341 lines
11 KiB
C
341 lines
11 KiB
C
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/*
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* Copyright 2016-2022 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the OpenSSL license (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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#include <stdio.h>
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#include <string.h>
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#include <openssl/x509.h>
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#include <openssl/x509v3.h>
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#include <openssl/pem.h>
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#include <openssl/err.h>
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#include "internal/nelem.h"
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#include "testutil.h"
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static const char *infile;
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static int test_pathlen(void)
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{
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X509 *x = NULL;
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BIO *b = NULL;
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long pathlen;
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int ret = 0;
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if (!TEST_ptr(b = BIO_new_file(infile, "r"))
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|| !TEST_ptr(x = PEM_read_bio_X509(b, NULL, NULL, NULL))
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|| !TEST_int_eq(pathlen = X509_get_pathlen(x), 6))
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goto end;
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ret = 1;
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end:
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BIO_free(b);
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X509_free(x);
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return ret;
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}
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#ifndef OPENSSL_NO_RFC3779
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static int test_asid(void)
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{
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ASN1_INTEGER *val1 = NULL, *val2 = NULL;
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ASIdentifiers *asid1 = ASIdentifiers_new(), *asid2 = ASIdentifiers_new(),
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*asid3 = ASIdentifiers_new(), *asid4 = ASIdentifiers_new();
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int testresult = 0;
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if (!TEST_ptr(asid1)
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|| !TEST_ptr(asid2)
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|| !TEST_ptr(asid3))
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goto err;
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if (!TEST_ptr(val1 = ASN1_INTEGER_new())
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|| !TEST_true(ASN1_INTEGER_set_int64(val1, 64496)))
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goto err;
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if (!TEST_true(X509v3_asid_add_id_or_range(asid1, V3_ASID_ASNUM, val1, NULL)))
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goto err;
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val1 = NULL;
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if (!TEST_ptr(val2 = ASN1_INTEGER_new())
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|| !TEST_true(ASN1_INTEGER_set_int64(val2, 64497)))
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goto err;
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if (!TEST_true(X509v3_asid_add_id_or_range(asid2, V3_ASID_ASNUM, val2, NULL)))
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goto err;
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val2 = NULL;
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if (!TEST_ptr(val1 = ASN1_INTEGER_new())
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|| !TEST_true(ASN1_INTEGER_set_int64(val1, 64496))
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|| !TEST_ptr(val2 = ASN1_INTEGER_new())
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|| !TEST_true(ASN1_INTEGER_set_int64(val2, 64497)))
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goto err;
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/*
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* Just tests V3_ASID_ASNUM for now. Could be extended at some point to also
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* test V3_ASID_RDI if we think it is worth it.
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*/
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if (!TEST_true(X509v3_asid_add_id_or_range(asid3, V3_ASID_ASNUM, val1, val2)))
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goto err;
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val1 = val2 = NULL;
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/* Actual subsets */
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if (!TEST_true(X509v3_asid_subset(NULL, NULL))
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|| !TEST_true(X509v3_asid_subset(NULL, asid1))
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|| !TEST_true(X509v3_asid_subset(asid1, asid1))
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|| !TEST_true(X509v3_asid_subset(asid2, asid2))
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|| !TEST_true(X509v3_asid_subset(asid1, asid3))
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|| !TEST_true(X509v3_asid_subset(asid2, asid3))
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|| !TEST_true(X509v3_asid_subset(asid3, asid3))
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|| !TEST_true(X509v3_asid_subset(asid4, asid1))
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|| !TEST_true(X509v3_asid_subset(asid4, asid2))
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|| !TEST_true(X509v3_asid_subset(asid4, asid3)))
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goto err;
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/* Not subsets */
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if (!TEST_false(X509v3_asid_subset(asid1, NULL))
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|| !TEST_false(X509v3_asid_subset(asid1, asid2))
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|| !TEST_false(X509v3_asid_subset(asid2, asid1))
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|| !TEST_false(X509v3_asid_subset(asid3, asid1))
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|| !TEST_false(X509v3_asid_subset(asid3, asid2))
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|| !TEST_false(X509v3_asid_subset(asid1, asid4))
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|| !TEST_false(X509v3_asid_subset(asid2, asid4))
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|| !TEST_false(X509v3_asid_subset(asid3, asid4)))
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goto err;
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testresult = 1;
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err:
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ASN1_INTEGER_free(val1);
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ASN1_INTEGER_free(val2);
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ASIdentifiers_free(asid1);
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ASIdentifiers_free(asid2);
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ASIdentifiers_free(asid3);
