/* * 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "check-common.h" static int my_copy_vers_called; static int my_free_vers_called; #include #if UINT_MAX == 0xffffffff // 32 bit #define DISABLE_TEST_64 #endif int my_copy_vers(const my_vers *from, my_vers *to) { my_copy_vers_called++; *to = *from; return 0; } void my_free_vers(my_vers *v) { my_free_vers_called++; v->v = -1; } 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" }; 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", NULL }, { { KRB5_NT_PRINCIPAL, { 2, lharoot_princ } }, "SU.SE", NULL }, { { KRB5_NT_SRV_HST, { 2, datan_princ } }, "E.KTH.SE", 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, "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_OCTET_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 = ×[0]; tests[1].val = ×[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; memset(&c, 0, sizeof(c)); ret = copy_Certificate(&c, &c2); if (ret) return ret; free_Certificate(&c2); 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; } struct { const char *sd; size_t len; } signeddata[] = { { "\x30\x80\x02\x01\x03\x31\x0b\x30\x09\x06\x05\x2b\x0e\x03\x02\x1a" "\x05\x00\x30\x80\x06\x07\x2b\x06\x01\x05\x02\x03\x03\xa0\x80\x24" "\x80\x04\x50\x30\x4e\xa0\x2b\x30\x29\xa0\x03\x02\x01\x12\xa1\x22" "\x04\x20\x78\xf4\x86\x31\xc6\xc2\xc9\xcb\xef\x0c\xd7\x3a\x2a\xcd" "\x8c\x13\x34\x83\xb1\x5c\xa8\xbe\xbf\x2f\xea\xd2\xbb\xd8\x8c\x18" "\x47\x01\xa1\x1f\x30\x1d\xa0\x03\x02\x01\x0c\xa1\x16\x04\x14\xa6" "\x2c\x52\xb2\x80\x98\x30\x40\xbc\x5f\xb0\x77\x2d\x8a\xd7\xa1\xda" "\x3c\xc5\x62\x00\x00\x00\x00\x00\x00\xa0\x82\x02\x09\x30\x82\x02" "\x05\x30\x82\x01\x6e\xa0\x03\x02\x01\x02\x02\x04\x49\x75\x57\xbf" "\x30\x0b\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x05\x30\x3b\x31" "\x1f\x30\x1d\x06\x03\x55\x04\x03\x0c\x16\x63\x6f\x6d\x2e\x61\x70" "\x70\x6c\x65\x2e\x6b\x65\x72\x62\x65\x72\x6f\x73\x2e\x6b\x64\x63" "\x31\x18\x30\x16\x06\x03\x55\x04\x0a\x0c\x0f\x53\x79\x73\x74\x65" "\x6d\x20\x49\x64\x65\x6e\x74\x69\x74\x79\x30\x1e\x17\x0d\x30\x39" "\x31\x32\x30\x34\x30\x30\x32\x30\x32\x34\x5a\x17\x0d\x32\x39\x31" "\x31\x32\x39\x30\x30\x32\x30\x32\x34\x5a\x30\x3b\x31\x1f\x30\x1d" "\x06\x03\x55\x04\x03\x0c\x16\x63\x6f\x6d\x2e\x61\x70\x70\x6c\x65" "\x2e\x6b\x65\x72\x62\x65\x72\x6f\x73\x2e\x6b\x64\x63\x31\x18\x30" "\x16\x06\x03\x55\x04\x0a\x0c\x0f\x53\x79\x73\x74\x65\x6d\x20\x49" "\x64\x65\x6e\x74\x69\x74\x79\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\xb2\xc5\x4b\x34\xe3\x93\x99\xbb\xaa\xd1\x70\x62" "\x6c\x9c\xcc\xa6\xbc\x47\xc3\x23\xff\x15\xb9\x11\x27\x0a\xf8\x55" "\x4c\xb2\x43\x34\x75\xad\x55\xbb\xb9\x8a\xd0\x25\x64\xa4\x8c\x82" "\x74\x5d\x89\x52\xe2\x76\x75\x08\x67\xb5\x9c\x9c\x69\x86\x0c\x6d" "\x79\xf7\xa0\xbe\x42\x8f\x90\x46\x0c\x18\xf4\x7a\x56\x17\xa4\x65" "\x00\x3a\x5e\x3e\xbf\xbc\xf5\xe2\x2c\x26\x03\x52\xdd\xd4\x85\x3f" "\x03\xd7\x0c\x45\x7f\xff\xdd\x1e\x70\x6c\x9f\xb0\x8c\xd0\x33\xad" "\x92\x54\x17\x9d\x88\x89\x1a\xee\xef\xf7\x96\x3e\x68\xc3\xd1\x60" "\x47\x86\x80\x5d\x02\x03\x01\x00\x01\xa3\x18\x30\x16\x30\x14\x06" "\x03\x55\x1d\x25\x04\x0d\x30\x0b\x06\x09\x2a\x86\x48\x86\xf7\x63" "\x64\x04\x04\x30\x0d\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x05" "\x05\x00\x03\x81\x81\x00\x9b\xbb\xaa\x63\x66\xd8\x70\x84\x3e\xf6" "\xa1\x3b\xf3\xe6\xd7\x3d\xfc\x4f\xc9\x45\xaa\x31\x43\x8d\xb5\x72" "\xe4\x34\x95\x7b\x6e\x5f\xe5\xc8\x5e\xaf\x12\x08\x6d\xd7\x25\x76" "\x40\xd5\xdc\x83\x7f\x2f\x74\xd1\x63\xc0\x7c\x26\x4d\x53\x10\xe7" "\xfa\xcc\xf2\x60\x41\x63\xdf\x56\xd6\xd9\xc0\xb4\xd0\x73\x99\x54" "\x40\xad\x90\x79\x2d\xd2\x5e\xcb\x13\x22\x2b\xd0\x76\xef\x8a\x48" "\xfd\xb2\x6e\xca\x04\x4e\x91\x3f\xb4\x63\xad\x22\x3a\xf7\x20\x9c" "\x4c\x0e\x47\x78\xe5\x2a\x85\x0e\x90\x7a\xce\x46\xe6\x15\x02\xb0" "\x83\xe7\xac\xfa\x92\xf8\x31\x81\xe8\x30\x81\xe5\x02\x01\x01\x30" "\x43\x30\x3b\x31\x1f\x30\x1d\x06\x03\x55\x04\x03\x0c\x16\x63\x6f" "\x6d\x2e\x61\x70\x70\x6c\x65\x2e\x6b\x65\x72\x62\x65\x72\x6f\x73" "\x2e\x6b\x64\x63\x31\x18\x30\x16\x06\x03\x55\x04\x0a\x0c\x0f\x53" "\x79\x73\x74\x65\x6d\x20\x49\x64\x65\x6e\x74\x69\x74\x79\x02\x04" "\x49\x75\x57\xbf\x30\x09\x06\x05\x2b\x0e\x03\x02\x1a\x05\x00\x30" "\x0d\x06\x09\x2a\x86\x48\x86\xf7\x0d\x01\x01\x01\x05\x00\x04\x81" "\x80\x50\x2c\x69\xe1\xd2\xc4\xd1\xcc\xdc\xe0\xe9\x8a\x6b\x6a\x97" "\x1b\xb4\xe0\xa8\x20\xbe\x09\x6d\xe1\x55\x5f\x07\x70\x94\x2e\x14" "\xed\x4e\xb1\x69\x75\x40\xbb\x99\x87\xed\x23\x50\x27\x5f\xaa\xc4" "\x84\x60\x06\xfe\x45\xfd\x7e\x1b\x18\xe0\x0b\x77\x35\x2a\xb2\xf2" "\xe0\x88\x31\xad\x82\x31\x4a\xbc\x6d\x71\x62\xe6\x4d\x33\xb4\x09" "\x6e\x3f\x14\x12\xf2\x89\x29\x31\x84\x60\x2b\xa8\x2d\xe6\xca\x2f" "\x03\x3d\xd4\x69\x89\xb3\x98\xfd\xac\x63\x14\xaf\x6a\x52\x2a\xac" "\xe3\x8e\xfa\x21\x41\x8f\xcc\x04\x2d\x52\xee\x49\x54\x0d\x58\x51" "\x77\x00\x00", 