/*- * Copyright (c) 2006 Michael Bushkov * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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 __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include "freebsd_test_suite/macros.h" #include "testutil.h" enum test_methods { TEST_GETHOSTBYNAME2, TEST_GETHOSTBYADDR, TEST_GETHOSTBYNAME2_GETADDRINFO, TEST_GETHOSTBYADDR_GETNAMEINFO, TEST_BUILD_SNAPSHOT, TEST_BUILD_ADDR_SNAPSHOT }; static int ipnode_flags = 0; static int af_type = AF_INET; static bool use_ipnode_functions; DECLARE_TEST_DATA(hostent) DECLARE_TEST_FILE_SNAPSHOT(hostent) DECLARE_1PASS_TEST(hostent) DECLARE_2PASS_TEST(hostent) /* These stubs will use gethostby***() or getipnodeby***() functions, * depending on the use_ipnode_functions global variable value */ static struct hostent *__gethostbyname2(const char *, int); static struct hostent *__gethostbyaddr(const void *, socklen_t, int); static void __freehostent(struct hostent *); static void clone_hostent(struct hostent *, struct hostent const *); static int compare_hostent(struct hostent *, struct hostent *, void *); static void dump_hostent(struct hostent *); static void free_hostent(struct hostent *); static int is_hostent_equal(struct hostent *, struct addrinfo *); static void sdump_hostent(struct hostent *, char *, size_t); static int hostent_read_hostlist_func(struct hostent *, char *); static int hostent_read_snapshot_addr(char *, unsigned char *, size_t); static int hostent_read_snapshot_func(struct hostent *, char *); static int hostent_test_correctness(struct hostent *, void *); static int hostent_test_gethostbyaddr(struct hostent *, void *); static int hostent_test_getaddrinfo_eq(struct hostent *, void *); static int hostent_test_getnameinfo_eq(struct hostent *, void *); static void usage(void) __attribute__((__noreturn__)); IMPLEMENT_TEST_DATA(hostent) IMPLEMENT_TEST_FILE_SNAPSHOT(hostent) IMPLEMENT_1PASS_TEST(hostent) IMPLEMENT_2PASS_TEST(hostent) static struct hostent * __gethostbyname2(const char *name, int af) { struct hostent *he; int error; if (use_ipnode_functions) { error = 0; he = getipnodebyname(name, af, ipnode_flags, &error); if (he == NULL) errno = error; } else he = gethostbyname2(name, af); return (he); } static struct hostent * __gethostbyaddr(const void *addr, socklen_t len, int af) { struct hostent *he; int error; if (use_ipnode_functions) { error = 0; he = getipnodebyaddr(addr, len, af, &error); if (he == NULL) errno = error; } else he = gethostbyaddr(addr, len, af); return (he); } static void __freehostent(struct hostent *he) { /* NOTE: checking for he != NULL - just in case */ if (use_ipnode_functions && he != NULL) freehostent(he); } static void clone_hostent(struct hostent *dest, struct hostent const *src) { ATF_REQUIRE(dest != NULL); ATF_REQUIRE(src != NULL); char **cp; int aliases_num; int addrs_num; size_t offset; memset(dest, 0, sizeof(struct hostent)); if (src->h_name != NULL) { dest->h_name = strdup(src->h_name); ATF_REQUIRE(dest->h_name != NULL); } dest->h_addrtype = src->h_addrtype; dest->h_length = src->h_length; if (src->h_aliases != NULL) { aliases_num = 0; for (cp = src->h_aliases; *cp; ++cp) ++aliases_num; dest->h_aliases = calloc(1, (aliases_num + 1) * sizeof(char *)); ATF_REQUIRE(dest->h_aliases != NULL); for (cp = src->h_aliases; *cp; ++cp) { dest->h_aliases[cp - src->h_aliases] = strdup(*cp); ATF_REQUIRE(dest->h_aliases[cp - src->h_aliases] != NULL); } } if (src->h_addr_list != NULL) { addrs_num = 0; for (cp = src->h_addr_list; *cp; ++cp) ++addrs_num; dest->h_addr_list = calloc(1, (addrs_num + 1) * sizeof(char *)); ATF_REQUIRE(dest->h_addr_list != NULL); for (cp = src->h_addr_list; *cp; ++cp) { offset = cp - src->h_addr_list; dest->h_addr_list[offset] = malloc(src->h_length); ATF_REQUIRE(dest->h_addr_list[offset] != NULL); memcpy(dest->h_addr_list[offset], src->h_addr_list[offset], src->h_length); } } } static void free_hostent(struct hostent *ht) { char **cp; ATF_REQUIRE(ht != NULL); free(ht->h_name); if (ht->h_aliases != NULL) { for (cp = ht->h_aliases; *cp; ++cp) free(*cp); free(ht->h_aliases); } if (ht->h_addr_list != NULL) { for (cp = ht->h_addr_list; *cp; ++cp) free(*cp); free(ht->h_addr_list); } } static int compare_hostent(struct hostent *ht1, struct hostent *ht2, void *mdata) { char **c1, **c2, **ct, **cb; int b; if (ht1 == ht2) return 0; if (ht1 == NULL || ht2 == NULL) goto errfin; if (ht1->h_name == NULL || ht2->h_name == NULL) goto errfin; if (ht1->h_addrtype != ht2->h_addrtype || ht1->h_length != ht2->h_length || strcmp(ht1->h_name, ht2->h_name) != 0) goto errfin; c1 = ht1->h_aliases; c2 = ht2->h_aliases; if ((ht1->h_aliases == NULL || ht2->h_aliases == NULL) && ht1->h_aliases != ht2->h_aliases) goto errfin; if (c1 != NULL && c2 != NULL) { cb = c1; for (;*c1; ++c1) { b = 0; for (ct = c2; *ct; ++ct) { if (strcmp(*c1, *ct) == 0) { b = 1; break; } } if (b == 0) { printf("h1 aliases item can't be found in h2 " "aliases\n"); goto errfin; } } c1 = cb; for (;*c2; ++c2) { b = 0; for (ct = c1; *ct; ++ct) { if (strcmp(*c2, *ct) == 0) { b = 1; break; } } if (b == 0) { printf("h2 aliases item can't be found in h1 " "aliases\n"); goto errfin; } } } c1 = ht1->h_addr_list; c2 = ht2->h_addr_list; if ((ht1->h_addr_list == NULL || ht2->h_addr_list== NULL) && ht1->h_addr_list != ht2->h_addr_list) goto errfin; if (c1 != NULL && c2 != NULL) { cb = c1; for (; *c1; ++c1) { b = 0; for (ct = c2; *ct; ++ct) { if (memcmp(*c1, *ct, ht1->h_length) == 0) { b = 1; break; } } if (b == 0) { printf("h1 addresses item can't be found in " "h2 addresses\n"); goto errfin; } } c1 = cb; for (; *c2; ++c2) { b = 0; for (ct = c1; *ct; ++ct) { if (memcmp(*c2, *ct, ht1->h_length) == 0) { b = 1; break; } } if (b == 0) { printf("h2 addresses item can't be found in " "h1 addresses\n"); goto errfin; } } } return 0; errfin: if (mdata == NULL) { printf("following structures are not equal:\n"); dump_hostent(ht1); dump_hostent(ht2); } return (-1); } static int check_addrinfo_for_name(struct addrinfo *ai, char const *name) { struct addrinfo *ai2; for (ai2 = ai; ai2 != NULL; ai2 = ai2->ai_next) { if (strcmp(ai2->ai_canonname, name) == 0) return (0); } return (-1); } static int check_addrinfo_for_addr(struct addrinfo *ai, char const *addr, socklen_t addrlen, int af) { struct addrinfo *ai2; for (ai2 = ai; ai2 != NULL; ai2 = ai2->ai_next) { if (af != ai2->ai_family) continue; switch (af) { case AF_INET: if (memcmp(addr, (void *)&((struct sockaddr_in *)ai2->ai_addr)->sin_addr, MIN(addrlen, ai2->ai_addrlen)) == 0) return (0); break; case AF_INET6: if (memcmp(addr, (void *)&((struct sockaddr_in6 *)ai2->ai_addr)->sin6_addr, MIN(addrlen, ai2->ai_addrlen)) == 0) return (0); break; default: break; } } return (-1); } static int is_hostent_equal(struct hostent *he, struct addrinfo *ai) { char **cp; int rv; #ifdef DEBUG printf("checking equality of he and ai\n"); #endif rv = check_addrinfo_for_name(ai, he->h_name); if (rv != 0) { printf("not equal - he->h_name couldn't be found\n"); return (rv); } for (cp = he->h_addr_list; *cp; ++cp) { rv = check_addrinfo_for_addr(ai, *cp, he->h_length, he->h_addrtype); if (rv != 0) { printf("not equal - one of he->h_addr_list couldn't be found\n"); return (rv); } } #ifdef DEBUG printf("equal\n"); #endif return (0); } static void sdump_hostent(struct hostent *ht, char *buffer, size_t buflen) { char **cp; size_t i; int written; written = snprintf(buffer, buflen, "%s %d %d", ht->h_name, ht->h_addrtype, ht->h_length); buffer += written; if (written > buflen) return; buflen -= written; if (ht->h_aliases != NULL) { if (*(ht->h_aliases) != NULL) { for (cp = ht->h_aliases; *cp; ++cp) { written = snprintf(buffer, buflen, " %s",*cp); buffer += written; if (written > buflen) return; buflen -= written; if (buflen == 0) return; } } else { written = snprintf(buffer, buflen, " noaliases"); buffer += written; if (written > buflen) return; buflen -= written; } } else { written = snprintf(buffer, buflen, " (null)"); buffer += written; if (written > buflen) return; buflen -= written; } written = snprintf(buffer, buflen, " : "); buffer += written; if (written > buflen) return; buflen -= written; if (ht->h_addr_list != NULL) { if (*(ht->h_addr_list) != NULL) { for (cp = ht->h_addr_list; *cp; ++cp) { for (i = 0; i < ht->h_length; ++i ) { written = snprintf(buffer, buflen, i + 1 != ht->h_length ? "%d." : "%d", (unsigned char)(*cp)[i]); buffer += written; if (written > buflen) return; buflen -= written; if (buflen == 0) return; } if (*(cp + 1) ) { written = snprintf(buffer, buflen, " "); buffer += written; if (written > buflen) return; buflen -= written; } } } else { written = snprintf(buffer, buflen, " noaddrs"); buffer += written; if (written > buflen) return; buflen -= written; } } else { written = snprintf(buffer, buflen, " (null)"); buffer += written; if (written > buflen) return; buflen -= written; } } static int hostent_read_hostlist_func(struct hostent *he, char *line) { struct hostent *result; int rv; #ifdef DEBUG printf("resolving %s: ", line); #endif result = __gethostbyname2(line, af_type); if (result != NULL) { #ifdef DEBUG printf("found\n"); #endif rv = hostent_test_correctness(result, NULL); if (rv != 0) { __freehostent(result); return (rv); } clone_hostent(he, result); __freehostent(result); } else { #ifdef DEBUG printf("not found\n"); #endif memset(he, 0, sizeof(struct hostent)); he->h_name = strdup(line); ATF_REQUIRE(he->h_name != NULL); } return (0); } static int hostent_read_snapshot_addr(char *addr, unsigned char *result, size_t len) { char *s, *ps, *ts; ps = addr; while ( (s = strsep(&ps, ".")) != NULL) { if (len == 0) return (-1); *result = (unsigned char)strtol(s, &ts, 10); ++result; if (*ts != '\0') return (-1); --len; } if (len != 0) return (-1); else return (0); } static int hostent_read_snapshot_func(struct hostent *ht, char *line) { StringList *sl1, *sl2; char *s, *ps, *ts; int i, rv; #ifdef DEBUG printf("1 line read from snapshot:\n%s\n", line); #endif rv = 0; i = 0; sl1 = sl2 = NULL; ps = line; memset(ht, 0, sizeof(struct hostent)); while ((s = strsep(&ps, " ")) != NULL) { switch (i) { case 0: ht->h_name = strdup(s); ATF_REQUIRE(ht->h_name != NULL); break; case 1: ht->h_addrtype = (int)strtol(s, &ts, 10); if (*ts != '\0') goto fin; break; case 2: ht->h_length = (int)strtol(s, &ts, 10); if (*ts != '\0') goto fin; break; case 3: if (sl1 == NULL) { if (strcmp(s, "(null)") == 0) return (0); sl1 = sl_init(); ATF_REQUIRE(sl1 != NULL); if (strcmp(s, "noaliases") != 0) { ts = strdup(s); ATF_REQUIRE(ts != NULL); sl_add(sl1, ts); } } else { if (strcmp(s, ":") == 0) ++i; else { ts = strdup(s); ATF_REQUIRE(ts != NULL); sl_add(sl1, ts); } } break; case 4: if (sl2 == NULL) { if (strcmp(s, "(null)") == 0) return (0); sl2 = sl_init(); ATF_REQUIRE(sl2 != NULL); if (strcmp(s, "noaddrs") != 0) { ts = calloc(1, ht->h_length); ATF_REQUIRE(ts != NULL); rv = hostent_read_snapshot_addr(s, (unsigned char *)ts, ht->h_length); sl_add(sl2, ts); if (rv != 0) goto fin; } } else { ts = calloc(1, ht->h_length); ATF_REQUIRE(ts != NULL); rv = hostent_read_snapshot_addr(s, (unsigned char *)ts, ht->h_length); sl_add(sl2, ts); if (rv != 0) goto fin; } break; default: break; } if (i != 3 && i != 4) ++i; } fin: if (sl1 != NULL) { sl_add(sl1, NULL); ht->h_aliases = sl1->sl_str; } if (sl2 != NULL) { sl_add(sl2, NULL); ht->h_addr_list = sl2->sl_str; } if ((i != 4) || (rv != 0)) { free_hostent(ht); memset(ht, 0, sizeof(struct hostent)); return (-1); } /* NOTE: is it a dirty hack or not? */ free(sl1); free(sl2); return (0); } static void dump_hostent(struct hostent *result) { if (result != NULL) { char buffer[1024]; sdump_hostent(result, buffer, sizeof(buffer)); printf("%s\n", buffer); } else printf("(null)\n"); } static int hostent_test_correctness(struct hostent *ht, void *mdata) { #ifdef DEBUG printf("testing correctness with the following data:\n"); dump_hostent(ht); #endif if (ht == NULL) goto errfin; if (ht->h_name == NULL) goto errfin; if (!((ht->h_addrtype >= 0) && (ht->h_addrtype < AF_MAX))) goto errfin; if ((ht->h_length != sizeof(struct in_addr)) && (ht->h_length != sizeof(struct in6_addr))) goto errfin; if (ht->h_aliases == NULL) goto errfin; if (ht->h_addr_list == NULL) goto errfin; #ifdef DEBUG printf("correct\n"); #endif return (0); errfin: printf("incorrect\n"); return (-1); } static int hostent_test_gethostbyaddr(struct hostent *he, void *mdata) { struct hostent *result; struct hostent_test_data *addr_test_data; int rv; addr_test_data = (struct hostent_test_data *)mdata; /* We should omit unresolved hostents */ if (he->h_addr_list != NULL) { char **cp; for (cp = he->h_addr_list; *cp; ++cp) { #ifdef DEBUG printf("doing reverse lookup for %s\n", he->h_name); #endif result = __gethostbyaddr(*cp, he->h_length, he->h_addrtype); if (result == NULL) { #ifdef DEBUG printf("%s: warning: reverse lookup failed " "for %s: %s\n", __func__, he->h_name, strerror(errno)); #endif continue; } rv = hostent_test_correctness(result, NULL); if (rv != 0) { __freehostent(result); return (rv); } if (addr_test_data != NULL) TEST_DATA_APPEND(hostent, addr_test_data, result); __freehostent(result); } } return (0); } static int hostent_test_getaddrinfo_eq(struct hostent *he, void *mdata) { struct addrinfo *ai, hints; int rv; ai = NULL; memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = af_type; hints.ai_flags = AI_CANONNAME; printf("using getaddrinfo() to resolve %s\n", he->h_name); /* struct hostent *he was not resolved */ if (he->h_addr_list == NULL) { /* We can be sure that he->h_name is not NULL */ rv = getaddrinfo(he->h_name, NULL, &hints, &ai); if (rv == 0) { printf("not ok - shouldn't have been resolved\n"); return (-1); } } else { rv = getaddrinfo(he->h_name, NULL, &hints, &ai); if (rv != 0) { printf("not ok - should have been resolved\n"); return (-1); } rv = is_hostent_equal(he, ai); if (rv != 0) { printf("not ok - addrinfo and hostent are not equal\n"); return (-1); } } return (0); } static int hostent_test_getnameinfo_eq(struct hostent *he, void *mdata) { char **cp; char buffer[NI_MAXHOST]; struct sockaddr_in sin; struct sockaddr_in6 sin6; struct sockaddr *saddr; struct hostent *result; int i, rv; if (he->h_addr_list == NULL) return (0); for (cp = he->h_addr_list; *cp; ++cp) { #ifdef DEBUG printf("doing reverse lookup for %s\n", he->h_name); #endif result = __gethostbyaddr(*cp, he->h_length, he->h_addrtype); if (result != NULL) { rv = hostent_test_correctness(result, NULL); if (rv != 0) { __freehostent(result); return (rv); } } else printf("%s: warning: reverse lookup failed " "for %s: %s\n", __func__, he->h_name, strerror(errno)); switch (he->h_addrtype) { case AF_INET: memset(&sin, 0, sizeof(struct sockaddr_in)); sin.sin_len = sizeof(struct sockaddr_in); sin.sin_family = AF_INET; memcpy(&sin.sin_addr, *cp, he->h_length); saddr = (struct sockaddr *)&sin; break; case AF_INET6: memset(&sin6, 0, sizeof(struct sockaddr_in6)); sin6.sin6_len = sizeof(struct sockaddr_in6); sin6.sin6_family = AF_INET6; memcpy(&sin6.sin6_addr, *cp, he->h_length); saddr = (struct sockaddr *)&sin6; break; default: printf("warning: %d family is unsupported\n", he->h_addrtype); continue; } ATF_REQUIRE(saddr != NULL); rv = getnameinfo(saddr, saddr->sa_len, buffer, sizeof(buffer), NULL, 0, NI_NAMEREQD); if (rv != 0 && result != NULL) { printf("getnameinfo() didn't make the reverse " "lookup, when it should have (%s)\n", gai_strerror(rv)); return (rv); } if (rv == 0 && result == NULL) { printf("getnameinfo() made the " "reverse lookup, when it shouldn't have\n"); return (rv); } if (rv != 0 && result == NULL) { #ifdef DEBUG printf("both getnameinfo() and ***byaddr() failed as " "expected\n"); #endif continue; } #ifdef DEBUG printf("comparing %s with %s\n", result->h_name, buffer); #endif /* * An address might reverse resolve to hostname alias or the * official hostname, e.g. moon.vub.ac.be. */ bool found_a_match; if (strcmp(result->h_name, buffer) == 0) { found_a_match = true; #ifdef DEBUG printf("matched official hostname\n"); #endif } else { for (i = 0; i < nitems(result->h_aliases); i++) { printf("[%d] resolved: %s\n", i, result->h_aliases[i]); if (strcmp(result->h_aliases[i], buffer) == 0) { printf("matched hostname alias\n"); found_a_match = true; break; } } } __freehostent(result); if (found_a_match) { #ifdef DEBUG printf("getnameinfo() and ***byaddr() results are " "equal\n"); #endif } else { printf("getnameinfo() and ***byaddr() results are not " "equal for %s\n", he->h_name); return (-1); } } return (0); } int run_tests(const char *hostlist_file, const char *snapshot_file, int af_type, enum test_methods method, bool use_ipv6_mapping) { struct hostent_test_data td, td_addr, td_snap; res_state statp; int rv = -2; switch (af_type) { case AF_INET: ATF_REQUIRE_FEATURE("inet"); ATF_REQUIRE(!use_ipv6_mapping); break; case AF_INET6: ATF_REQUIRE_FEATURE("inet6"); break; default: atf_tc_fail("unhandled address family: %d", af_type); break; } if (!use_ipnode_functions) { statp = __res_state(); if (statp == NULL || ((statp->options & RES_INIT) == 0 && res_ninit(statp) == -1)) { printf("error: can't init res_state\n"); return (-1); } if (use_ipv6_mapping) statp->options |= RES_USE_INET6; else statp->options &= ~RES_USE_INET6; } TEST_DATA_INIT(hostent, &td, clone_hostent, free_hostent); TEST_DATA_INIT(hostent, &td_addr, clone_hostent, free_hostent); TEST_DATA_INIT(hostent, &td_snap, clone_hostent, free_hostent); if (access(hostlist_file, R_OK) != 0) { printf("can't access the hostlist file %s\n", hostlist_file); rv = -1; goto fin; } #ifdef DEBUG printf("building host lists from %s\n", hostlist_file); #endif rv = TEST_SNAPSHOT_FILE_READ(hostent, hostlist_file, &td, hostent_read_hostlist_func); if (rv != 0) { printf("failed to read the host list file: %s\n", hostlist_file); goto fin; } if (snapshot_file != NULL) { if (access(snapshot_file, W_OK | R_OK) != 0) { if (errno == ENOENT) { if (method != TEST_GETHOSTBYADDR) method = TEST_BUILD_SNAPSHOT; else method = TEST_BUILD_ADDR_SNAPSHOT; } else { printf("can't access the snapshot file %s\n", snapshot_file); rv = -1; goto fin; } } else { rv = TEST_SNAPSHOT_FILE_READ(hostent, snapshot_file, &td_snap, hostent_read_snapshot_func); if (rv != 0) { printf("error reading snapshot file\n"); goto fin; } } } switch (method) { case TEST_GETHOSTBYNAME2: if (snapshot_file != NULL) rv = DO_2PASS_TEST(hostent, &td, &td_snap, compare_hostent, NULL); break; case TEST_GETHOSTBYADDR: rv = DO_1PASS_TEST(hostent, &td, hostent_test_gethostbyaddr, (void *)&td_addr); if (rv != 0) goto fin; if (snapshot_file != NULL) rv = DO_2PASS_TEST(hostent, &td_addr, &td_snap, compare_hostent, NULL); break; case TEST_GETHOSTBYNAME2_GETADDRINFO: rv = DO_1PASS_TEST(hostent, &td, hostent_test_getaddrinfo_eq, NULL); break; case TEST_GETHOSTBYADDR_GETNAMEINFO: rv = DO_1PASS_TEST(hostent, &td, hostent_test_getnameinfo_eq, NULL); break; case TEST_BUILD_SNAPSHOT: if (snapshot_file != NULL) { rv = TEST_SNAPSHOT_FILE_WRITE(hostent, snapshot_file, &td, sdump_hostent); } break; case TEST_BUILD_ADDR_SNAPSHOT: if (snapshot_file != NULL) { rv = DO_1PASS_TEST(hostent, &td, hostent_test_gethostbyaddr, (void *)&td_addr); if (rv != 0) goto fin; rv = TEST_SNAPSHOT_FILE_WRITE(hostent, snapshot_file, &td_addr, sdump_hostent); } break; default: rv = 0; break; } fin: TEST_DATA_DESTROY(hostent, &td_snap); TEST_DATA_DESTROY(hostent, &td_addr); TEST_DATA_DESTROY(hostent, &td); return (rv); } #define HOSTLIST_FILE "mach" #define _RUN_TESTS(tc, snapshot_file, af_type, method, use_ipv6_mapping) \ do { \ char *_hostlist_file; \ char *_snapshot_file; \ ATF_REQUIRE(0 < asprintf(&_hostlist_file, "%s/%s", \ atf_tc_get_config_var(tc, "srcdir"), HOSTLIST_FILE)); \ if (snapshot_file == NULL) \ _snapshot_file = NULL; \ else { \ _snapshot_file = strdup(snapshot_file); \ ATF_REQUIRE(_snapshot_file != NULL); \ } \ ATF_REQUIRE(run_tests(_hostlist_file, _snapshot_file, af_type, \ method, use_ipv6_mapping) == 0); \ } while(0) #define RUN_HOST_TESTS(tc, snapshot_file, af_type, method, use_ipv6_mapping) \ do { \ use_ipnode_functions = false; \ _RUN_TESTS(tc, snapshot_file, af_type, method, use_ipv6_mapping); \ } while(0) #define RUN_IPNODE_TESTS(tc, snapshot_file, af_type, method, use_ipv6_mapping) \ do { \ use_ipnode_functions = true; \ _RUN_TESTS(tc, snapshot_file, af_type, method, use_ipv6_mapping); \ } while(0) ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv4); ATF_TC_BODY(gethostbyaddr_ipv4, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv4_with_snapshot); ATF_TC_BODY(gethostbyaddr_ipv4_with_snapshot, tc) { RUN_HOST_TESTS(tc, "snapshot_htaddr4", AF_INET, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv6); ATF_TC_BODY(gethostbyaddr_ipv6, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv6_AI_V4MAPPED); ATF_TC_BODY(gethostbyaddr_ipv6_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv6_with_snapshot); ATF_TC_BODY(gethostbyaddr_ipv6_with_snapshot, tc) { RUN_HOST_TESTS(tc, "snapshot_htaddr6", AF_INET6, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_ipv6_with_snapshot_AI_V4MAPPED); ATF_TC_BODY(gethostbyaddr_ipv6_with_snapshot_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_HOST_TESTS(tc, "snapshot_htaddr6map", AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(gethostbyname2_getaddrinfo_ipv4); ATF_TC_BODY(gethostbyname2_getaddrinfo_ipv4, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYNAME2_GETADDRINFO, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_getaddrinfo_ipv6); ATF_TC_BODY(gethostbyname2_getaddrinfo_ipv6, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2_GETADDRINFO, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_getnameinfo_ipv4); ATF_TC_BODY(gethostbyaddr_getnameinfo_ipv4, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYADDR_GETNAMEINFO, false); } ATF_TC_WITHOUT_HEAD(gethostbyaddr_getnameinfo_ipv6); ATF_TC_BODY(gethostbyaddr_getnameinfo_ipv6, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR_GETNAMEINFO, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv4); ATF_TC_BODY(gethostbyname2_ipv4, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv4_with_snapshot); ATF_TC_BODY(gethostbyname2_ipv4_with_snapshot, tc) { RUN_HOST_TESTS(tc, "snapshot_htname4", AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv6); ATF_TC_BODY(gethostbyname2_ipv6, tc) { RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv6_AI_V4MAPPED); ATF_TC_BODY(gethostbyname2_ipv6_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_HOST_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv6_with_snapshot); ATF_TC_BODY(gethostbyname2_