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ASIdentifiers_free(asid4);
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return testresult;
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}
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static struct ip_ranges_st {
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const unsigned int afi;
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const char *ip1;
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const char *ip2;
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int rorp;
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} ranges[] = {
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.0.1", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.0.2", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.0.3", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.0.254", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.0.255", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV4, "192.168.0.1", "192.168.0.255", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV4, "192.168.0.1", "192.168.0.1", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV4, "192.168.0.0", "192.168.255.255", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV4, "192.168.1.0", "192.168.255.255", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV6, "2001:0db8::0", "2001:0db8::1", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV6, "2001:0db8::0", "2001:0db8::2", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV6, "2001:0db8::0", "2001:0db8::3", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV6, "2001:0db8::0", "2001:0db8::fffe", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV6, "2001:0db8::0", "2001:0db8::ffff", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV6, "2001:0db8::1", "2001:0db8::ffff", IPAddressOrRange_addressRange},
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{ IANA_AFI_IPV6, "2001:0db8::1", "2001:0db8::1", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV6, "2001:0db8::0:0", "2001:0db8::ffff:ffff", IPAddressOrRange_addressPrefix},
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{ IANA_AFI_IPV6, "2001:0db8::1:0", "2001:0db8::ffff:ffff", IPAddressOrRange_addressRange}
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};
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static int check_addr(IPAddrBlocks *addr, int type)
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{
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IPAddressFamily *fam;
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IPAddressOrRange *aorr;
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if (!TEST_int_eq(sk_IPAddressFamily_num(addr), 1))
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return 0;
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fam = sk_IPAddressFamily_value(addr, 0);
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if (!TEST_ptr(fam))
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return 0;
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if (!TEST_int_eq(fam->ipAddressChoice->type, IPAddressChoice_addressesOrRanges))
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return 0;
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if (!TEST_int_eq(sk_IPAddressOrRange_num(fam->ipAddressChoice->u.addressesOrRanges), 1))
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return 0;
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aorr = sk_IPAddressOrRange_value(fam->ipAddressChoice->u.addressesOrRanges, 0);
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if (!TEST_ptr(aorr))
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return 0;
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if (!TEST_int_eq(aorr->type, type))
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return 0;
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return 1;
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}
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static int test_addr_ranges(void)
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{
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IPAddrBlocks *addr = NULL;
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ASN1_OCTET_STRING *ip1 = NULL, *ip2 = NULL;
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size_t i;
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int testresult = 0;
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for (i = 0; i < OSSL_NELEM(ranges); i++) {
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addr = sk_IPAddressFamily_new_null();
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if (!TEST_ptr(addr))
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goto end;
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/*
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* Has the side effect of installing the comparison function onto the
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* stack.
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*/
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if (!TEST_true(X509v3_addr_canonize(addr)))
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goto end;
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ip1 = a2i_IPADDRESS(ranges[i].ip1);
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if (!TEST_ptr(ip1))
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goto end;
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if (!TEST_true(ip1->length == 4 || ip1->length == 16))
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goto end;
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ip2 = a2i_IPADDRESS(ranges[i].ip2);
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if (!TEST_ptr(ip2))
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goto end;
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if (!TEST_int_eq(ip2->length, ip1->length))
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goto end;
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if (!TEST_true(memcmp(ip1->data, ip2->data, ip1->length) <= 0))
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goto end;
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if (!TEST_true(X509v3_addr_add_range(addr, ranges[i].afi, NULL, ip1->data, ip2->data)))
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goto end;
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if (!TEST_true(X509v3_addr_is_canonical(addr)))
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goto end;
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if (!check_addr(addr, ranges[i].rorp))
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goto end;
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sk_IPAddressFamily_pop_free(addr, IPAddressFamily_free);
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addr = NULL;
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ASN1_OCTET_STRING_free(ip1);
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ASN1_OCTET_STRING_free(ip2);
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ip1 = ip2 = NULL;
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}
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testresult = 1;
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end:
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sk_IPAddressFamily_pop_free(addr, IPAddressFamily_free);
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ASN1_OCTET_STRING_free(ip1);
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ASN1_OCTET_STRING_free(ip2);
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return testresult;
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}
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static struct extvalues_st {
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const char *value;
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int pass;
