/* Copyright (c) 2014-2019, The Tor Project, Inc. */ /* See LICENSE for licensing information */ #define ROUTERSET_PRIVATE #include "core/or/or.h" #include "core/or/policies.h" #include "feature/dirparse/policy_parse.h" #include "feature/nodelist/nodelist.h" #include "feature/nodelist/routerset.h" #include "lib/geoip/geoip.h" #include "core/or/addr_policy_st.h" #include "core/or/extend_info_st.h" #include "feature/nodelist/node_st.h" #include "feature/nodelist/routerinfo_st.h" #include "feature/nodelist/routerstatus_st.h" #include "test/test.h" #define NS_MODULE routerset #define NS_SUBMODULE routerset_new /* * Functional (blackbox) test to determine that each member of the routerset * is non-NULL */ static void NS(test_main)(void *arg) { routerset_t *rs; (void)arg; rs = routerset_new(); tt_ptr_op(rs, OP_NE, NULL); tt_ptr_op(rs->list, OP_NE, NULL); tt_ptr_op(rs->names, OP_NE, NULL); tt_ptr_op(rs->digests, OP_NE, NULL); tt_ptr_op(rs->policies, OP_NE, NULL); tt_ptr_op(rs->country_names, OP_NE, NULL); done: routerset_free(rs); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_get_countryname /* * Functional test to strip the braces from a "{xx}" country code string. */ static void NS(test_main)(void *arg) { const char *input; char *name; (void)arg; /* strlen(c) < 4 */ input = "xxx"; name = routerset_get_countryname(input); tt_ptr_op(name, OP_EQ, NULL); tor_free(name); /* c[0] != '{' */ input = "xxx}"; name = routerset_get_countryname(input); tt_ptr_op(name, OP_EQ, NULL); tor_free(name); /* c[3] != '}' */ input = "{xxx"; name = routerset_get_countryname(input); tt_ptr_op(name, OP_EQ, NULL); tor_free(name); /* tor_strlower */ input = "{XX}"; name = routerset_get_countryname(input); tt_str_op(name, OP_EQ, "xx"); tor_free(name); input = "{xx}"; name = routerset_get_countryname(input); tt_str_op(name, OP_EQ, "xx"); done: tor_free(name); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_refresh_counties, geoip_not_loaded) /* * Structural (whitebox) test for routerset_refresh_counties, when the GeoIP DB * is not loaded. */ NS_DECL(int, geoip_is_loaded, (sa_family_t family)); NS_DECL(int, geoip_get_n_countries, (void)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); (void)arg; NS_MOCK(geoip_is_loaded); NS_MOCK(geoip_get_n_countries); routerset_refresh_countries(set); tt_ptr_op(set->countries, OP_EQ, NULL); tt_int_op(set->n_countries, OP_EQ, 0); tt_int_op(CALLED(geoip_is_loaded), OP_EQ, 1); tt_int_op(CALLED(geoip_get_n_countries), OP_EQ, 0); done: NS_UNMOCK(geoip_is_loaded); NS_UNMOCK(geoip_get_n_countries); routerset_free(set); } static int NS(geoip_is_loaded)(sa_family_t family) { (void)family; CALLED(geoip_is_loaded)++; return 0; } static int NS(geoip_get_n_countries)(void) { CALLED(geoip_get_n_countries)++; return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_refresh_counties, no_countries) /* * Structural test for routerset_refresh_counties, when there are no countries. */ NS_DECL(int, geoip_is_loaded, (sa_family_t family)); NS_DECL(int, geoip_get_n_countries, (void)); NS_DECL(country_t, geoip_get_country, (const char *country)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); (void)arg; NS_MOCK(geoip_is_loaded); NS_MOCK(geoip_get_n_countries); NS_MOCK(geoip_get_country); routerset_refresh_countries(set); tt_ptr_op(set->countries, OP_NE, NULL); tt_int_op(set->n_countries, OP_EQ, 1); tt_int_op((unsigned int)(*set->countries), OP_EQ, 0); tt_int_op(CALLED(geoip_is_loaded), OP_EQ, 1); tt_int_op(CALLED(geoip_get_n_countries), OP_EQ, 1); tt_int_op(CALLED(geoip_get_country), OP_EQ, 0); done: NS_UNMOCK(geoip_is_loaded); NS_UNMOCK(geoip_get_n_countries); NS_UNMOCK(geoip_get_country); routerset_free(set); } static int NS(geoip_is_loaded)(sa_family_t family) { (void)family; CALLED(geoip_is_loaded)++; return 1; } static int NS(geoip_get_n_countries)(void) { CALLED(geoip_get_n_countries)++; return 1; } static country_t NS(geoip_get_country)(const char *countrycode) { (void)countrycode; CALLED(geoip_get_country)++; return 1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_refresh_counties, one_valid_country) /* * Structural test for routerset_refresh_counties, with one valid country. */ NS_DECL(int, geoip_is_loaded, (sa_family_t family)); NS_DECL(int, geoip_get_n_countries, (void)); NS_DECL(country_t, geoip_get_country, (const char *country)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); (void)arg; NS_MOCK(geoip_is_loaded); NS_MOCK(geoip_get_n_countries); NS_MOCK(geoip_get_country); smartlist_add(set->country_names, tor_strndup("foo", 3)); routerset_refresh_countries(set); tt_ptr_op(set->countries, OP_NE, NULL); tt_int_op(set->n_countries, OP_EQ, 2); tt_int_op(CALLED(geoip_is_loaded), OP_EQ, 1); tt_int_op(CALLED(geoip_get_n_countries), OP_EQ, 1); tt_int_op(CALLED(geoip_get_country), OP_EQ, 1); tt_int_op((unsigned int)(*set->countries), OP_NE, 0); done: NS_UNMOCK(geoip_is_loaded); NS_UNMOCK(geoip_get_n_countries); NS_UNMOCK(geoip_get_country); routerset_free(set); } static int NS(geoip_is_loaded)(sa_family_t family) { (void)family; CALLED(geoip_is_loaded)++; return 1; } static int NS(geoip_get_n_countries)(void) { CALLED(geoip_get_n_countries)++; return 2; } static country_t NS(geoip_get_country)(const char *countrycode) { (void)countrycode; CALLED(geoip_get_country)++; return 1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_refresh_counties, one_invalid_country) /* * Structural test for routerset_refresh_counties, with one invalid * country code.. */ NS_DECL(int, geoip_is_loaded, (sa_family_t family)); NS_DECL(int, geoip_get_n_countries, (void)); NS_DECL(country_t, geoip_get_country, (const char *country)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); (void)arg; NS_MOCK(geoip_is_loaded); NS_MOCK(geoip_get_n_countries); NS_MOCK(geoip_get_country); smartlist_add(set->country_names, tor_strndup("foo", 3)); routerset_refresh_countries(set); tt_ptr_op(set->countries, OP_NE, NULL); tt_int_op(set->n_countries, OP_EQ, 2); tt_int_op(CALLED(geoip_is_loaded), OP_EQ, 1); tt_int_op(CALLED(geoip_get_n_countries), OP_EQ, 1); tt_int_op(CALLED(geoip_get_country), OP_EQ, 1); tt_int_op((unsigned int)(*set->countries), OP_EQ, 0); done: NS_UNMOCK(geoip_is_loaded); NS_UNMOCK(geoip_get_n_countries); NS_UNMOCK(geoip_get_country); routerset_free(set); } static int NS(geoip_is_loaded)(sa_family_t family) { (void)family; CALLED(geoip_is_loaded)++; return 1; } static int NS(geoip_get_n_countries)(void) { CALLED(geoip_get_n_countries)++; return 2; } static country_t NS(geoip_get_country)(const char *countrycode) { (void)countrycode; CALLED(geoip_get_country)++; return -1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, malformed) /* * Functional test, with a malformed string to parse. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); const char *s = "_"; int r; (void)arg; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, -1); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, valid_hexdigest) /* * Functional test for routerset_parse, that routerset_parse returns 0 * on a valid hexdigest entry. */ static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; set = routerset_new(); s = "$0000000000000000000000000000000000000000"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(digestmap_isempty(set->digests), OP_NE, 1); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, valid_nickname) /* * Functional test for routerset_parse, when given a valid nickname as input. */ static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; set = routerset_new(); s = "fred"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(strmap_isempty(set->names), OP_NE, 1); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, get_countryname) /* * Functional test for routerset_parse, when given a valid countryname. */ static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; set = routerset_new(); s = "{cc}"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(smartlist_len(set->country_names), OP_NE, 0); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, policy_wildcard) /* * Structural test for routerset_parse, when given a valid wildcard policy. */ NS_DECL(addr_policy_t *, router_parse_addr_policy_item_from_string, (const char *s, int assume_action, int *malformed_list)); static addr_policy_t *NS(mock_addr_policy); static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; NS_MOCK(router_parse_addr_policy_item_from_string); NS(mock_addr_policy) = tor_malloc_zero(sizeof(addr_policy_t)); set = routerset_new(); s = "*"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(smartlist_len(set->policies), OP_NE, 0); tt_int_op(CALLED(router_parse_addr_policy_item_from_string), OP_EQ, 1); done: routerset_free(set); } addr_policy_t * NS(router_parse_addr_policy_item_from_string)(const char *s, int assume_action, int *malformed_list) { (void)s; (void)assume_action; (void)malformed_list; CALLED(router_parse_addr_policy_item_from_string)++; return NS(mock_addr_policy); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, policy_ipv4) /* * Structural test for routerset_parse, when given a valid IPv4 address * literal policy. */ NS_DECL(addr_policy_t *, router_parse_addr_policy_item_from_string, (const char *s, int assume_action, int *bogus)); static addr_policy_t *NS(mock_addr_policy); static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; NS_MOCK(router_parse_addr_policy_item_from_string); NS(mock_addr_policy) = tor_malloc_zero(sizeof(addr_policy_t)); set = routerset_new(); s = "127.0.0.1"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(smartlist_len(set->policies), OP_NE, 0); tt_int_op(CALLED(router_parse_addr_policy_item_from_string), OP_EQ, 1); done: routerset_free(set); } addr_policy_t * NS(router_parse_addr_policy_item_from_string)(const char *s, int assume_action, int *bogus) { (void)s; (void)assume_action; CALLED(router_parse_addr_policy_item_from_string)++; *bogus = 0; return NS(mock_addr_policy); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_parse, policy_ipv6) /* * Structural test for routerset_parse, when given a valid IPv6 address * literal policy. */ NS_DECL(addr_policy_t *, router_parse_addr_policy_item_from_string, (const char *s, int assume_action, int *bad)); static addr_policy_t *NS(mock_addr_policy); static void NS(test_main)(void *arg) { routerset_t *set; const char *s; int r; (void)arg; NS_MOCK(router_parse_addr_policy_item_from_string); NS(mock_addr_policy) = tor_malloc_zero(sizeof(addr_policy_t)); set = routerset_new(); s = "::1"; r = routerset_parse(set, s, ""); tt_int_op(r, OP_EQ, 0); tt_int_op(smartlist_len(set->policies), OP_NE, 0); tt_int_op(CALLED(router_parse_addr_policy_item_from_string), OP_EQ, 1); done: routerset_free(set); } addr_policy_t * NS(router_parse_addr_policy_item_from_string)(const char *s, int assume_action, int *bad) { (void)s; (void)assume_action; CALLED(router_parse_addr_policy_item_from_string)++; *bad = 0; return