/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2013 The FreeBSD Foundation * All rights reserved. * * This software was developed by Pawel Jakub Dawidek under sponsorship from * the FreeBSD Foundation. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS 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 AUTHORS 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 #define GETHOSTBYNAME 0x01 #define GETHOSTBYNAME2_AF_INET 0x02 #define GETHOSTBYNAME2_AF_INET6 0x04 #define GETHOSTBYADDR_AF_INET 0x08 #define GETHOSTBYADDR_AF_INET6 0x10 #define GETADDRINFO_AF_UNSPEC 0x20 #define GETADDRINFO_AF_INET 0x40 #define GETADDRINFO_AF_INET6 0x80 static bool addrinfo_compare(struct addrinfo *ai0, struct addrinfo *ai1) { struct addrinfo *at0, *at1; if (ai0 == NULL && ai1 == NULL) return (true); if (ai0 == NULL || ai1 == NULL) return (false); at0 = ai0; at1 = ai1; while (true) { if ((at0->ai_flags == at1->ai_flags) && (at0->ai_family == at1->ai_family) && (at0->ai_socktype == at1->ai_socktype) && (at0->ai_protocol == at1->ai_protocol) && (at0->ai_addrlen == at1->ai_addrlen) && (memcmp(at0->ai_addr, at1->ai_addr, at0->ai_addrlen) == 0)) { if (at0->ai_canonname != NULL && at1->ai_canonname != NULL) { if (strcmp(at0->ai_canonname, at1->ai_canonname) != 0) { return (false); } } if (at0->ai_canonname == NULL && at1->ai_canonname != NULL) { return (false); } if (at0->ai_canonname != NULL && at1->ai_canonname == NULL) { return (false); } if (at0->ai_next == NULL && at1->ai_next == NULL) return (true); if (at0->ai_next == NULL || at1->ai_next == NULL) return (false); at0 = at0->ai_next; at1 = at1->ai_next; } else { return (false); } } /* NOTREACHED */ fprintf(stderr, "Dead code reached in addrinfo_compare()\n"); exit(1); } static bool hostent_aliases_compare(char **aliases0, char **aliases1) { int i0, i1; if (aliases0 == NULL && aliases1 == NULL) return (true); if (aliases0 == NULL || aliases1 == NULL) return (false); for (i0 = 0; aliases0[i0] != NULL; i0++) { for (i1 = 0; aliases1[i1] != NULL; i1++) { if (strcmp(aliases0[i0], aliases1[i1]) == 0) break; } if (aliases1[i1] == NULL) return (false); } return (true); } static bool hostent_addr_list_compare(char **addr_list0, char **addr_list1, int length) { int i0, i1; if (addr_list0 == NULL && addr_list1 == NULL) return (true); if (addr_list0 == NULL || addr_list1 == NULL) return (false); for (i0 = 0; addr_list0[i0] != NULL; i0++) { for (i1 = 0; addr_list1[i1] != NULL; i1++) { if (memcmp(addr_list0[i0], addr_list1[i1], length) == 0) break; } if (addr_list1[i1] == NULL) return (false); } return (true); } static bool hostent_compare(const struct hostent *hp0, const struct hostent *hp1) { if (hp0 == NULL && hp1 != NULL) return (true); if (hp0 == NULL || hp1 == NULL) return (false); if (hp0->h_name != NULL || hp1->h_name != NULL) { if (hp0->h_name == NULL || hp1->h_name == NULL) return (false); if (strcmp(hp0->h_name, hp1->h_name) != 0) return (false); } if (!hostent_aliases_compare(hp0->h_aliases, hp1->h_aliases)) return (false); if (!hostent_aliases_compare(hp1->h_aliases, hp0->h_aliases)) return (false); if (hp0->h_addrtype != hp1->h_addrtype) return (false); if (hp0->h_length != hp1->h_length) return (false); if (!hostent_addr_list_compare(hp0->h_addr_list, hp1->h_addr_list, hp0->h_length)) { return (false); } if (!hostent_addr_list_compare(hp1->h_addr_list, hp0->h_addr_list, hp0->h_length)) { return (false); } return (true); } static void runtest(cap_channel_t *capdns, unsigned int expected) { unsigned int result, failure; struct addrinfo *ais, *aic, hints, *hintsp; struct hostent *hps, *hpc; struct in_addr ip4; struct in6_addr ip6; int caperr, syserr; failure = result = 0; hps = gethostbyname("example.com"); if (hps == NULL) { failure |= GETHOSTBYNAME; fprintf(stderr, "Unable to resolve %s IPv4.\n", "example.com"); } else { hpc = cap_gethostbyname(capdns, "example.com"); if (hostent_compare(hps, hpc)) result |= GETHOSTBYNAME; } hps = gethostbyname2("example.com", AF_INET); if (hps == NULL) { failure |= GETHOSTBYNAME2_AF_INET; fprintf(stderr, "Unable to resolve %s IPv4.