n"); goto out; }
ret = add_TESTSeqOf(&seq, &i);
if (ret) { printf("failed adding\n"); goto out; }
ret = remove_TESTSeqOf(&seq, seq.len - 1);
if (ret) { printf("failed removing\n"); goto out; }
ret = remove_TESTSeqOf(&seq, 2);
if (ret) { printf("failed removing\n"); goto out; }
ret = remove_TESTSeqOf(&seq, 0);
if (ret) { printf("failed removing\n"); goto out; }
ret = remove_TESTSeqOf(&seq, 0);
if (ret) { printf("failed removing\n"); goto out; }
ret = remove_TESTSeqOf(&seq, 0);
if (ret == 0) {
printf("can remove from empty list");
return 1;
}
if (seq.len != 0) {
printf("seq not empty!");
return 1;
}
free_TESTSeqOf(&seq);
ret = 0;
out:
return ret;
}
#define test_seq_of(type, ok, ptr) \
{ \
heim_octet_string os; \
size_t size; \
type decode; \
ASN1_MALLOC_ENCODE(type, os.data, os.length, ptr, &size, ret); \
if (ret) \
return ret; \
if (os.length != size) \
abort(); \
ret = decode_##type(os.data, os.length, &decode, &size); \
free(os.data); \
if (ret) { \
if (ok) \
return 1; \
} else { \
free_##type(&decode); \
if (!ok) \
return 1; \
if (size != 0) \
return 1; \
} \
return 0; \
}
static int
check_seq_of_size(void)
{
#if 0 /* template */
TESTInteger integers[4] = { 1, 2, 3, 4 };
int ret;
{
TESTSeqSizeOf1 ssof1f1 = { 1, integers };
TESTSeqSizeOf1 ssof1ok1 = { 2, integers };
TESTSeqSizeOf1 ssof1f2 = { 3, integers };
test_seq_of(TESTSeqSizeOf1, 0, &ssof1f1);
test_seq_of(TESTSeqSizeOf1, 1, &ssof1ok1);
test_seq_of(TESTSeqSizeOf1, 0, &ssof1f2);
}
{
TESTSeqSizeOf2 ssof2f1 = { 0, NULL };
TESTSeqSizeOf2 ssof2ok1 = { 1, integers };
TESTSeqSizeOf2 ssof2ok2 = { 2, integers };
TESTSeqSizeOf2 ssof2f2 = { 3, integers };
test_seq_of(TESTSeqSizeOf2, 0, &ssof2f1);
test_seq_of(TESTSeqSizeOf2, 1, &ssof2ok1);
test_seq_of(TESTSeqSizeOf2, 1, &ssof2ok2);
test_seq_of(TESTSeqSizeOf2, 0, &ssof2f2);
}
{
TESTSeqSizeOf3 ssof3f1 = { 0, NULL };
TESTSeqSizeOf3 ssof3ok1 = { 1, integers };
TESTSeqSizeOf3 ssof3ok2 = { 2, integers };
test_seq_of(TESTSeqSizeOf3, 0, &ssof3f1);
test_seq_of(TESTSeqSizeOf3, 1, &ssof3ok1);
test_seq_of(TESTSeqSizeOf3, 1, &ssof3ok2);
}
{
TESTSeqSizeOf4 ssof4ok1 = { 0, NULL };
TESTSeqSizeOf4 ssof4ok2 = { 1, integers };
TESTSeqSizeOf4 ssof4ok3 = { 2, integers };
TESTSeqSizeOf4 ssof4f1 = { 3, integers };
test_seq_of(TESTSeqSizeOf4, 1, &ssof4ok1);
test_seq_of(TESTSeqSizeOf4, 1, &ssof4ok2);
test_seq_of(TESTSeqSizeOf4, 1, &ssof4ok3);
test_seq_of(TESTSeqSizeOf4, 0, &ssof4f1);
}
#endif
return 0;
}
static int
check_TESTMechTypeList(void)
{
TESTMechTypeList tl;
unsigned oid1[] = { 1, 2, 840, 48018, 1, 2, 2};
unsigned oid2[] = { 1, 2, 840, 113554, 1, 2, 2};
unsigned oid3[] = { 1, 3, 6, 1, 4, 1, 311, 2, 2, 30};
unsigned oid4[] = { 1, 3, 6, 1, 4, 1, 311, 2, 2, 10};
TESTMechType array[] = {{ 7, oid1 },
{ 7, oid2 },
{ 10, oid3 },
{ 10, oid4 }};
size_t size, len;
void *ptr;
int ret;
tl.len = 4;
tl.val = array;
ASN1_MALLOC_ENCODE(TESTMechTypeList, ptr, len, &tl, &size, ret);
if (ret)
errx(1, "TESTMechTypeList: %d", ret);
if (len != size)
abort();
return 0;
}
int
main(int argc, char **argv)
{
int ret = 0;
ret += test_principal ();
ret += test_authenticator();
ret += test_krb_error();
ret += test_Name();
ret += test_bit_string();
ret += test_bit_string_rfc1510();
ret += test_time();
ret += test_cert();
ret += check_tag_length();
ret += check_tag_length64();
ret += check_tag_length64s();
ret += test_large_tag();
ret += test_choice();
ret += test_implicit();
ret += test_taglessalloc();
ret += test_optional();
ret += check_fail_largetag();
ret += check_fail_sequence();
ret += check_fail_choice();
ret += check_seq();
ret += check_seq_of_size();
ret += check_TESTMechTypeList();
return ret;
}
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