NS(mock_addr_policy); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_union, source_bad) /* * Structural test for routerset_union, when given a bad source argument. */ NS_DECL(smartlist_t *, smartlist_new, (void)); static void NS(test_main)(void *arg) { routerset_t *set, *bad_set; (void)arg; set = routerset_new(); bad_set = routerset_new(); smartlist_free(bad_set->list); bad_set->list = NULL; NS_MOCK(smartlist_new); routerset_union(set, NULL); tt_int_op(CALLED(smartlist_new), OP_EQ, 0); routerset_union(set, bad_set); tt_int_op(CALLED(smartlist_new), OP_EQ, 0); done: NS_UNMOCK(smartlist_new); routerset_free(set); /* Just recreate list, so we can simply use routerset_free. */ bad_set->list = smartlist_new(); routerset_free(bad_set); } static smartlist_t * NS(smartlist_new)(void) { CALLED(smartlist_new)++; return NULL; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_union, one) /* * Functional test for routerset_union. */ static void NS(test_main)(void *arg) { routerset_t *src = routerset_new(); routerset_t *tgt; (void)arg; tgt = routerset_new(); smartlist_add_strdup(src->list, "{xx}"); routerset_union(tgt, src); tt_int_op(smartlist_len(tgt->list), OP_NE, 0); done: routerset_free(src); routerset_free(tgt); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_is_list /* * Functional tests for routerset_is_list. */ static void NS(test_main)(void *arg) { routerset_t *set; addr_policy_t *policy; int is_list; (void)arg; /* len(set->country_names) == 0, len(set->policies) == 0 */ set = routerset_new(); is_list = routerset_is_list(set); routerset_free(set); set = NULL; tt_int_op(is_list, OP_NE, 0); /* len(set->country_names) != 0, len(set->policies) == 0 */ set = routerset_new(); smartlist_add(set->country_names, tor_strndup("foo", 3)); is_list = routerset_is_list(set); routerset_free(set); set = NULL; tt_int_op(is_list, OP_EQ, 0); /* len(set->country_names) == 0, len(set->policies) != 0 */ set = routerset_new(); policy = tor_malloc_zero(sizeof(addr_policy_t)); smartlist_add(set->policies, (void *)policy); is_list = routerset_is_list(set); routerset_free(set); set = NULL; tt_int_op(is_list, OP_EQ, 0); /* len(set->country_names) != 0, len(set->policies) != 0 */ set = routerset_new(); smartlist_add(set->country_names, tor_strndup("foo", 3)); policy = tor_malloc_zero(sizeof(addr_policy_t)); smartlist_add(set->policies, (void *)policy); is_list = routerset_is_list(set); routerset_free(set); set = NULL; tt_int_op(is_list, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_needs_geoip /* * Functional tests for routerset_needs_geoip. */ static void NS(test_main)(void *arg) { routerset_t *set; int needs_geoip; (void)arg; set = NULL; needs_geoip = routerset_needs_geoip(set); tt_int_op(needs_geoip, OP_EQ, 0); set = routerset_new(); needs_geoip = routerset_needs_geoip(set); routerset_free(set); tt_int_op(needs_geoip, OP_EQ, 0); set = NULL; set = routerset_new(); smartlist_add(set->country_names, tor_strndup("xx", 2)); needs_geoip = routerset_needs_geoip(set); routerset_free(set); set = NULL; tt_int_op(needs_geoip, OP_NE, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_is_empty /* * Functional tests for routerset_is_empty. */ static void NS(test_main)(void *arg) { routerset_t *set = NULL; int is_empty; (void)arg; is_empty = routerset_is_empty(set); tt_int_op(is_empty, OP_NE, 0); set = routerset_new(); is_empty = routerset_is_empty(set); routerset_free(set); set = NULL; tt_int_op(is_empty, OP_NE, 0); set = routerset_new(); smartlist_add_strdup(set->list, "{xx}"); is_empty = routerset_is_empty(set); routerset_free(set); set = NULL; tt_int_op(is_empty, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, null_set_or_null_set_list) /* * Functional test for routerset_contains, when given a NULL set or the * set has a NULL list. */ static void NS(test_main)(void *arg) { routerset_t *set = NULL; int contains; (void)arg; contains = routerset_contains(set, NULL, 0, NULL, NULL, 0); tt_int_op(contains, OP_EQ, 0); set = tor_malloc_zero(sizeof(routerset_t)); set->list = NULL; contains = routerset_contains(set, NULL, 0, NULL, NULL, 0); tor_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_null_nickname) /* * Functional test for routerset_contains, when given a valid routerset but a * NULL nickname. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); char *nickname = NULL; int contains; (void)arg; contains = routerset_contains(set, NULL, 0, nickname, NULL, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_nickname) /* * Functional test for routerset_contains, when given a valid routerset * and the nickname is in the routerset. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); const char *nickname; int contains; (void)arg; nickname = "Foo"; /* This tests the lowercase comparison as well. */ strmap_set_lc(set->names, nickname, (void *)1); contains = routerset_contains(set, NULL, 0, nickname, NULL, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 4); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_no_nickname) /* * Functional test for routerset_contains, when given a valid routerset * and the nickname is not in the routerset. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains; (void)arg; strmap_set_lc(set->names, "bar", (void *)1); contains = routerset_contains(set, NULL, 0, "foo", NULL, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_digest) /* * Functional test for routerset_contains, when given a valid routerset * and the digest is contained in the routerset. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains; uint8_t foo[20] = { 2, 3, 4 }; (void)arg; digestmap_set(set->digests, (const char*)foo, (void *)1); contains = routerset_contains(set, NULL, 0, NULL, (const char*)foo, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 4); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_no_digest) /* * Functional test for routerset_contains, when given a valid routerset * and the digest is not contained in the routerset. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains; uint8_t bar[20] = { 9, 10, 11, 55 }; uint8_t foo[20] = { 1, 2, 3, 4}; (void)arg; digestmap_set(set->digests, (const char*)bar, (void *)1); contains = routerset_contains(set, NULL, 0, NULL, (const char*)foo, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_null_digest) /* * Functional test for routerset_contains, when given a valid routerset * and the digest is NULL. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains; uint8_t bar[20] = { 9, 10, 11, 55 }; (void)arg; digestmap_set(set->digests, (const char*)bar, (void *)1); contains = routerset_contains(set, NULL, 0, NULL, NULL, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_addr) /* * Structural test for routerset_contains, when given a valid routerset * and the address is rejected by policy. */ NS_DECL(addr_policy_result_t, compare_tor_addr_to_addr_policy, (const tor_addr_t *addr, uint16_t port, const smartlist_t *policy)); static tor_addr_t MOCK_TOR_ADDR; #define MOCK_TOR_ADDR_PTR (&MOCK_TOR_ADDR) static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); tor_addr_t *addr = MOCK_TOR_ADDR_PTR; int contains; (void)arg; NS_MOCK(compare_tor_addr_to_addr_policy); contains = routerset_contains(set, addr, 0, NULL, NULL, 0); routerset_free(set); tt_int_op(CALLED(compare_tor_addr_to_addr_policy), OP_EQ, 1); tt_int_op(contains, OP_EQ, 3); done: ; } addr_policy_result_t NS(compare_tor_addr_to_addr_policy)(const tor_addr_t *addr, uint16_t port, const smartlist_t *policy) { (void)port; (void)policy; CALLED(compare_tor_addr_to_addr_policy)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); return ADDR_POLICY_REJECTED; done: return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_no_addr) /* * Structural test for routerset_contains, when given a valid routerset * and the address is not rejected by policy. */ NS_DECL(addr_policy_result_t, compare_tor_addr_to_addr_policy, (const tor_addr_t *addr, uint16_t port, const smartlist_t *policy)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); tor_addr_t *addr = MOCK_TOR_ADDR_PTR; int contains; (void)arg; NS_MOCK(compare_tor_addr_to_addr_policy); contains = routerset_contains(set, addr, 0, NULL, NULL, 0); routerset_free(set); tt_int_op(CALLED(compare_tor_addr_to_addr_policy), OP_EQ, 1); tt_int_op(contains, OP_EQ, 0); done: ; } addr_policy_result_t NS(compare_tor_addr_to_addr_policy)(const tor_addr_t *addr, uint16_t port, const smartlist_t *policy) { (void)port; (void)policy; CALLED(compare_tor_addr_to_addr_policy)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); return ADDR_POLICY_ACCEPTED; done: return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, set_and_null_addr) /* * Structural test for routerset_contains, when given a valid routerset * and the address is NULL. */ NS_DECL(addr_policy_result_t, compare_tor_addr_to_addr_policy, (const tor_addr_t *addr, uint16_t port, const smartlist_t *policy)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains; (void)arg; NS_MOCK(compare_tor_addr_to_addr_policy); contains = routerset_contains(set, NULL, 0, NULL, NULL, 0); routerset_free(set); tt_int_op(contains, OP_EQ, 0); done: ; } addr_policy_result_t NS(compare_tor_addr_to_addr_policy)(const tor_addr_t *addr, uint16_t port, const smartlist_t *policy) { (void)port; (void)policy; CALLED(compare_tor_addr_to_addr_policy)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); return ADDR_POLICY_ACCEPTED; done: return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, countries_no_geoip) /* * Structural test for routerset_contains, when there is no matching country * for the address. */ NS_DECL(addr_policy_result_t, compare_tor_addr_to_addr_policy, (const tor_addr_t *addr, uint16_t port, const smartlist_t *policy)); NS_DECL(int, geoip_get_country_by_addr, (const tor_addr_t *addr)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains = 1; (void)arg; NS_MOCK(compare_tor_addr_to_addr_policy); NS_MOCK(geoip_get_country_by_addr); set->countries = bitarray_init_zero(1); bitarray_set(set->countries, 1); contains = routerset_contains(set, MOCK_TOR_ADDR_PTR, 0, NULL, NULL, -1); routerset_free(set); tt_int_op(contains, OP_EQ, 0); tt_int_op(CALLED(compare_tor_addr_to_addr_policy), OP_EQ, 1); tt_int_op(CALLED(geoip_get_country_by_addr), OP_EQ, 1); done: ; } addr_policy_result_t NS(compare_tor_addr_to_addr_policy)(const tor_addr_t *addr, uint16_t port, const smartlist_t *policy) { (void)port; (void)policy; CALLED(compare_tor_addr_to_addr_policy)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); done: return ADDR_POLICY_ACCEPTED; } int NS(geoip_get_country_by_addr)(const tor_addr_t *addr) { CALLED(geoip_get_country_by_addr)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); done: return -1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains, countries_geoip) /* * Structural test for routerset_contains, when there a matching country * for the address. */ NS_DECL(addr_policy_result_t, compare_tor_addr_to_addr_policy, (const