\n", "example.com"); } else { hpc = cap_gethostbyname2(capdns, "example.com", AF_INET); if (hostent_compare(hps, hpc)) result |= GETHOSTBYNAME2_AF_INET; } hps = gethostbyname2("example.com", AF_INET6); if (hps == NULL) { failure |= GETHOSTBYNAME2_AF_INET6; fprintf(stderr, "Unable to resolve %s IPv6.\n", "example.com"); } else { hpc = cap_gethostbyname2(capdns, "example.com", AF_INET6); if (hostent_compare(hps, hpc)) result |= GETHOSTBYNAME2_AF_INET6; } hints.ai_flags = 0; hints.ai_family = AF_UNSPEC; hints.ai_socktype = 0; hints.ai_protocol = 0; hints.ai_addrlen = 0; hints.ai_addr = NULL; hints.ai_canonname = NULL; hints.ai_next = NULL; hintsp = &hints; syserr = getaddrinfo("freebsd.org", "25", hintsp, &ais); if (syserr != 0) { failure |= GETADDRINFO_AF_UNSPEC; fprintf(stderr, "Unable to issue [system] getaddrinfo() for AF_UNSPEC: %s\n", gai_strerror(syserr)); } else { caperr = cap_getaddrinfo(capdns, "freebsd.org", "25", hintsp, &aic); if (caperr == 0) { if (addrinfo_compare(ais, aic)) result |= GETADDRINFO_AF_UNSPEC; freeaddrinfo(ais); freeaddrinfo(aic); } } hints.ai_family = AF_INET; syserr = getaddrinfo("freebsd.org", "25", hintsp, &ais); if (syserr != 0) { failure |= GETADDRINFO_AF_INET; fprintf(stderr, "Unable to issue [system] getaddrinfo() for AF_UNSPEC: %s\n", gai_strerror(syserr)); } else { caperr = cap_getaddrinfo(capdns, "freebsd.org", "25", hintsp, &aic); if (caperr == 0) { if (addrinfo_compare(ais, aic)) result |= GETADDRINFO_AF_INET; freeaddrinfo(ais); freeaddrinfo(aic); } } hints.ai_family = AF_INET6; syserr = getaddrinfo("freebsd.org", "25", hintsp, &ais); if (syserr != 0) { failure |= GETADDRINFO_AF_INET6; fprintf(stderr, "Unable to issue [system] getaddrinfo() for AF_UNSPEC: %s\n", gai_strerror(syserr)); } else { caperr = cap_getaddrinfo(capdns, "freebsd.org", "25", hintsp, &aic); if (caperr == 0) { if (addrinfo_compare(ais, aic)) result |= GETADDRINFO_AF_INET6; freeaddrinfo(ais); freeaddrinfo(aic); } } /* XXX: hardcoded addresses for "google-public-dns-a.google.com". */ #define GOOGLE_DNS_IPV4 "8.8.8.8" #define GOOGLE_DNS_IPV6 "2001:4860:4860::8888" inet_pton(AF_INET, GOOGLE_DNS_IPV4, &ip4); hps = gethostbyaddr(&ip4, sizeof(ip4), AF_INET); if (hps == NULL) { failure |= GETHOSTBYADDR_AF_INET; fprintf(stderr, "Unable to resolve %s.\n", GOOGLE_DNS_IPV4); } else { hpc = cap_gethostbyaddr(capdns, &ip4, sizeof(ip4), AF_INET); if (hostent_compare(hps, hpc)) result |= GETHOSTBYADDR_AF_INET; } inet_pton(AF_INET6, GOOGLE_DNS_IPV6, &ip6); hps = gethostbyaddr(&ip6, sizeof(ip6), AF_INET6); if (hps == NULL) { failure |= GETHOSTBYADDR_AF_INET6; fprintf(stderr, "Unable to resolve %s.\n", GOOGLE_DNS_IPV6); } else { hpc = cap_gethostbyaddr(capdns, &ip6, sizeof(ip6), AF_INET6); if (hostent_compare(hps, hpc)) { caperr = h_errno; result |= GETHOSTBYADDR_AF_INET6; } } /* * If we had any failures, make sure that all lookups failed. If some * succeeded and some failed, there's a problem with the test or the DNS * and we should not fail silently. */ if (failure != 0) { ATF_REQUIRE_MSG(failure == (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETHOSTBYNAME2_AF_INET6 | GETADDRINFO_AF_UNSPEC | GETADDRINFO_AF_INET | GETADDRINFO_AF_INET6 | GETHOSTBYADDR_AF_INET | GETHOSTBYADDR_AF_INET6), "expected all tests to fail, got 0x%x", failure); atf_tc_skip( "no name lookups succeeded, tests require Internet access"); } ATF_REQUIRE_MSG(result == expected, "expected 0x%x, got 0x%x", expected, result); } static cap_channel_t * cap_dns_init(void) { cap_channel_t *capcas, *capdns; capcas = cap_init(); ATF_REQUIRE(capcas != NULL); capdns = cap_service_open(capcas, "system.dns"); ATF_REQUIRE(capdns != NULL); cap_close(capcas); return (capdns); } ATF_TC(dns_no_limits); ATF_TC_HEAD(dns_no_limits, tc) { } ATF_TC_BODY(dns_no_limits, tc) { cap_channel_t *capdns; capdns = cap_dns_init(); runtest(capdns, (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETHOSTBYNAME2_AF_INET6 | GETHOSTBYADDR_AF_INET | GETHOSTBYADDR_AF_INET6 | GETADDRINFO_AF_UNSPEC | GETADDRINFO_AF_INET | GETADDRINFO_AF_INET6)); cap_close(capdns); } ATF_TC(dns_all_limits); ATF_TC_HEAD(dns_all_limits, tc) { } ATF_TC_BODY(dns_all_limits, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET; families[1] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, NULL, 