883 } }; static int test_SignedData(void) { SignedData sd; size_t size, i; int ret; for (i = 0; i < sizeof(signeddata) / sizeof(signeddata[0]); i++) { ret = decode_SignedData((unsigned char *)signeddata[i].sd, signeddata[i].len, &sd, &size); if (ret) return ret; free_SignedData(&sd); } 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(<1, 0, sizeof(lt1)); lt1.foo = 1; lt1.bar = 2; tests[0].val = <1; 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; } /* Test --decorate=TYPE:FIELD-TYPE:field-name[?] */ static int test_decorated(void) { TESTNotDecorated tnd; TESTDecorated td, td_copy; size_t len, size; void *ptr; int ret; memset(&td, 0, sizeof(td)); memset(&tnd, 0, sizeof(tnd)); my_copy_vers_called = 0; my_free_vers_called = 0; td.version = 3; td.version3.v = 5; td.privthing = &td; if ((td.version2 = malloc(sizeof(*td.version2))) == NULL) errx(1, "out of memory"); *td.version2 = 5; ASN1_MALLOC_ENCODE(TESTDecorated, ptr, len, &td, &size, ret); if (ret) { warnx("could not encode a TESTDecorated struct"); return 1; } ret = decode_TESTNotDecorated(ptr, len, &tnd, &size); if (ret) { warnx("could not decode a TESTDecorated struct as TESTNotDecorated"); return 1; } free(ptr); if (size != len) { warnx("TESTDecorated encoded size mismatch"); return 1; } if (td.version != tnd.version) { warnx("TESTDecorated did not decode as a TESTNotDecorated correctly"); return 1; } if (copy_TESTDecorated(&td, &td_copy)) { warnx("copy_TESTDecorated() failed"); return 1; } if (td.version != td_copy.version) { warnx("copy_TESTDecorated() did not work correctly (1)"); return 1; } if (td_copy.version2 == NULL || *td.version2 != *td_copy.version2) { warnx("copy_TESTDecorated() did not work correctly (2)"); return 1; } if (td.version3.v != td_copy.version3.v || my_copy_vers_called != 1) { warnx("copy_TESTDecorated() did not work correctly (3)"); return 1; } if (td_copy.privthing != 0) { warnx("copy_TESTDecorated() did not work correctly (4)"); return 1; } free_TESTDecorated(&td_copy); free_TESTDecorated(&td); if (td.version2) { warnx("free_TESTDecorated() did not work correctly (1)"); return 1; } if (td.version3.v != 0 || my_free_vers_called != 2) { warnx("free_TESTDecorated() did not work correctly (2)"); return 1; } if (td.privthing != 0) { warnx("free_TESTDecorated() did not work correctly (3)"); return 1; } return 0; } static int test_extensible_choice(void) { PA_FX_FAST_REQUEST r, r2; size_t len, size; void *ptr; int ret; memset(&r, 0, sizeof(r)); ret = copy_PA_FX_FAST_REQUEST(&r, &r2); if (ret) return ret; free_PA_FX_FAST_REQUEST(&r2); r.element = 0; r.u.asn1_ellipsis.data = "hello"; r.u.asn1_ellipsis.length = sizeof("hello") - 1; ret = copy_PA_FX_FAST_REQUEST(&r, &r2); if (ret) errx(1, "Out of memory"); if (r2.element != 0) errx(1, "Extensible CHOICE copy failure to set discriminant to 0"); if (r2.u.asn1_ellipsis.length != r.u.asn1_ellipsis.length) errx(1, "Extensible CHOICE copy failure to copy extension"); if (memcmp(r.u.asn1_ellipsis.data, r2.u.asn1_ellipsis.data, r.u.asn1_ellipsis.length) != 0) errx(1, "Extensible CHOICE copy failure to copy extension (2)"); free_PA_FX_FAST_REQUEST(&r2); ASN1_MALLOC_ENCODE(PA_FX_FAST_REQUEST, ptr, len, &r, &size, ret); if (ret || len != size) errx(1, "Extensible CHOICE encoding failure"); ret = decode_PA_FX_FAST_REQUEST(ptr, len, &r2, &size); if (ret || len != size) errx(1, "Extensible CHOICE decoding failure"); if (r2.element != 0) errx(1, "Extensible CHOICE decode failure to set discriminant to 0"); if (r2.u.asn1_ellipsis.length != r.u.asn1_ellipsis.length) errx(1, "Extensible CHOICE decode failure to copy extension"); if (memcmp(r.u.asn1_ellipsis.data, r2.u.asn1_ellipsis.data, r.u.asn1_ellipsis.length) != 0) errx(1, "Extensible CHOICE decode failure to copy extension (2)"); free_PA_FX_FAST_REQUEST(&r2); free(ptr); return 0; } static int test_decorated_choice(void) { TESTNotDecoratedChoice tndc; TESTDecoratedChoice tdc, tdc_copy; size_t len, size; void *ptr; int ret; memset(&tdc, 0, sizeof(tdc)); memset(&tndc, 0, sizeof(tndc)); my_copy_vers_called = 0; my_free_vers_called = 0; tdc.element = choice_TESTDecoratedChoice_version; tdc.u.version = 3; tdc.version3.v = 5; tdc.privthing = &tdc; if ((tdc.version2 = malloc(sizeof(*tdc.version2))) == NULL) errx(1, "out of memory"); *tdc.version2 = 5; ASN1_MALLOC_ENCODE(TESTDecoratedChoice, ptr, len, &tdc, &size, ret); if (ret) { warnx("could not encode a TESTDecoratedChoice struct"); return 1; } ret = decode_TESTNotDecoratedChoice(ptr, len, &tndc, &size); if (ret) { warnx("could not decode a TESTDecoratedChoice struct as TESTNotDecoratedChoice"); return 1; } free(ptr); if (size != len) { warnx("TESTDecoratedChoice encoded size mismatch"); return 1; } if ((int)tdc.element != (int)tndc.element || tdc.u.version != tndc.u.version) { warnx("TESTDecoratedChoice did not decode as a TESTNotDecoratedChoice correctly"); return 1; } if (copy_TESTDecoratedChoice(&tdc, &tdc_copy)) { warnx("copy_TESTDecoratedChoice() failed"); return 1; } if ((int)tdc.element != (int)tdc_copy.element || tdc.u.version != tdc_copy.u.version) { warnx("copy_TESTDecoratedChoice() did not work correctly (1)"); return 1; } if (tdc_copy.version2 == NULL || *tdc.version2 != *tdc_copy.version2) { warnx("copy_TESTDecoratedChoice() did not work correctly (2)"); return 1; } if (tdc.version3.v != tdc_copy.version3.v || my_copy_vers_called != 1) { warnx("copy_TESTDecoratedChoice() did not work correctly (3)"); return 1; } if (tdc_copy.privthing != 0) { warnx("copy_TESTDecoratedChoice() did not work correctly (4)"); return 1; } free_TESTDecoratedChoice(&tdc_copy); free_TESTDecoratedChoice(&tdc); if (tdc.version2) { warnx("free_TESTDecoratedChoice() did not work correctly (1)"); return 1; } if (tdc.version3.v != 0 || my_free_vers_called != 2) { warnx("free_TESTDecoratedChoice() did not work correctly (2)"); return 1; } if (tdc.privthing != 0) { warnx("free_TESTDecoratedChoice() did not work correctly (3)"); return 1; } return 0; } 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; } static int cmp_TESTImplicit2 (void *a, void *b) { TESTImplicit2 *aa = a; TESTImplicit2 *ab = b; COMPARE_INTEGER(aa,ab,ti1); COMPARE_INTEGER(aa,ab,ti3); IF_OPT_COMPARE(aa,ab,ti4) { COMPARE_INTEGER(aa,ab,ti4[0]); } return 0; } static int cmp_TESTImplicit3 (void *a, void *b) { TESTImplicit3 *aa = a; TESTImplicit3 *ab = b; COMPARE_INTEGER(aa,ab,element); if (aa->element == choice_TESTImplicit3_ti1) { COMPARE_INTEGER(aa,ab,u.ti1); } else { COMPARE_INTEGER(aa,ab,u.ti2.element); COMPARE_INTEGER(aa,ab,u.ti2.u.i1); } return 0; } static int cmp_TESTImplicit4 (void *a, void *b) { TESTImplicit4 *aa = a; TESTImplicit4 *ab = b; COMPARE_INTEGER(aa,ab,element); if (aa->element == choice_TESTImplicit4_ti1) { COMPARE_INTEGER(aa,ab,u.ti1); } else { COMPARE_INTEGER(aa,ab,u.ti2.element); COMPARE_INTEGER(aa,ab,u.ti2.u.i1); } return 0; } static int test_implicit (void) { int ret = 0; /* * UNIV CONS Sequence = 14 bytes { * CONTEXT PRIM tag 0 = 1 bytes [0] IMPLICIT content * CONTEXT CONS tag 1 = 6 bytes [1] * CONTEXT CONS tag 127 = 3 bytes [127] * UNIV PRIM Integer = integer 2 * CONTEXT PRIM tag 2 = 1 bytes [2] IMPLICIT content * } */ struct test_case tests[] = { { NULL, 16, "\x30\x0e\x80\x01\x00\xa1\x06\xbf\x7f\x03\x02\x01\x02\x82\x01\x03", "implicit 1" } }; /* * UNIV CONS Sequence = 10 bytes { * CONTEXT PRIM tag 0 = 1 bytes [0] IMPLICIT content * CONTEXT PRIM tag 2 = 1 bytes [2] IMPLICIT content * CONTEXT PRIM tag 51 = 1 bytes [51] IMPLICIT content * } */ struct test_case tests2[] = { { NULL, 12, "\x30\x0a\x80\x01\x01\x82\x01\x03\x9f\x33\x01\x04", "implicit 2" } }; /* * CONTEXT CONS tag 5 = 5 bytes [5] * CONTEXT CONS tag 1 = 3 bytes [1] * UNIV PRIM Integer = integer 5 */ struct test_case tests3[] = { { NULL, 7, "\xa5\x05\xa1\x03\x02\x01\x05", "implicit 3" } }; /* * Notice: same as tests3[].bytes. * * CONTEXT CONS tag 5 = 5 bytes [5] * CONTEXT CONS tag 1 = 3 bytes [1] * UNIV PRIM Integer = integer 5 */ struct test_case tests4[] = { { NULL, 7, "\xa5\x05\xa1\x03\x02\x01\x05", "implicit 4" } }; TESTImplicit c0; TESTImplicit2 c1; TESTImplicit3 c2; TESTImplicit4 c3; int ti4 = 4; memset(&c0, 0, sizeof(c0)); c0.ti1 = 0; c0.ti2.foo = 2; c0.ti3 = 3; tests[0].val = &c0; memset(&c1, 0, sizeof(c1)); c1.ti1 = 1; c1.ti3 = 3; c1.ti4 = &ti4; tests2[0].val = &c1; memset(&c2, 0, sizeof(c2)); c2.element = choice_TESTImplicit3_ti2; c2.u.ti2.element = choice_TESTImplicit3_ti2_i1; c2.u.ti2.u.i1 = 5; tests3[0].val = &c2; memset(&c3, 