tor_addr_t *addr, uint16_t port, const smartlist_t *policy)); NS_DECL(int, geoip_get_country_by_addr, (const tor_addr_t *addr)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int contains = 1; (void)arg; NS_MOCK(compare_tor_addr_to_addr_policy); NS_MOCK(geoip_get_country_by_addr); set->n_countries = 2; set->countries = bitarray_init_zero(1); bitarray_set(set->countries, 1); contains = routerset_contains(set, MOCK_TOR_ADDR_PTR, 0, NULL, NULL, -1); routerset_free(set); tt_int_op(contains, OP_EQ, 2); tt_int_op(CALLED(compare_tor_addr_to_addr_policy), OP_EQ, 1); tt_int_op(CALLED(geoip_get_country_by_addr), OP_EQ, 1); done: ; } addr_policy_result_t NS(compare_tor_addr_to_addr_policy)(const tor_addr_t *addr, uint16_t port, const smartlist_t *policy) { (void)port; (void)policy; CALLED(compare_tor_addr_to_addr_policy)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); done: return ADDR_POLICY_ACCEPTED; } int NS(geoip_get_country_by_addr)(const tor_addr_t *addr) { CALLED(geoip_get_country_by_addr)++; tt_ptr_op(addr, OP_EQ, MOCK_TOR_ADDR_PTR); done: return 1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_add_unknown_ccs, only_flag_and_no_ccs) /* * Functional test for routerset_add_unknown_ccs, where only_if_some_cc_set * is set and there are no country names. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); routerset_t **setp = &set; int r; (void)arg; r = routerset_add_unknown_ccs(setp, 1); tt_int_op(r, OP_EQ, 0); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_add_unknown_ccs, creates_set) /* * Functional test for routerset_add_unknown_ccs, where the set argument * is created if passed in as NULL. */ /* The mock is only used to stop the test from asserting erroneously. */ NS_DECL(country_t, geoip_get_country, (const char *country)); static void NS(test_main)(void *arg) { routerset_t *set = NULL; routerset_t **setp = &set; int r; (void)arg; NS_MOCK(geoip_get_country); r = routerset_add_unknown_ccs(setp, 0); tt_ptr_op(*setp, OP_NE, NULL); tt_int_op(r, OP_EQ, 0); done: if (set != NULL) routerset_free(set); } country_t NS(geoip_get_country)(const char *country) { (void)country; CALLED(geoip_get_country)++; return -1; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_add_unknown_ccs, add_unknown) /* * Structural test for routerset_add_unknown_ccs, that the "{??}" * country code is added to the list. */ NS_DECL(country_t, geoip_get_country, (const char *country)); NS_DECL(int, geoip_is_loaded, (sa_family_t family)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); routerset_t **setp = &set; int r; (void)arg; NS_MOCK(geoip_get_country); NS_MOCK(geoip_is_loaded); r = routerset_add_unknown_ccs(setp, 0); tt_int_op(r, OP_EQ, 1); tt_int_op(smartlist_contains_string(set->country_names, "??"), OP_EQ, 1); tt_int_op(smartlist_contains_string(set->list, "{??}"), OP_EQ, 1); done: if (set != NULL) routerset_free(set); } country_t NS(geoip_get_country)(const char *country) { int arg_is_qq, arg_is_a1; CALLED(geoip_get_country)++; arg_is_qq = !strcmp(country, "??"); arg_is_a1 = !strcmp(country, "A1"); tt_int_op(arg_is_qq || arg_is_a1, OP_EQ, 1); if (arg_is_qq) return 1; done: return -1; } int NS(geoip_is_loaded)(sa_family_t family) { CALLED(geoip_is_loaded)++; tt_int_op(family, OP_EQ, AF_INET); done: return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_add_unknown_ccs, add_a1) /* * Structural test for routerset_add_unknown_ccs, that the "{a1}" * country code is added to the list. */ NS_DECL(country_t, geoip_get_country, (const char *country)); NS_DECL(int, geoip_is_loaded, (sa_family_t family)); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); routerset_t **setp = &set; int r; (void)arg; NS_MOCK(geoip_get_country); NS_MOCK(geoip_is_loaded); r = routerset_add_unknown_ccs(setp, 0); tt_int_op(r, OP_EQ, 1); tt_int_op(smartlist_contains_string(set->country_names, "a1"), OP_EQ, 1); tt_int_op(smartlist_contains_string(set->list, "{a1}"), OP_EQ, 1); done: if (set != NULL) routerset_free(set); } country_t NS(geoip_get_country)(const char *country) { int arg_is_qq, arg_is_a1; CALLED(geoip_get_country)++; arg_is_qq = !strcmp(country, "??"); arg_is_a1 = !strcmp(country, "A1"); tt_int_op(arg_is_qq || arg_is_a1, OP_EQ, 1); if (arg_is_a1) return 1; done: return -1; } int NS(geoip_is_loaded)(sa_family_t family) { CALLED(geoip_is_loaded)++; tt_int_op(family, OP_EQ, AF_INET); done: return 0; } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_contains_extendinfo /* * Functional test for routerset_contains_extendinfo. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); extend_info_t ei; int r; const char *nickname = "foo"; (void)arg; memset(&ei, 0, sizeof(ei)); strmap_set_lc(set->names, nickname, (void *)1); strncpy(ei.nickname, nickname, sizeof(ei.nickname) - 1); ei.nickname[sizeof(ei.nickname) - 1] = '\0'; r = routerset_contains_extendinfo(set, &ei); tt_int_op(r, OP_EQ, 4); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_contains_router /* * Functional test for routerset_contains_router. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); routerinfo_t ri; country_t country = 1; int r; const char *nickname = "foo"; (void)arg; memset(&ri, 0, sizeof(ri)); strmap_set_lc(set->names, nickname, (void *)1); ri.nickname = (char *)nickname; r = routerset_contains_router(set, &ri, country); tt_int_op(r, OP_EQ, 4); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_contains_routerstatus /* * Functional test for routerset_contains_routerstatus. */ // XXX: This is a bit brief. It only populates and tests the nickname fields // ie., enough to make the containment check succeed. Perhaps it should do // a bit more or test a bit more. static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); routerstatus_t rs; country_t country = 1; int r; const char *nickname = "foo"; (void)arg; memset(&rs, 0, sizeof(rs)); strmap_set_lc(set->names, nickname, (void *)1); strncpy(rs.nickname, nickname, sizeof(rs.nickname) - 1); rs.nickname[sizeof(rs.nickname) - 1] = '\0'; r = routerset_contains_routerstatus(set, &rs, country); tt_int_op(r, OP_EQ, 4); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains_node, none) /* * Functional test for routerset_contains_node, when the node has no * routerset or routerinfo. */ static node_t NS(mock_node); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int r; (void)arg; memset(&NS(mock_node), 0, sizeof(NS(mock_node))); NS(mock_node).ri = NULL; NS(mock_node).rs = NULL; r = routerset_contains_node(set, &NS(mock_node)); tt_int_op(r, OP_EQ, 0); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains_node, routerstatus) /* * Functional test for routerset_contains_node, when the node has a * routerset and no routerinfo. */ static node_t NS(mock_node); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int r; const char *nickname = "foo"; routerstatus_t rs; (void)arg; strmap_set_lc(set->names, nickname, (void *)1); strncpy(rs.nickname, nickname, sizeof(rs.nickname) - 1); rs.nickname[sizeof(rs.nickname) - 1] = '\0'; memset(&NS(mock_node), 0, sizeof(NS(mock_node))); NS(mock_node).ri = NULL; NS(mock_node).rs = &rs; r = routerset_contains_node(set, &NS(mock_node)); tt_int_op(r, OP_EQ, 4); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_contains_node, routerinfo) /* * Functional test for routerset_contains_node, when the node has no * routerset and a routerinfo. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); int r; const char *nickname = "foo"; routerinfo_t ri; node_t mock_node; (void)arg; strmap_set_lc(set->names, nickname, (void *)1); ri.nickname = (char *)nickname; memset(&mock_node, 0, sizeof(mock_node)); mock_node.ri = &ri; mock_node.rs = NULL; r = routerset_contains_node(set, &mock_node); tt_int_op(r, OP_EQ, 4); done: routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, no_routerset) /* * Functional test for routerset_get_all_nodes, when routerset is NULL or * the routerset list is NULL. */ static void NS(test_main)(void *arg) { smartlist_t *out = smartlist_new(); routerset_t *set = NULL; (void)arg; tt_int_op(smartlist_len(out), OP_EQ, 0); routerset_get_all_nodes(out, NULL, NULL, 0); tt_int_op(smartlist_len(out), OP_EQ, 0); set = routerset_new(); smartlist_free(set->list); routerset_get_all_nodes(out, NULL, NULL, 0); tt_int_op(smartlist_len(out), OP_EQ, 0); /* Just recreate list, so we can simply use routerset_free. */ set->list = smartlist_new(); done: routerset_free(set); smartlist_free(out); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, list_with_no_nodes) /* * Structural test for routerset_get_all_nodes, when the routerset list * is empty. */ NS_DECL(const node_t *, node_get_by_nickname, (const char *nickname, unsigned flags)); static const char *NS(mock_nickname); static void NS(test_main)(void *arg) { smartlist_t *out = smartlist_new(); routerset_t *set = routerset_new(); int out_len; (void)arg; NS_MOCK(node_get_by_nickname); NS(mock_nickname) = "foo"; smartlist_add_strdup(set->list, NS(mock_nickname)); routerset_get_all_nodes(out, set, NULL, 0); out_len = smartlist_len(out); smartlist_free(out); routerset_free(set); tt_int_op(out_len, OP_EQ, 0); tt_int_op(CALLED(node_get_by_nickname), OP_EQ, 1); done: ; } const node_t * NS(node_get_by_nickname)(const char *nickname, unsigned flags) { CALLED(node_get_by_nickname)++; tt_str_op(nickname, OP_EQ, NS(mock_nickname)); tt_uint_op(flags, OP_EQ, 0); done: return NULL; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, list_flag_not_running) /* * Structural test for routerset_get_all_nodes, with the running_only flag * is set but the nodes are not running. */ NS_DECL(const node_t *, node_get_by_nickname, (const char *nickname, unsigned flags)); static const char *NS(mock_nickname); static node_t NS(mock_node); static void NS(test_main)(void *arg) { smartlist_t *out = smartlist_new(); routerset_t *set = routerset_new(); int out_len; (void)arg; NS_MOCK(node_get_by_nickname); NS(mock_node).is_running = 0; NS(mock_nickname) = "foo"; smartlist_add_strdup(set->list, NS(mock_nickname)); routerset_get_all_nodes(out, set, NULL, 1); out_len = smartlist_len(out); smartlist_free(out); routerset_free(set); tt_int_op(out_len, OP_EQ, 0); tt_int_op(CALLED(node_get_by_nickname), OP_EQ, 1); done: ; } const node_t * NS(node_get_by_nickname)(const char *nickname, unsigned flags) { CALLED(node_get_by_nickname)++; tt_str_op(nickname, OP_EQ, NS(mock_nickname)); tt_int_op(flags, OP_EQ, 0); done: return &NS(mock_node); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, list) /* * Structural test for routerset_get_all_nodes. */ NS_DECL(const node_t *, node_get_by_nickname, (const char *nickname, unsigned flags)); static char *NS(mock_nickname); static node_t NS(mock_node); static void NS(test_main)(void *arg) { smartlist_t *out = smartlist_new(); routerset_t *set = routerset_new(); int out_len; node_t *ent; (void)arg; NS_MOCK(node_get_by_nickname); NS(mock_nickname) = tor_strdup("foo"); smartlist_add(set->list, NS(mock_nickname)); routerset_get_all_nodes(out, set, NULL, 