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} extvalues[] = {
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/* No prefix is ok */
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.1\n", 1 },
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0/0\n", 1 },
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0/1\n", 1 },
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0/32\n", 1 },
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/* Prefix is too long */
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0/33\n", 0 },
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/* Unreasonably large prefix */
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0/12341234\n", 0 },
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/* Invalid IP addresses */
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{ "sbgp-ipAddrBlock = IPv4:192.0.0\n", 0 },
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{ "sbgp-ipAddrBlock = IPv4:256.0.0.0\n", 0 },
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{ "sbgp-ipAddrBlock = IPv4:-1.0.0.0\n", 0 },
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{ "sbgp-ipAddrBlock = IPv4:192.0.0.0.0\n", 0 },
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{ "sbgp-ipAddrBlock = IPv3:192.0.0.0\n", 0 },
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/* IPv6 */
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/* No prefix is ok */
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001::db8\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:0db8:0000:0000:0000:0000:0000:0000\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/0\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/1\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/32\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:0db8:0000:0000:0000:0000:0000:0000/32\n", 1 },
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/128\n", 1 },
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/* Prefix is too long */
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/129\n", 0 },
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/* Unreasonably large prefix */
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{ "sbgp-ipAddrBlock = IPv6:2001:db8::/12341234\n", 0 },
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/* Invalid IP addresses */
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/* Not enough blocks of numbers */
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{ "sbgp-ipAddrBlock = IPv6:2001:0db8:0000:0000:0000:0000:0000\n", 0 },
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/* Too many blocks of numbers */
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{ "sbgp-ipAddrBlock = IPv6:2001:0db8:0000:0000:0000:0000:0000:0000:0000\n", 0 },
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/* First value too large */
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{ "sbgp-ipAddrBlock = IPv6:1ffff:0db8:0000:0000:0000:0000:0000:0000\n", 0 },
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/* First value with invalid characters */
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{ "sbgp-ipAddrBlock = IPv6:fffg:0db8:0000:0000:0000:0000:0000:0000\n", 0 },
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/* First value is negative */
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{ "sbgp-ipAddrBlock = IPv6:-1:0db8:0000:0000:0000:0000:0000:0000\n", 0 }
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};
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static int test_ext_syntax(void)
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{
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size_t i;
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int testresult = 1;
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for (i = 0; i < OSSL_NELEM(extvalues); i++) {
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X509V3_CTX ctx;
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BIO *extbio = BIO_new_mem_buf(extvalues[i].value,
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strlen(extvalues[i].value));
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CONF *conf;
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long eline;
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if (!TEST_ptr(extbio))
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return 0 ;
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conf = NCONF_new(NULL);
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if (!TEST_ptr(conf)) {
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BIO_free(extbio);
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return 0;
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}
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if (!TEST_long_gt(NCONF_load_bio(conf, extbio, &eline), 0)) {
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testresult = 0;
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} else {
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X509V3_set_ctx_test(&ctx);
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X509V3_set_nconf(&ctx, conf);
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if (extvalues[i].pass) {
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if (!TEST_true(X509V3_EXT_add_nconf(conf, &ctx, "default",
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NULL))) {
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TEST_info("Value: %s", extvalues[i].value);
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testresult = 0;
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}
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} else {
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ERR_set_mark();
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if (!TEST_false(X509V3_EXT_add_nconf(conf, &ctx, "default",
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NULL))) {
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testresult = 0;
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TEST_info("Value: %s", extvalues[i].value);
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ERR_clear_last_mark();
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} else {
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ERR_pop_to_mark();
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}
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}
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}
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BIO_free(extbio);
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NCONF_free(conf);
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}
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return testresult;
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}
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#endif /* OPENSSL_NO_RFC3779 */
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int setup_tests(void)
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{
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if (!TEST_ptr(infile = test_get_argument(0)))
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return 0;
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ADD_TEST(test_pathlen);
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#ifndef OPENSSL_NO_RFC3779
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ADD_TEST(test_asid);
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ADD_TEST(test_addr_ranges);
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ADD_TEST(test_ext_syntax);
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#endif /* OPENSSL_NO_RFC3779 */
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return 1;
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}
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