0, sizeof(c3)); c3.element = choice_TESTImplicit4_ti2; c3.u.ti2.element = choice_TESTChoice2_i1; c3.u.ti2.u.i1 = 5; tests4[0].val = &c3; ret += generic_test(tests, sizeof(tests) / sizeof(*tests), sizeof(TESTImplicit), (generic_encode)encode_TESTImplicit, (generic_length)length_TESTImplicit, (generic_decode)decode_TESTImplicit, (generic_free)free_TESTImplicit, cmp_TESTImplicit, (generic_copy)copy_TESTImplicit); ret += generic_test(tests2, sizeof(tests2) / sizeof(*tests2), sizeof(TESTImplicit2), (generic_encode)encode_TESTImplicit2, (generic_length)length_TESTImplicit2, (generic_decode)decode_TESTImplicit2, (generic_free)free_TESTImplicit2, cmp_TESTImplicit2, NULL); ret += generic_test(tests3, sizeof(tests3) / sizeof(*tests3), sizeof(TESTImplicit3), (generic_encode)encode_TESTImplicit3, (generic_length)length_TESTImplicit3, (generic_decode)decode_TESTImplicit3, (generic_free)free_TESTImplicit3, cmp_TESTImplicit3, NULL); ret += generic_test(tests4, sizeof(tests4) / sizeof(*tests4), sizeof(TESTImplicit4), (generic_encode)encode_TESTImplicit4, (generic_length)length_TESTImplicit4, (generic_decode)decode_TESTImplicit4, (generic_free)free_TESTImplicit4, cmp_TESTImplicit4, NULL); 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_OCTET_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_fail_Ticket(void) { char buf[100]; size_t i; int ret; struct test_case test; Ticket ticket; for (i = 0; i < sizeof(buf); i++) { memset(buf, 0, sizeof(buf)); memset(&ticket, 0, sizeof(ticket)); test.val = &ticket; test.byte_len = i; test.bytes = buf; test.name = "zero life"; ret = generic_decode_fail(&test, 1, sizeof(Ticket), (generic_decode)decode_Ticket); if (ret) return ret; } return 0; } static int check_seq(void) { TESTSeqOf seq; TESTInteger i = 0; 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(); free(ptr); return 0; } static int cmp_TESTSeqOf4(void *a, void *b) { TESTSeqOf4 *aa = a; TESTSeqOf4 *ab = b; int i; IF_OPT_COMPARE(aa, ab, b1) { COMPARE_INTEGER(aa->b1, ab->b1, len); for (i = 0; i < aa->b1->len; ++i) { COMPARE_INTEGER(aa->b1->val+i, ab->b1->val+i, u1); COMPARE_INTEGER(aa->b1->val+i, ab->b1->val+i, u2); COMPARE_OCTET_STRING(aa->b1->val+i, ab->b1->val+i, s1); COMPARE_OCTET_STRING(aa->b1->val+i, ab->b1->val+i, s2); } } IF_OPT_COMPARE(aa, ab, b2) { COMPARE_INTEGER(aa->b2, ab->b2, len); for (i = 0; i < aa->b2->len; ++i) { COMPARE_INTEGER(aa->b2->val+i, ab->b2->val+i, u1); COMPARE_INTEGER(aa->b2->val+i, ab->b2->val+i, u2); COMPARE_INTEGER(aa->b2->val+i, ab->b2->val+i, u3); COMPARE_OCTET_STRING(aa->b2->val+i, ab->b2->val+i, s1); COMPARE_OCTET_STRING(aa->b2->val+i, ab->b2->val+i, s2); COMPARE_OCTET_STRING(aa->b2->val+i, ab->b2->val+i, s3); } } IF_OPT_COMPARE(aa, ab, b3) { COMPARE_INTEGER(aa->b3, ab->b3, len); for (i = 0; i < aa->b3->len; ++i) { COMPARE_INTEGER(aa->b3->val+i, ab->b3->val+i, u1); COMPARE_INTEGER(aa->b3->val+i, ab->b3->val+i, u2); COMPARE_INTEGER(aa->b3->val+i, ab->b3->val+i, u3); COMPARE_INTEGER(aa->b3->val+i, ab->b3->val+i, u4); COMPARE_OCTET_STRING(aa->b3->val+i, ab->b3->val+i, s1); COMPARE_OCTET_STRING(aa->b3->val+i, ab->b3->val+i, s2); COMPARE_OCTET_STRING(aa->b3->val+i, ab->b3->val+i, s3); COMPARE_OCTET_STRING(aa->b3->val+i, ab->b3->val+i, s4); } } return 0; } static int test_seq4 (void) { int ret = 0; struct test_case tests[] = { { NULL, 2, "\x30\x00", "seq4 0" }, { NULL, 4, "\x30\x02" "\xa1\x00", "seq4 1" }, { NULL, 8, "\x30\x06" "\xa0\x02\x30\x00" "\xa1\x00", "seq4 2" }, { NULL, 2 + (2 + 0x18) + (2 + 0x27) + (2 + 0x31), "\x30\x76" /* 2 SEQ */ "\xa0\x18\x30\x16" /* 4 [0] SEQ */ "\x30\x14" /* 2 SEQ */ "\x04\x00" /* 2 OCTET-STRING */ "\x04\x02\x01\x02" /* 4 OCTET-STRING */ "\x02\x01\x01" /* 3 INT */ "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xff" /* 11 INT */ "\xa1\x27" /* 2 [1] IMPL SEQ */ "\x30\x25" /* 2 SEQ */ "\x02\x01\x01" /* 3 INT */ "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xff" /* 11 INT */ "\x02\x09\x00\x80\x00\x00\x00\x00\x00\x00\x00" /* 11 INT */ "\x04\x00" /* 2 OCTET-STRING */ "\x04\x02\x01\x02" /* 4 OCTET-STRING */ "\x04\x04\x00\x01\x02\x03" /* 6 OCTET-STRING */ "\xa2\x31" /* 2 [2] IMPL SEQ */ "\x30\x2f" /* 2 SEQ */ "\x04\x00" /* 2 OCTET-STRING */ "\x02\x01\x01" /* 3 INT */ "\x04\x02\x01\x02" /* 4 OCTET-STRING */ "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xff" /* 11 INT */ "\x04\x04\x00\x01\x02\x03" /* 6 OCTET-STRING */ "\x02\x09\x00\x80\x00\x00\x00\x00\x00\x00\x00" /* 