ipv6_with_snapshot, tc) { RUN_HOST_TESTS(tc, "snapshot_htname6", AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(gethostbyname2_ipv6_with_snapshot_AI_V4MAPPED); ATF_TC_BODY(gethostbyname2_ipv6_with_snapshot_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_HOST_TESTS(tc, "snapshot_htname6map", AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv4); ATF_TC_BODY(getipnodebyaddr_ipv4, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv4_with_snapshot); ATF_TC_BODY(getipnodebyaddr_ipv4_with_snapshot, tc) { RUN_IPNODE_TESTS(tc, "snapshot_ipnodeaddr4", AF_INET, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_getnameinfo_ipv4); ATF_TC_BODY(getipnodebyaddr_getnameinfo_ipv4, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYADDR_GETNAMEINFO, false); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6); ATF_TC_BODY(getipnodebyaddr_ipv6, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_AI_V4MAPPED); ATF_TC_BODY(getipnodebyaddr_ipv6_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_AI_V4MAPPED_CFG); ATF_TC_BODY(getipnodebyaddr_ipv6_AI_V4MAPPED_CFG, tc) { ipnode_flags = AI_V4MAPPED_CFG; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_AI_V4MAPPED_CFG_AI_ALL); ATF_TC_BODY(getipnodebyaddr_ipv6_AI_V4MAPPED_CFG_AI_ALL, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ALL; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_with_snapshot); ATF_TC_BODY(getipnodebyaddr_ipv6_with_snapshot, tc) { RUN_IPNODE_TESTS(tc, "snapshot_ipnodeaddr6", AF_INET6, TEST_GETHOSTBYADDR, false); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED); ATF_TC_BODY(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_IPNODE_TESTS(tc, "snapshot_ipnodeaddr6_AI_V4MAPPED", AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG); ATF_TC_BODY(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG, tc) { ipnode_flags = AI_V4MAPPED_CFG; RUN_IPNODE_TESTS(tc, "snapshot_ipnodeaddr6_AI_V4MAPPED_CFG", AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL); ATF_TC_BODY(getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ALL; RUN_IPNODE_TESTS(tc, "snapshot_ipnodeaddr6_AI_V4MAPPED_CFG_AI_ALL", AF_INET6, TEST_GETHOSTBYADDR, true); } ATF_TC_WITHOUT_HEAD(getipnodebyaddr_getnameinfo_ipv6); ATF_TC_BODY(getipnodebyaddr_getnameinfo_ipv6, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYADDR_GETNAMEINFO, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv4); ATF_TC_BODY(getipnodebyname_ipv4, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv4_with_snapshot); ATF_TC_BODY(getipnodebyname_ipv4_with_snapshot, tc) { RUN_IPNODE_TESTS(tc, "snapshot_ipnodename4", AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv4_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv4_AI_ADDRCONFIG, tc) { ipnode_flags = AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv4_with_snapshot_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv4_with_snapshot_AI_ADDRCONFIG, tc) { ipnode_flags = AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename4_AI_ADDRCONFIG", AF_INET, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_getaddrinfo_ipv4); ATF_TC_BODY(getipnodebyname_getaddrinfo_ipv4, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET, TEST_GETHOSTBYNAME2_GETADDRINFO, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6); ATF_TC_BODY(getipnodebyname_ipv6, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot, tc) { RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6", AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv6_AI_ADDRCONFIG, tc) { ipnode_flags = AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_AI_V4MAPPED); ATF_TC_BODY(getipnodebyname_ipv6_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_AI_V4MAPPED_CFG); ATF_TC_BODY(getipnodebyname_ipv6_AI_V4MAPPED_CFG, tc) { ipnode_flags = AI_V4MAPPED_CFG; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ADDRCONFIG, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ALL); ATF_TC_BODY(getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ALL, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ALL; RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED, tc) { ipnode_flags = AI_V4MAPPED; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6_AI_V4MAPPED", AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG, tc) { ipnode_flags = AI_V4MAPPED_CFG; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6_AI_V4MAPPED_CFG", AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ADDRCONFIG, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6_AI_V4MAPPED_CFG_AI_ADDRCONFIG", AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL, tc) { ipnode_flags = AI_V4MAPPED_CFG | AI_ALL; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6_AI_V4MAPPED_CFG_AI_ALL", AF_INET6, TEST_GETHOSTBYNAME2, true); } ATF_TC_WITHOUT_HEAD(getipnodebyname_ipv6_with_snapshot_AI_ADDRCONFIG); ATF_TC_BODY(getipnodebyname_ipv6_with_snapshot_AI_ADDRCONFIG, tc) { ipnode_flags = AI_ADDRCONFIG; RUN_IPNODE_TESTS(tc, "snapshot_ipnodename6_AI_ADDRCONFIG", AF_INET6, TEST_GETHOSTBYNAME2, false); } ATF_TC_WITHOUT_HEAD(getipnodebyname_getaddrinfo_ipv6); ATF_TC_BODY(getipnodebyname_getaddrinfo_ipv6, tc) { RUN_IPNODE_TESTS(tc, NULL, AF_INET6, TEST_GETHOSTBYNAME2_GETADDRINFO, false); } ATF_TP_ADD_TCS(tp) { /* gethostbyaddr */ ATF_TP_ADD_TC(tp, gethostbyaddr_ipv4); ATF_TP_ADD_TC(tp, gethostbyaddr_ipv4_with_snapshot); ATF_TP_ADD_TC(tp, gethostbyaddr_ipv6); ATF_TP_ADD_TC(tp, gethostbyaddr_ipv6_AI_V4MAPPED); /* XXX */ ATF_TP_ADD_TC(tp, gethostbyaddr_ipv6_with_snapshot); ATF_TP_ADD_TC(tp, gethostbyaddr_ipv6_with_snapshot_AI_V4MAPPED); ATF_TP_ADD_TC(tp, gethostbyaddr_getnameinfo_ipv4); ATF_TP_ADD_TC(tp, gethostbyaddr_getnameinfo_ipv6); /* gethostbyname2 */ ATF_TP_ADD_TC(tp, gethostbyname2_getaddrinfo_ipv4); ATF_TP_ADD_TC(tp, gethostbyname2_getaddrinfo_ipv6); ATF_TP_ADD_TC(tp, gethostbyname2_ipv4); ATF_TP_ADD_TC(tp, gethostbyname2_ipv4_with_snapshot); ATF_TP_ADD_TC(tp, gethostbyname2_ipv6); ATF_TP_ADD_TC(tp, gethostbyname2_ipv6_AI_V4MAPPED); ATF_TP_ADD_TC(tp, gethostbyname2_ipv6_with_snapshot); ATF_TP_ADD_TC(tp, gethostbyname2_ipv6_with_snapshot_AI_V4MAPPED); /* getipnodebyaddr */ ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv4); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv4_with_snapshot); ATF_TP_ADD_TC(tp, getipnodebyaddr_getnameinfo_ipv4); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_AI_V4MAPPED); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_AI_V4MAPPED_CFG); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_AI_V4MAPPED_CFG_AI_ALL); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_with_snapshot); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG); ATF_TP_ADD_TC(tp, getipnodebyaddr_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL); ATF_TP_ADD_TC(tp, getipnodebyaddr_getnameinfo_ipv6); /* getipnodebyname */ ATF_TP_ADD_TC(tp, getipnodebyname_ipv4); ATF_TP_ADD_TC(tp, getipnodebyname_ipv4_with_snapshot); ATF_TP_ADD_TC(tp, getipnodebyname_ipv4_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv4_with_snapshot_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_getaddrinfo_ipv4); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_AI_V4MAPPED); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_AI_V4MAPPED_CFG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_AI_V4MAPPED_CFG_AI_ALL); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot_AI_V4MAPPED_CFG_AI_ALL); ATF_TP_ADD_TC(tp, getipnodebyname_ipv6_with_snapshot_AI_ADDRCONFIG); ATF_TP_ADD_TC(tp, getipnodebyname_getaddrinfo_ipv6); return (atf_no_error()); }