0) == -1); ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, NULL, 0) == -1); runtest(capdns, (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETHOSTBYNAME2_AF_INET6 | GETHOSTBYADDR_AF_INET | GETHOSTBYADDR_AF_INET6 | GETADDRINFO_AF_INET | GETADDRINFO_AF_INET6)); cap_close(capdns); } ATF_TC(dns_name_limit); ATF_TC_HEAD(dns_name_limit, tc) { } ATF_TC_BODY(dns_name_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET; families[1] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); runtest(capdns, (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETHOSTBYNAME2_AF_INET6 | GETADDRINFO_AF_INET | GETADDRINFO_AF_INET6)); cap_close(capdns); } ATF_TC(dns_addr_limit); ATF_TC_HEAD(dns_addr_limit, tc) { } ATF_TC_BODY(dns_addr_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET; families[1] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); runtest(capdns, (GETHOSTBYADDR_AF_INET | GETHOSTBYADDR_AF_INET6)); cap_close(capdns); } ATF_TC(dns_inet_limit); ATF_TC_HEAD(dns_inet_limit, tc) { } ATF_TC_BODY(dns_inet_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETHOSTBYADDR_AF_INET | GETADDRINFO_AF_INET)); cap_close(capdns); } ATF_TC(dns_inet6_limit); ATF_TC_HEAD(dns_inet6_limit, tc) { } ATF_TC_BODY(dns_inet6_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, (GETHOSTBYNAME2_AF_INET6 | GETHOSTBYADDR_AF_INET6 | GETADDRINFO_AF_INET6)); cap_close(capdns); } ATF_TC(dns_name_inet_limit); ATF_TC_HEAD(dns_name_inet_limit, tc) { } ATF_TC_BODY(dns_name_inet_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET; families[1] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); types[0] = "NAME2ADDR"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, (GETHOSTBYNAME | GETHOSTBYNAME2_AF_INET | GETADDRINFO_AF_INET)); cap_close(capdns); } ATF_TC(dns_name_inet6_limit); ATF_TC_HEAD(dns_name_inet6_limit, tc) { } ATF_TC_BODY(dns_name_inet6_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET6; families[1] = AF_INET; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); types[0] = "NAME2ADDR"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "ADDR2NAME"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, (GETHOSTBYNAME2_AF_INET6 | GETADDRINFO_AF_INET6)); cap_close(capdns); } ATF_TC(dns_addr_inet_limit); ATF_TC_HEAD(dns_addr_inet_limit, tc) { } ATF_TC_BODY(dns_addr_inet_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET; families[1] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); types[0] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET6; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, GETHOSTBYADDR_AF_INET); cap_close(capdns); } ATF_TC(dns_addr_inet6_limit); ATF_TC_HEAD(dns_addr_inet6_limit, tc) { } ATF_TC_BODY(dns_addr_inet6_limit, tc) { cap_channel_t *capdns; const char *types[2]; int families[2]; capdns = cap_dns_init(); types[0] = "NAME2ADDR"; types[1] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 2) == 0); families[0] = AF_INET6; families[1] = AF_INET; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 2) == 0); types[0] = "ADDR2NAME"; ATF_REQUIRE(cap_dns_type_limit(capdns, types, 1) == 0); types[1] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 2) == -1); types[0] = "NAME2ADDR"; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_type_limit(capdns, types, 1) == -1); families[0] = AF_INET6; ATF_REQUIRE(cap_dns_family_limit(capdns, families, 1) == 0); families[1] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 2) == -1); families[0] = AF_INET; ATF_REQUIRE_ERRNO(ENOTCAPABLE, cap_dns_family_limit(capdns, families, 1) == -1); runtest(capdns, GETHOSTBYADDR_AF_INET6); cap_close(capdns); } ATF_TP_ADD_TCS(tp) { ATF_TP_ADD_TC(tp, dns_no_limits); ATF_TP_ADD_TC(tp, dns_all_limits); ATF_TP_ADD_TC(tp, dns_name_limit); ATF_TP_ADD_TC(tp, dns_addr_limit); ATF_TP_ADD_TC(tp, dns_inet_limit); ATF_TP_ADD_TC(tp, dns_inet6_limit); ATF_TP_ADD_TC(tp, dns_name_inet_limit); ATF_TP_ADD_TC(tp, dns_name_inet6_limit); ATF_TP_ADD_TC(tp, dns_addr_inet_limit); ATF_TP_ADD_TC(tp, dns_addr_inet6_limit); return atf_no_error(); }