11 INT */ "\x04\x01\x00" /* 3 OCTET-STRING */ "\x02\x05\x01\x00\x00\x00\x00", /* 7 INT */ "seq4 3" }, }; int ntests = sizeof(tests) / sizeof(*tests); TESTSeqOf4 c[4]; struct TESTSeqOf4_b1 b1[4]; struct TESTSeqOf4_b2 b2[4]; struct TESTSeqOf4_b3 b3[4]; struct TESTSeqOf4_b1_val b1val[4]; struct TESTSeqOf4_b2_val b2val[4]; struct TESTSeqOf4_b3_val b3val[4]; c[0].b1 = NULL; c[0].b2 = NULL; c[0].b3 = NULL; tests[0].val = &c[0]; b2[1].len = 0; b2[1].val = NULL; c[1].b1 = NULL; c[1].b2 = &b2[1]; c[1].b3 = NULL; tests[1].val = &c[1]; b1[2].len = 0; b1[2].val = NULL; b2[2].len = 0; b2[2].val = NULL; c[2].b1 = &b1[2]; c[2].b2 = &b2[2]; c[2].b3 = NULL; tests[2].val = &c[2]; b1val[3].s1.data = ""; b1val[3].s1.length = 0; b1val[3].u1 = 1LL; b1val[3].s2.data = "\x01\x02"; b1val[3].s2.length = 2; b1val[3].u2 = -1LL; b2val[3].s1.data = ""; b2val[3].s1.length = 0; b2val[3].u1 = 1LL; b2val[3].s2.data = "\x01\x02"; b2val[3].s2.length = 2; b2val[3].u2 = -1LL; b2val[3].s3.data = "\x00\x01\x02\x03"; b2val[3].s3.length = 4; b2val[3].u3 = 1LL<<63; b3val[3].s1.data = ""; b3val[3].s1.length = 0; b3val[3].u1 = 1LL; b3val[3].s2.data = "\x01\x02"; b3val[3].s2.length = 2; b3val[3].u2 = -1LL; b3val[3].s3.data = "\x00\x01\x02\x03"; b3val[3].s3.length = 4; b3val[3].u3 = 1LL<<63; b3val[3].s4.data = "\x00"; b3val[3].s4.length = 1; b3val[3].u4 = 1LL<<32; b1[3].len = 1; b1[3].val = &b1val[3]; b2[3].len = 1; b2[3].val = &b2val[3]; b3[3].len = 1; b3[3].val = &b3val[3]; c[3].b1 = &b1[3]; c[3].b2 = &b2[3]; c[3].b3 = &b3[3]; tests[3].val = &c[3]; ret += generic_test (tests, ntests, sizeof(TESTSeqOf4), (generic_encode)encode_TESTSeqOf4, (generic_length)length_TESTSeqOf4, (generic_decode)decode_TESTSeqOf4, (generic_free)free_TESTSeqOf4, cmp_TESTSeqOf4, (generic_copy)copy_TESTSeqOf4); return ret; } static int cmp_test_seqof5 (void *a, void *b) { TESTSeqOf5 *aval = a; TESTSeqOf5 *bval = b; IF_OPT_COMPARE(aval, bval, outer) { COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u0); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s0); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u1); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s1); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u2); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s2); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u3); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s3); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u4); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s4); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u5); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s5); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u6); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s6); COMPARE_INTEGER(&aval->outer->inner, &bval->outer->inner, u7); COMPARE_OCTET_STRING(&aval->outer->inner, &bval->outer->inner, s7); } return 0; } static int test_seqof5(void) { struct test_case tests[] = { { NULL, 2, "\x30\x00", "seq5 0" }, { NULL, 126, "\x30\x7c" /* SEQ */ "\x30\x7a" /* SEQ */ "\x30\x78" /* SEQ */ "\x02\x01\x01" /* INT 1 */ "\x04\x06\x01\x01\x01\x01\x01\x01" /* "\0x1"x6 */ "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xfe" /* INT ~1 */ "\x04\x06\x02\x02\x02\x02\x02\x02" /* "\x02"x6 */ "\x02\x01\x02" /* INT 2 */ "\x04\x06\x03\x03\x03\x03\x03\x03" /* "\x03"x6 */ "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xfd" /* INT ~2 */ "\x04\x06\x04\x04\x04\x04\x04\x04" /* ... */ "\x02\x01\x03" "\x04\x06\x05\x05\x05\x05\x05\x05" "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xfc" "\x04\x06\x06\x06\x06\x06\x06\x06" "\x02\x01\x04" "\x04\x06\x07\x07\x07\x07\x07\x07" "\x02\x09\x00\xff\xff\xff\xff\xff\xff\xff\xfb" "\x04\x06\x08\x08\x08\x08\x08\x08", "seq5 1" }, }; int ret = 0, ntests = sizeof(tests) / sizeof(*tests); TESTSeqOf5 c[2]; struct TESTSeqOf5_outer outer; struct TESTSeqOf5_outer_inner inner; TESTuint64 u[8]; heim_octet_string s[8]; int i; c[0].outer = NULL; tests[0].val = &c[0]; for (i = 0; i < 8; ++i) { u[i] = (i&1) == 0 ? i/2+1 : ~(i/2+1); s[i].data = memset(malloc(s[i].length = 6), i+1, 6); } inner.u0 = u[0]; inner.u1 = u[1]; inner.u2 = u[2]; inner.u3 = u[3]; inner.u4 = u[4]; inner.u5 = u[5]; inner.u6 = u[6]; inner.u7 = u[7]; inner.s0 = s[0]; inner.s1 = s[1]; inner.s2 = s[2]; inner.s3 = s[3]; inner.s4 = s[4]; inner.s5 = s[5]; inner.s6 = s[6]; inner.s7 = s[7]; outer.inner = inner; c[1].outer = &outer; tests[1].val = &c[1]; ret += generic_test (tests, ntests, sizeof(TESTSeqOf5), (generic_encode)encode_TESTSeqOf5, (generic_length)length_TESTSeqOf5, (generic_decode)decode_TESTSeqOf5, (generic_free)free_TESTSeqOf5, cmp_test_seqof5, NULL); for (i = 0; i < 8; ++i) free(s[i].data); return ret; } static int cmp_default(void *a, void *b) { TESTDefault *aa = a; TESTDefault *ab = b; COMPARE_STRING(aa,ab,name); COMPARE_INTEGER(aa,ab,version); COMPARE_INTEGER(aa,ab,maxint); COMPARE_INTEGER(aa,ab,works); return 0; } static int test_default(void) { struct test_case tests[] = { #ifndef DISABLE_TEST_64 { NULL, 2, "\x30\x00", NULL }, #endif { NULL, 25, "\x30\x17\x0c\x07\x68\x65\x69\x6d\x64\x61" "\x6c\xa0\x03\x02\x01\x07\x02\x04\x7f\xff" "\xff\xff\x01\x01\x00", NULL }, #ifndef DISABLE_TEST_64 { NULL, 10, "\x30\x08\xa0\x03\x02\x01\x07\x01\x01\x00", NULL }, #endif { NULL, 17, "\x30\x0f\x0c\x07\x68\x65\x69\x6d\x64\x61\x6c\x02\x04" "\x7f\xff\xff\xff", NULL } }; TESTDefault values[] = { #ifndef DISABLE_TEST_64 { "Heimdal", 8, 9223372036854775807LL, 1 }, #endif { "heimdal", 7, 2147483647, 0 }, #ifndef DISABLE_TEST_64 { "Heimdal", 7, 9223372036854775807LL, 0 }, #endif { "heimdal", 8, 2147483647, 1 }, }; 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, "TESTDefault %d", i) < 0) errx(1, "malloc"); if (tests[i].name == NULL) errx(1, "malloc"); } ret = generic_test (tests, ntests, sizeof(TESTDefault), (generic_encode)encode_TESTDefault, (generic_length)length_TESTDefault, (generic_decode)decode_TESTDefault, (generic_free)free_TESTDefault, cmp_default, (generic_copy)copy_TESTDefault); for (i = 0; i < ntests; ++i) free(tests[i].name); return ret; } static int test_x690sample(void) { /* * Taken from X.690, Appendix A, though sadly it's not specified whether * it's in BER, DER, or CER, but it is clearly BER and neither DER nor CER * because the tags of the members of the X690SamplePersonnelRecord type * are not canonically sorted in the given sample. * * Our compiler does NOT canonically sort the members of SET { ... } types * so it produces the same encoding after decoding this test vector. That * is clearly a bug given that we aim to output DER. * * The template compiler doesn't even decode SET { ... } values properly * when their members are not in the same order as defined (but the regular * compiler does). */ X690SamplePersonnelRecord r; heim_octet_string os; unsigned char encoded_sample[] = { 0x60, 0x81, 0x85, 0x61, 0x10, 0x1a, 0x04, 0x4a, 0x6f, 0x68, 0x6e, 0x1a, 0x01, 0x50, 0x1a, 0x05, 0x53, 0x6d, 0x69, 0x74, 0x68, 0xa0, 0x0a, 0x1a, 0x08, 0x44, 0x69, 0x72, 0x65, 0x63, 0x74, 0x6f, 0x72, 0x42, 0x01, 0x33, 0xa1, 0x0a, 0x43, 0x08, 0x31, 0x39, 0x37, 0x31, 0x30, 0x39, 0x31, 0x37, 0xa2, 0x12, 0x61, 0x10, 0x1a, 0x04, 0x4d, 0x61, 0x72, 0x79, 0x1a, 0x01, 0x54, 0x1a, 0x05, 0x53, 0x6d, 0x69, 0x74, 0x68, 0xa3, 0x42, 0x31, 0x1f, 0x61, 0x11, 0x1a, 0x05, 0x52, 0x61, 0x6c, 0x70, 0x68, 0x1a, 0x01, 0x54, 0x1a, 0x05, 0x53, 0x6d, 0x69, 0x74, 0x68, 0xa0, 0x0a, 0x43, 0x08, 0x31, 0x39, 0x35, 0x37, 0x31, 0x31, 0x31, 0x31, 0x31, 0x1f, 0x61, 0x11, 0x1a, 0x05, 0x53, 0x75, 0x73, 0x61, 0x6e, 0x1a, 0x01, 0x42, 0x1a, 0x05, 0x53, 0x6d, 0x69, 0x74, 0x68, 0xa0, 0x0a, 0x43, 0x08, 0x31, 0x39, 0x35, 0x39, 0x30, 0x37, 0x31, 0x37 }; size_t sz = 0; int ret; memset(&r, 0, sizeof(r)); if (decode_X690SamplePersonnelRecord(encoded_sample, sizeof(encoded_sample), &r, &sz)) return 1; if (sz != sizeof(encoded_sample)) return 1; free_X690SamplePersonnelRecord(&r); memset(&r, 0, sizeof(r)); /* We re-construct the record manually to double-check the spec */ r.name.givenName = strdup("John"); r.name.initial = strdup("P"); r.name.familyName = strdup("Smith"); r.title = strdup("Director"); r.dateOfHire = strdup("19710917"); r.number = 51; r.nameOfSpouse.givenName = strdup("Mary"); r.nameOfSpouse.initial = strdup("T"); r.nameOfSpouse.familyName = strdup("Smith"); r.children.val = calloc(2, sizeof(r.children.val[0])); r.children.len = 2; r.children.val[0].name.givenName = strdup("Ralph"); r.children.val[0].name.initial = strdup("T"); r.children.val[0].name.familyName = strdup("Smith"); r.children.val[0].dateOfBirth = strdup("19571111"); r.children.val[1].name.givenName = strdup("Susan"); r.children.val[1].name.initial = strdup("B"); r.children.val[1].name.familyName = strdup("Smith"); r.children.val[1].dateOfBirth = strdup("19590717"); os.length = 0; os.data = 