0); out_len = smartlist_len(out); ent = (node_t *)smartlist_get(out, 0); smartlist_free(out); routerset_free(set); tt_int_op(out_len, OP_EQ, 1); tt_ptr_op(ent, OP_EQ, &NS(mock_node)); tt_int_op(CALLED(node_get_by_nickname), OP_EQ, 1); done: ; } const node_t * NS(node_get_by_nickname)(const char *nickname, unsigned flags) { CALLED(node_get_by_nickname)++; tt_str_op(nickname, OP_EQ, NS(mock_nickname)); tt_int_op(flags, OP_EQ, 0); done: return &NS(mock_node); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, nodelist_with_no_nodes) /* * Structural test for routerset_get_all_nodes, when the nodelist has no nodes. */ NS_DECL(const smartlist_t *, nodelist_get_list, (void)); static smartlist_t *NS(mock_smartlist); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); smartlist_t *out = smartlist_new(); int r; (void)arg; NS_MOCK(nodelist_get_list); smartlist_add_strdup(set->country_names, "{xx}"); NS(mock_smartlist) = smartlist_new(); routerset_get_all_nodes(out, set, NULL, 1); r = smartlist_len(out); routerset_free(set); smartlist_free(out); smartlist_free(NS(mock_smartlist)); tt_int_op(r, OP_EQ, 0); tt_int_op(CALLED(nodelist_get_list), OP_EQ, 1); done: ; } const smartlist_t * NS(nodelist_get_list)(void) { CALLED(nodelist_get_list)++; return NS(mock_smartlist); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_get_all_nodes, nodelist_flag_not_running) /* * Structural test for routerset_get_all_nodes, with a non-list routerset * the running_only flag is set, but the nodes are not running. */ NS_DECL(const smartlist_t *, nodelist_get_list, (void)); static smartlist_t *NS(mock_smartlist); static node_t NS(mock_node); static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); smartlist_t *out = smartlist_new(); int r; (void)arg; NS_MOCK(nodelist_get_list); smartlist_add_strdup(set->country_names, "{xx}"); NS(mock_smartlist) = smartlist_new(); NS(mock_node).is_running = 0; smartlist_add(NS(mock_smartlist), (void *)&NS(mock_node)); routerset_get_all_nodes(out, set, NULL, 1); r = smartlist_len(out); routerset_free(set); smartlist_free(out); smartlist_free(NS(mock_smartlist)); tt_int_op(r, OP_EQ, 0); tt_int_op(CALLED(nodelist_get_list), OP_EQ, 1); done: ; } const smartlist_t * NS(nodelist_get_list)(void) { CALLED(nodelist_get_list)++; return NS(mock_smartlist); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_subtract_nodes /* * Functional test for routerset_subtract_nodes. */ static void NS(test_main)(void *arg) { routerset_t *set = routerset_new(); smartlist_t *list = smartlist_new(); const char *nickname = "foo"; routerinfo_t ri; node_t mock_node; (void)arg; strmap_set_lc(set->names, nickname, (void *)1); ri.nickname = (char *)nickname; mock_node.rs = NULL; mock_node.ri = &ri; smartlist_add(list, (void *)&mock_node); tt_int_op(smartlist_len(list), OP_NE, 0); routerset_subtract_nodes(list, set); tt_int_op(smartlist_len(list), OP_EQ, 0); done: routerset_free(set); smartlist_free(list); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_subtract_nodes, null_routerset) /* * Functional test for routerset_subtract_nodes, with a NULL routerset. */ static void NS(test_main)(void *arg) { routerset_t *set = NULL; smartlist_t *list = smartlist_new(); const char *nickname = "foo"; routerinfo_t ri; node_t mock_node; (void)arg; ri.nickname = (char *)nickname; mock_node.ri = &ri; smartlist_add(list, (void *)&mock_node); tt_int_op(smartlist_len(list), OP_NE, 0); routerset_subtract_nodes(list, set); tt_int_op(smartlist_len(list), OP_NE, 0); done: routerset_free(set); smartlist_free(list); } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_to_string /* * Functional test for routerset_to_string. */ static void NS(test_main)(void *arg) { routerset_t *set = NULL; char *s = NULL; (void)arg; set = NULL; s = routerset_to_string(set); tt_str_op(s, OP_EQ, ""); tor_free(s); set = routerset_new(); s = routerset_to_string(set); tt_str_op(s, OP_EQ, ""); tor_free(s); routerset_free(set); set = NULL; set = routerset_new(); smartlist_add(set->list, tor_strndup("a", 1)); s = routerset_to_string(set); tt_str_op(s, OP_EQ, "a"); tor_free(s); routerset_free(set); set = NULL; set = routerset_new(); smartlist_add(set->list, tor_strndup("a", 1)); smartlist_add(set->list, tor_strndup("b", 1)); s = routerset_to_string(set); tt_str_op(s, OP_EQ, "a,b"); tor_free(s); routerset_free(set); set = NULL; done: tor_free(s); routerset_free(set); } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_equal, empty_empty) /* * Functional test for routerset_equal, with both routersets empty. */ static void NS(test_main)(void *arg) { routerset_t *a = routerset_new(), *b = routerset_new(); int r; (void)arg; r = routerset_equal(a, b); routerset_free(a); routerset_free(b); tt_int_op(r, OP_EQ, 1); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_equal, empty_not_empty) /* * Functional test for routerset_equal, with one routersets empty. */ static void NS(test_main)(void *arg) { routerset_t *a = routerset_new(), *b = routerset_new(); int r; (void)arg; smartlist_add_strdup(b->list, "{xx}"); r = routerset_equal(a, b); routerset_free(a); routerset_free(b); tt_int_op(r, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_equal, differing_lengths) /* * Functional test for routerset_equal, with the routersets having * differing lengths. */ static void NS(test_main)(void *arg) { routerset_t *a = routerset_new(), *b = routerset_new(); int