#include "config.h" #include #include #include #include #include #include #include "r3.h" #include "r3_slug.h" START_TEST (test_remote_addrs) { R3Node * n = r3_tree_create(10); R3Route * route = NULL; match_entry * entry; R3Route *matched_route; char * uri0 = "/foo"; route = r3_tree_insert_routel(n, 0, uri0, strlen(uri0), &uri0); route->remote_addr_v4 = 0; route->remote_addr_v4_bits = 0; char * uri1 = "/bar"; route = r3_tree_insert_routel(n, 0, uri1, strlen(uri1), &uri1); route->remote_addr_v4 = inet_network("127.0.0.1"); route->remote_addr_v4_bits = 32; char * uri2 = "/boo"; route = r3_tree_insert_routel(n, 0, uri2, strlen(uri2), &uri2); route->remote_addr_v4 = inet_network("127.0.0.1"); route->remote_addr_v4_bits = 24; char * err = NULL; r3_tree_compile(n, &err); ck_assert(err == NULL); entry = match_entry_create("/foo"); entry->remote_addr.base = "127.0.0.1"; entry->remote_addr.len = sizeof("127.0.0.1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri0); match_entry_free(entry); entry = match_entry_create("/bar"); entry->remote_addr.base = "127.0.0.1"; entry->remote_addr.len = sizeof("127.0.0.1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri1); match_entry_free(entry); entry = match_entry_create("/bar"); entry->remote_addr.base = "127.0.0.2"; entry->remote_addr.len = sizeof("127.0.0.2") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); entry = match_entry_create("/boo"); entry->remote_addr.base = "127.0.0.1"; entry->remote_addr.len = sizeof("127.0.0.1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri2); match_entry_free(entry); entry = match_entry_create("/boo"); entry->remote_addr.base = "127.0.0.2"; entry->remote_addr.len = sizeof("127.0.0.2") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri2); match_entry_free(entry); entry = match_entry_create("/boo"); entry->remote_addr.base = "127.0.1.2"; entry->remote_addr.len = sizeof("127.0.1.2") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); entry = match_entry_create("/boo"); entry->remote_addr.base = "127.0.1.333"; // invalid ip address entry->remote_addr.len = sizeof("127.0.1.333") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); r3_tree_free(n); } END_TEST void parse_ipv6(const char *ipv6, int nmask, R3Route * route) { struct in6_addr addr6; int ret = inet_pton(AF_INET6, ipv6, (void *)&addr6); ck_assert(ret == 1); for (int i = 0; i < 4; i++) { route->remote_addr_v6[i] = ntohl(addr6.__in6_u.__u6_addr32[i]); if (nmask >= 32) { route->remote_addr_v6_bits[i] = 32; } else if (nmask > 0) { route->remote_addr_v6_bits[i] = nmask; } else { route->remote_addr_v6_bits[i] = 0; } nmask -= 32; } } START_TEST (test_remote_addrs_ipv6) { R3Node * n = r3_tree_create(10); R3Route * route = NULL; match_entry * entry; R3Route *matched_route; char * uri0 = "/foo"; route = r3_tree_insert_routel(n, 0, uri0, strlen(uri0), &uri0); parse_ipv6("fe80:fe80::1", 128, route); // "fe80:fe80::1" char * uri1 = "/bar"; route = r3_tree_insert_routel(n, 0, uri1, strlen(uri1), &uri1); parse_ipv6("fe80:fe80::", 32, route); // "fe80:fe80::/32" char * uri2 = "/goo"; route = r3_tree_insert_routel(n, 0, uri2, strlen(uri2), &uri2); parse_ipv6("::1", 128, route); // "::1" char * err = NULL; r3_tree_compile(n, &err); ck_assert(err == NULL); entry = match_entry_create("/foo"); entry->remote_addr.base = "fe80:fe80::1"; entry->remote_addr.len = sizeof("fe80:fe80::1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri0); match_entry_free(entry); entry = match_entry_create("/foo"); entry->remote_addr.base = "fe80:fe80::2"; entry->remote_addr.len = sizeof("fe80:fe80::2") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); entry = match_entry_create("/foo"); entry->remote_addr.base = "fe88:fe80::1"; entry->remote_addr.len = sizeof("fe88:fe80::1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); entry = match_entry_create("/bar"); entry->remote_addr.base = "fe80:fe80::1"; entry->remote_addr.len = sizeof("fe80:fe80::1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri1); match_entry_free(entry); entry = match_entry_create("/bar"); entry->remote_addr.base = "fe88:fe80::1"; entry->remote_addr.len = sizeof("fe88:fe80::1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); entry = match_entry_create("/goo"); entry->remote_addr.base = "::1"; entry->remote_addr.len = sizeof("::1") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route != NULL); ck_assert(matched_route->data == &uri2); match_entry_free(entry); entry = match_entry_create("/goo"); entry->remote_addr.base = "::2"; entry->remote_addr.len = sizeof("::2") - 1; matched_route = r3_tree_match_route(n, entry); ck_assert(matched_route == NULL); match_entry_free(entry); r3_tree_free(n); } END_TEST Suite* r3_suite (void) { Suite *suite = suite_create("r3 remote_addr tests"); TCase *tcase = tcase_create("testcase"); tcase_add_test(tcase, test_remote_addrs); tcase_add_test(tcase, test_remote_addrs_ipv6); suite_add_tcase(suite, tcase); return suite; } int main (int argc, char *argv[]) { int number_failed; Suite *suite = r3_suite(); SRunner *runner = srunner_create(suite); srunner_run_all(runner, CK_NORMAL); number_failed = srunner_ntests_failed(runner); srunner_free(runner); return number_failed; }