0; ASN1_MALLOC_ENCODE(X690SamplePersonnelRecord, os.data, os.length, &r, &sz, ret); if (ret || sz != sizeof(encoded_sample) || sz != os.length || memcmp(encoded_sample, os.data, sz) != 0) return 1; free_X690SamplePersonnelRecord(&r); free(os.data); return 0; } #if ASN1_IOS_SUPPORTED static int test_ios(void) { unsigned char encoded_sample[] = { 0x30, 0x82, 0x04, 0x8e, 0x30, 0x82, 0x03, 0x76, 0xa0, 0x03, 0x02, 0x01, 0x02, 0x02, 0x14, 0x6a, 0x05, 0x97, 0xba, 0x71, 0xd7, 0xe6, 0xd3, 0xac, 0x0e, 0xdc, 0x9e, 0xdc, 0x95, 0xa1, 0x5b, 0x99, 0x8d, 0xe4, 0x0a, 0x30, 0x0d, 0x06, 0x09, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x0b, 0x05, 0x00, 0x30, 0x55, 0x31, 0x0b, 0x30, 0x09, 0x06, 0x03, 0x55, 0x04, 0x06, 0x13, 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0x83, 0x4e, 0xaa, 0x69, 0x2d, 0x2e, 0x40, 0x01, 0xbb, 0xf4, 0x73, 0x0a, 0x3e, 0x3f, 0xda, 0x97, 0x11, 0xae, 0x38, 0x65, 0x24, 0xd9, 0x1c, 0x63, 0xbe, 0x0e, 0x51, 0x6d, 0x00, 0xd5, 0xc6, 0x14, 0x1f, 0xcc, 0xf6, 0xc5, 0x39, 0xf3, 0x51, 0x8e, 0x18, 0x00, 0x49, 0x86, 0x5b, 0xe1, 0x6b, 0x69, 0xca, 0xe1, 0xf8, 0xcb, 0x7f, 0xdc, 0x47, 0x4b, 0x38, 0xf7, 0xee, 0x56, 0xcb, 0xe7, 0xd8, 0xa8, 0x9d, 0x9b, 0xa9, 0x9b, 0x65, 0xd5, 0x26, 0x5a, 0xef, 0x32, 0xaa, 0x62, 0x42, 0x6b, 0x10, 0xe6, 0xd7, 0x5b, 0xb8, 0x67, 0x7e, 0xc4, 0x4f, 0x75, 0x5b, 0xbc, 0x28, 0x06, 0xfd, 0x2b, 0x4e, 0x04, 0xbd, 0xf5, 0xd4, 0x42, 0x59, 0xdb, 0xea, 0xa4, 0x2b, 0x6f, 0x56, 0x3d, 0xf7, 0xaa, 0x75, 0x06, }; char cert_json[] = { "{\"_type\":\"Certificate\",\"tbsCertificate\":{\"_type\":\"TBSCertificate" "\",\"_save\":\"30820376A00302010202146A0597BA71D7E6D3AC0EDC9EDC95A15" "B998DE40A300D06092A864886F70D01010B05003055310B30090603550406130" "24348311E301C060355040A131553544D6963726F656C656374726F6E6963732" "04E56312630240603550403131D53544D2054504D20454B20496E7465726D656" "469617465204341203035301E170D3138313231343030303030305A170D32383" "13231343030303030305A300030820122300D06092A864886F70D01010105000" "382010F003082010A0282010100CC14EB27A78CEB0EA486FA2DF7835F5FA8E90" "5B097012B5BDE50380C355B1A2A721BBC3D08DD21796CDB239FA95310651B1B5" "6FD2CFE53C87352EBD996E33256160404CE9302A08066801E786A2F86E181F94" "9966F492A85B58EAA4A6A8CB3697551BB236E87CC7BF8EC1347871C91E15437E" "8F266BF1EA5EB271FDCF374D8B47DF8BCE89E1FAD61C2A088CB4036B359CB72A" "294973FEDCCF0C340AFFD14B64F041165581ACA34147C1C75617047058F7ED7D" "603E032508094FA73E8B9153DA3BF255D2CBBC5DF301BA8F74D198BEBCE86040" "FC1D2927C7657414490D802F482F3EBF2DE35EE149A1A6DE8D16891FBFBA02A1" "8AFE59F9D6F149744E5F0D559B10203010001A38201A9308201A5301F0603551" "D230418301680141ADB994AB58BE57A0CC9B900E7851E1A43C08660304206035" "51D20043B303930370604551D2000302F302D06082B060105050702011621687" "474703A2F2F7777772E73742E636F6D2F54504D2F7265706F7369746F72792F3" "0590603551D110101FF044F304DA44B304931163014060567810502010C0B696" "43A353335343444323031173015060567810502020C0C5354333348545048414" "8433031163014060567810502030C0B69643A303034393030303830670603551" "D090460305E301706056781050210310E300C0C03322E300201000202008A304" "306056781050212313A30380201000101FFA0030A0101A1030A0100A2030A010" "0A310300E1603332E310A01040A01020101FFA40F300D16053134302D320A010" "2010100300E0603551D0F0101FF040403020520300C0603551D130101FF04023" "00030100603551D250409300706056781050801304A06082B060105050701010" "43E303C303A06082B06010505073002862E687474703A2F2F7365637572652E6" "76C6F62616C7369676E2E636F6D2F73746D74706D656B696E7430352E637274\"" ",\"version\":\"rfc3280_version_3\",\"serialNumber\":\"6A0597BA71D7E6D3A" "C0EDC9EDC95A15B998DE40A\",\"signature\":{\"_type\":\"AlgorithmIdentifi" "er\",\"algorithm\":{\"_type\":\"OBJECT IDENTIFIER\",\"oid\":\"1.2.840.1135" "49.1.1.11\",\"components\":[1,2,840,113549,1,1,11],\"name\":\"id-pkcs1" "-sha256WithRSAEncryption\"},\"parameters\":\"0500\"},\"issuer\":{\"_choi" "ce\":\"rdnSequence\",\"value\":[[{\"_type\":\"AttributeTypeAndValue\",\"ty" "pe\":{\"_type\":\"OBJECT IDENTIFIER\",\"oid\":\"2.5.4.6\",\"components\":[2" ",5,4,6],\"name\":\"id-at-countryName\"},\"value\":{\"_choice\":\"printabl" "eString\",\"value\":\"CH\"}}],[{\"_type\":\"AttributeTypeAndValue\",\"type" "\":{\"_type\":\"OBJECT IDENTIFIER\",\"oid\":\"2.5.4.10\",\"components\":[2," "5,4,10],\"name\":\"id-at-organizationName\"},\"value\":{\"_choice\":\"pri" "ntableString\",\"value\":\"STMicroelectronics NV\"}}],[{\"_type\":\"Attr" "ibuteTypeAndValue\",\"type\":{\"_type\":\"OBJECT IDENTIFIER\",\"oid\":\"2." "5.4.3\",\"components\":[2,5,4,3],\"name\":\"id-at-commonName\"},\"value\"" ":{\"_choice\":\"printableString\",\"value\":\"STM TPM EK Intermediate C" "A 05\"}}]]},\"validity\":{\"_type\":\"Validity\",\"notBefore\":{\"_choice\"" ":\"utcTime\",\"value\":\"2018-12-14T00:00:00Z\"},\"notAfter\":{\"_choice\"" ":\"utcTime\",\"value\":\"2028-12-14T00:00:00Z\"}},\"subject\":{\"_choice\"" ":\"rdnSequence\",\"value\":[]},\"subjectPublicKeyInfo\":{\"_type\":\"Subj" "ectPublicKeyInfo\",\"algorithm\":{\"_type\":\"AlgorithmIdentifier\",\"al" "gorithm\":{\"_type\":\"OBJECT IDENTIFIER\",\"oid\":\"1.2.840.113549.1.1." 