r; (void)arg; smartlist_add_strdup(a->list, "{aa}"); smartlist_add_strdup(b->list, "{b1}"); smartlist_add_strdup(b->list, "{b2}"); r = routerset_equal(a, b); routerset_free(a); routerset_free(b); tt_int_op(r, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_equal, unequal) /* * Functional test for routerset_equal, with the routersets being * different. */ static void NS(test_main)(void *arg) { routerset_t *a = routerset_new(), *b = routerset_new(); int r; (void)arg; smartlist_add_strdup(a->list, "foo"); smartlist_add_strdup(b->list, "bar"); r = routerset_equal(a, b); routerset_free(a); routerset_free(b); tt_int_op(r, OP_EQ, 0); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_equal, equal) /* * Functional test for routerset_equal, with the routersets being * equal. */ static void NS(test_main)(void *arg) { routerset_t *a = routerset_new(), *b = routerset_new(); int r; (void)arg; smartlist_add_strdup(a->list, "foo"); smartlist_add_strdup(b->list, "foo"); r = routerset_equal(a, b); routerset_free(a); routerset_free(b); tt_int_op(r, OP_EQ, 1); done: ; } #undef NS_SUBMODULE #define NS_SUBMODULE ASPECT(routerset_free, null_routerset) /* * Structural test for routerset_free, where the routerset is NULL. */ NS_DECL(void, smartlist_free_, (smartlist_t *sl)); static void NS(test_main)(void *arg) { (void)arg; NS_MOCK(smartlist_free_); routerset_free_(NULL); tt_int_op(CALLED(smartlist_free_), OP_EQ, 0); done: ; } void NS(smartlist_free_)(smartlist_t *s) { (void)s; CALLED(smartlist_free_)++; } #undef NS_SUBMODULE #define NS_SUBMODULE routerset_free /* * Structural test for routerset_free. */ NS_DECL(void, smartlist_free_, (smartlist_t *sl)); NS_DECL(void, strmap_free_,(strmap_t *map, void (*free_val)(void*))); NS_DECL(void, digestmap_free_, (digestmap_t *map, void (*free_val)(void*))); static void NS(test_main)(void *arg) { routerset_t *routerset = routerset_new(); (void)arg; NS_MOCK(smartlist_free_); NS_MOCK(strmap_free_); NS_MOCK(digestmap_free_); routerset_free(routerset); tt_int_op(CALLED(smartlist_free_), OP_NE, 0); tt_int_op(CALLED(strmap_free_), OP_NE, 0); tt_int_op(CALLED(digestmap_free_), OP_NE, 0); done: ; } void NS(smartlist_free_)(smartlist_t *s) { CALLED(smartlist_free_)++; smartlist_free___real(s); } void NS(strmap_free_)(strmap_t *map, void (*free_val)(void*)) { CALLED(strmap_free_)++; strmap_free___real(map, free_val); } void NS(digestmap_free_)(digestmap_t *map, void (*free_val)(void*)) { CALLED(digestmap_free_)++; digestmap_free___real(map, free_val); } #undef NS_SUBMODULE struct testcase_t routerset_tests[] = { TEST_CASE(routerset_new), TEST_CASE(routerset_get_countryname), TEST_CASE(routerset_is_list), TEST_CASE(routerset_needs_geoip), TEST_CASE(routerset_is_empty), TEST_CASE_ASPECT(routerset_contains, null_set_or_null_set_list), TEST_CASE_ASPECT(routerset_contains, set_and_nickname), TEST_CASE_ASPECT(routerset_contains, set_and_null_nickname), TEST_CASE_ASPECT(routerset_contains, set_and_no_nickname), TEST_CASE_ASPECT(routerset_contains, set_and_digest), TEST_CASE_ASPECT(routerset_contains, set_and_no_digest), TEST_CASE_ASPECT(routerset_contains, set_and_null_digest), TEST_CASE_ASPECT(routerset_contains, set_and_addr), TEST_CASE_ASPECT(routerset_contains, set_and_no_addr), TEST_CASE_ASPECT(routerset_contains, set_and_null_addr), TEST_CASE_ASPECT(routerset_contains, countries_no_geoip), TEST_CASE_ASPECT(routerset_contains, countries_geoip), TEST_CASE_ASPECT(routerset_add_unknown_ccs, only_flag_and_no_ccs), TEST_CASE_ASPECT(routerset_add_unknown_ccs, creates_set), TEST_CASE_ASPECT(routerset_add_unknown_ccs, add_unknown), TEST_CASE_ASPECT(routerset_add_unknown_ccs, add_a1), TEST_CASE(routerset_contains_extendinfo), TEST_CASE(routerset_contains_router), TEST_CASE(routerset_contains_routerstatus), TEST_CASE_ASPECT(routerset_contains_node, none), TEST_CASE_ASPECT(routerset_contains_node, routerinfo), TEST_CASE_ASPECT(routerset_contains_node, routerstatus), TEST_CASE_ASPECT(routerset_get_all_nodes, no_routerset), TEST_CASE_ASPECT(routerset_get_all_nodes, list_with_no_nodes), TEST_CASE_ASPECT(routerset_get_all_nodes, list_flag_not_running), TEST_CASE_ASPECT(routerset_get_all_nodes, list), TEST_CASE_ASPECT(routerset_get_all_nodes, nodelist_with_no_nodes), TEST_CASE_ASPECT(routerset_get_all_nodes, nodelist_flag_not_running), TEST_CASE_ASPECT(routerset_refresh_counties, geoip_not_loaded), TEST_CASE_ASPECT(routerset_refresh_counties, no_countries), TEST_CASE_ASPECT(routerset_refresh_counties, one_valid_country), TEST_CASE_ASPECT(routerset_refresh_counties, one_invalid_country), TEST_CASE_ASPECT(routerset_union, source_bad), TEST_CASE_ASPECT(routerset_union, one), TEST_CASE_ASPECT(routerset_parse, malformed), TEST_CASE_ASPECT(routerset_parse, valid_hexdigest), TEST_CASE_ASPECT(routerset_parse, valid_nickname), TEST_CASE_ASPECT(routerset_parse, get_countryname), TEST_CASE_ASPECT(routerset_parse, policy_wildcard), TEST_CASE_ASPECT(routerset_parse, policy_ipv4), TEST_CASE_ASPECT(routerset_parse, policy_ipv6), TEST_CASE(routerset_subtract_nodes), TEST_CASE_ASPECT(routerset_subtract_nodes, null_routerset), TEST_CASE(routerset_to_string), TEST_CASE_ASPECT(routerset_equal, empty_empty), TEST_CASE_ASPECT(routerset_equal, empty_not_empty), TEST_CASE_ASPECT(routerset_equal, differing_lengths), TEST_CASE_ASPECT(routerset_equal, unequal), TEST_CASE_ASPECT(routerset_equal, equal), TEST_CASE_ASPECT(routerset_free, null_routerset), TEST_CASE(routerset_free), END_OF_TESTCASES };