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heim_octet_string os; Certificate c0, c1; size_t i, nknown, size; char *s; int ret; /* * Test automatic decoding of open types. * * Decode a value that has plenty of open types with values of known * alternatives in them, then check that we got what we wanted. */ ret = decode_Certificate(encoded_sample, sizeof(encoded_sample), &c0, &size); if (ret) return 1; if (size != sizeof(encoded_sample)) return 1; s = print_Certificate(&c0, 0); if (!s) return 1; if (strcmp(s, cert_json) != 0) return 1; free(s); ret = copy_Certificate(&c0, &c1); if (ret) return 1; if (!c0.tbsCertificate.extensions || !c1.tbsCertificate.extensions) return 1; if (!c0.tbsCertificate.extensions->len || c0.tbsCertificate.extensions->len != c1.tbsCertificate.extensions->len) return 1; for (i = nknown = 0; i < c0.tbsCertificate.extensions->len; i++) { if (c0.tbsCertificate.extensions->val[i]._ioschoice_extnValue.element != c1.tbsCertificate.extensions->val[i]._ioschoice_extnValue.element) return 1; if (c0.tbsCertificate.extensions->val[i]._ioschoice_extnValue.element) { #if 0 fprintf(stderr, "extension %llu known %u\n", (unsigned long long)i, c0.tbsCertificate.extensions->val[i]._ioschoice_extnValue._element); #endif nknown++; } } if (!nknown) return 1; /* * Check that this round trips. But note that this attempt to encode will * ignore the automatically decoded open type values from above because * their encodings are still present. */ ASN1_MALLOC_ENCODE(Certificate, os.data, os.length, &c1, &size, ret); if (ret) return 1; if (os.length != size || size != sizeof(encoded_sample)) return 1; if (memcmp(os.data, encoded_sample, os.length) != 0) return 1; der_free_octet_string(&os); /* * Test automatic encoding of open types by clearing the encoding of one * such open type value, forcing the encoder to encode the value from * before. */ der_free_octet_string(&c0.tbsCertificate.extensions->val[0].extnValue); der_free_oid(&c0.tbsCertificate.extensions->val[0].extnID); ASN1_MALLOC_ENCODE(Certificate, os.data, os.length, &c0, &size, ret); if (ret) return 1; if (os.length != size || size != sizeof(encoded_sample)) return 1; if (memcmp(os.data, encoded_sample, os.length) != 0) return 1; der_free_octet_string(&os); /* * Repeat, but with the copy, as this will test that copying data * structures with decoded open types in them also copies those. */ der_free_octet_string(&c1.tbsCertificate.extensions->val[0].extnValue); der_free_oid(&c1.tbsCertificate.extensions->val[0].extnID); ASN1_MALLOC_ENCODE(Certificate, os.data, os.length, &c1, &size, ret); if (ret) return 1; if (os.length != size || size != sizeof(encoded_sample)) return 1; if (memcmp(os.data, encoded_sample, os.length) != 0) return 1; der_free_octet_string(&os); free_Certificate(&c0); free_Certificate(&c1); return 0; } #endif int main(int argc, char **argv) { int ret = 0; #define DO_ONE(t) if (t()) { fprintf(stderr, "%s() failed!\n", #t); ret++; } DO_ONE(test_principal); DO_ONE(test_authenticator); DO_ONE(test_krb_error); DO_ONE(test_Name); DO_ONE(test_bit_string); DO_ONE(test_bit_string_rfc1510); DO_ONE(test_time); DO_ONE(test_cert); DO_ONE(check_tag_length); DO_ONE(check_tag_length64); DO_ONE(check_tag_length64s); DO_ONE(test_large_tag); DO_ONE(test_choice); DO_ONE(test_implicit); DO_ONE(test_taglessalloc); DO_ONE(test_optional); DO_ONE(check_fail_largetag); DO_ONE(check_fail_sequence); DO_ONE(check_fail_choice); DO_ONE(check_fail_Ticket); DO_ONE(check_seq); DO_ONE(check_seq_of_size); DO_ONE(test_SignedData); DO_ONE(check_TESTMechTypeList); DO_ONE(test_seq4); DO_ONE(test_seqof5); DO_ONE(test_x690sample); DO_ONE(test_default); DO_ONE(test_extensible_choice); DO_ONE(test_decorated_choice); DO_ONE(test_decorated); #if ASN1_IOS_SUPPORTED DO_ONE(test_ios); #endif return ret; }