/** * @file policy_test.c * * @brief Tests for the policy_t class. * */ /* * Copyright (C) 2005 Jan Hutter, Martin Willi * Hochschule fuer Technik Rapperswil * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include "policy_test.h" #include #include #include #include #include /** * Described in header. */ void test_policy(protected_tester_t *tester) { // policy_t *policy; // // traffic_selector_t *ts; // // linked_list_t *ts_stored, *ts_supplied, *ts_selected, *ts_expected; // proposal_t *proposal1, *proposal2, *proposal3, *proposal_sel; // linked_list_t *proposals_list; // iterator_t *iterator; // logger_t *logger; // identification_t *alice, *bob; // // logger = logger_manager->get_logger(logger_manager, TESTER); // logger->disable_level(logger, FULL); // // alice = identification_create_from_string("152.96.193.131"); // bob = identification_create_from_string("152.96.193.130"); // policy = policy_create("test", alice, bob); // // tester->assert_true(tester, (policy != NULL), "policy construction"); // // // /* // * test proposal getting and selection // * // */ // // /* esp only prop */ // proposal1 = proposal_create(PROTO_ESP); // proposal1->add_algorithm(proposal1, ENCRYPTION_ALGORITHM, ENCR_AES_CBC, 16); // // /* ah only prop */ // proposal2 = proposal_create(PROTO_AH); // proposal2->add_algorithm(proposal2, INTEGRITY_ALGORITHM, AUTH_HMAC_SHA1_96, 20); // // policy->add_proposal(policy, proposal1); // policy->add_proposal(policy, proposal2); // // proposals_list = policy->get_proposals(policy); // tester->assert_true(tester, (proposals_list->get_count(proposals_list) == 2), "proposal count"); // // // proposals_list = linked_list_create(); // proposal1 = proposal_create(1); // proposal1->add_algorithm(proposal1, PROTO_ESP, ENCRYPTION_ALGORITHM, ENCR_AES_CBC, 32); // proposal2 = proposal_create(2); // proposal2->add_algorithm(proposal2, PROTO_ESP, ENCRYPTION_ALGORITHM, ENCR_AES_CBC, 16); // proposal2->add_algorithm(proposal2, PROTO_ESP, ENCRYPTION_ALGORITHM, ENCR_3DES, 16); // proposal2->add_algorithm(proposal2, PROTO_ESP, ENCRYPTION_ALGORITHM, ENCR_BLOWFISH, 0); // proposal2->add_algorithm(proposal2, PROTO_AH, INTEGRITY_ALGORITHM, AUTH_HMAC_SHA1_96, 20); // proposal2->add_algorithm(proposal2, PROTO_AH, INTEGRITY_ALGORITHM, AUTH_HMAC_MD5_96, 20); // // proposals_list->insert_last(proposals_list, proposal1); // proposals_list->insert_last(proposals_list, proposal2); // // proposal_sel = policy->select_proposal(policy, proposals_list); // tester->assert_false(tester, proposal_sel == NULL, "proposal select"); // /* check ESP encryption algo */ // iterator = proposal_sel->create_algorithm_iterator(proposal_sel, PROTO_ESP, ENCRYPTION_ALGORITHM); // tester->assert_false(tester, iterator == NULL, "algorithm select ESP"); // while (iterator->has_next(iterator)) // { // algorithm_t *algo; // iterator->current(iterator, (void**)&algo); // tester->assert_true(tester, algo->algorithm == ENCR_3DES, "ESP encryption algo"); // tester->assert_true(tester, algo->key_size == 16, "ESP encryption keysize"); // } // iterator->destroy(iterator); // iterator = proposal_sel->create_algorithm_iterator(proposal_sel, PROTO_AH, INTEGRITY_ALGORITHM); // /* check AH integrity algo */ // tester->assert_false(tester, iterator == NULL, "algorithm select AH"); // while (iterator->has_next(iterator)) // { // algorithm_t *algo; // iterator->current(iterator, (void**)&algo); // tester->assert_true(tester, algo->algorithm == AUTH_HMAC_MD5_96, "ESP encryption algo"); // tester->assert_true(tester, algo->key_size == 20, "ESP encryption keysize"); // } // iterator->destroy(iterator); // // proposal_sel->destroy(proposal_sel); // // /* cleanup */ // proposal1->destroy(proposal1); // proposal1->destroy(proposal2); // proposals_list->destroy(proposals_list); // // /* // * test traffic selection getting and matching // * // */ // // ts_stored = linked_list_create(); // // /* allow any tcp */ // ts = traffic_selector_create_from_string(6, TS_IPV4_ADDR_RANGE, "0.0.0.0", 0, "255.255.255.255", 65535); // ts_stored->insert_last(ts_stored, (void*)ts); // /* allow udp on port 123 to ".122" */ // ts = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.122", 123, "152.96.193.122", 123); // ts_stored->insert_last(ts_stored, (void*)ts); // /* allow udp on ports > 2000 in subnet ... */ // ts = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.0", 2000, "152.96.193.255", 65535); // ts_stored->insert_last(ts_stored, (void*)ts); // // // // /* define request and result */ // // /* udp on subnet:123, should be reduced to ".122" */ // ts = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.0", 123, "152.96.193.255", 123); // ts_supplied->insert_last(ts_supplied, (void*)ts); // ts_reference[0] = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.122", 123, "152.96.193.122", 123); // // /* should be granted. */ // ts_request[1] = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.0", 2000, "152.96.193.255", 2000); // ts_reference[1] = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.0", 2000, "152.96.193.255", 2000); // // /* should be reduced to port 2000 - 3000. and range ".193.*" */ // ts_request[2] = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.191.0", 1000, "152.96.194.255", 3000); // ts_reference[2] = traffic_selector_create_from_string(7, TS_IPV4_ADDR_RANGE, "152.96.193.0", 2000, "152.96.193.255", 3000); // // /* icmp request, should be discarded */ // ts_request[3] = traffic_selector_create_from_string(1, TS_IPV4_ADDR_RANGE, "0.0.0.0", 0, "255.255.255.255", 65535); // // policy->add_my_traffic_selector(policy, ts_policy[0]); // policy->add_my_traffic_selector(policy, ts_policy[1]); // policy->add_my_traffic_selector(policy, ts_policy[2]); // // count = policy->get_my_traffic_selectors(policy, &ts_result); // tester->assert_true(tester, (count == 3), "ts get count"); // ts_result[0]->destroy(ts_result[0]); // ts_result[0]->destroy(ts_result[1]); // ts_result[0]->destroy(ts_result[2]); // free(ts_result); // // count = policy->select_my_traffic_selectors(policy, &ts_request[0], 4, &ts_result); // tester->assert_true(tester, (count == 3), "ts select count"); // // // /* store and restore into ts payload, tricky tricky */ // ts_payload = ts_payload_create_from_traffic_selectors(TRUE, ts_result, count); // // /* destroy */ // ts_result[0]->destroy(ts_result[0]); // ts_result[0]->destroy(ts_result[1]); // ts_result[0]->destroy(ts_result[2]); // free(ts_result); // // /* get them again out of the payload */ // count = ts_payload->get_traffic_selectors(ts_payload, &ts_result); // ts_payload->destroy(ts_payload); // // // // int i; // for (i = 0; iget_from_address(ts_result[i]); // chunk_t fa_ref = ts_reference[i]->get_from_address(ts_reference[i]); // chunk_t ta_res = ts_result[i]->get_to_address(ts_result[i]); // chunk_t ta_ref = ts_reference[i]->get_to_address(ts_reference[i]); // u_int16_t fp_res = ts_result[i]->get_from_port(ts_result[i]); // u_int16_t fp_ref = ts_reference[i]->get_from_port(ts_reference[i]); // u_int16_t tp_res = ts_result[i]->get_to_port(ts_result[i]); // u_int16_t tp_ref = ts_reference[i]->get_to_port(ts_reference[i]); // // // logger->log_chunk(logger, RAW, "from address result", fa_res); // logger->log_chunk(logger, RAW, "from address reference", fa_ref); // logger->log_chunk(logger, RAW, "to address result", ta_res); // logger->log_chunk(logger, RAW, "to address reference", ta_ref); // tester->assert_true(tester, fa_res.len == fa_ref.len, "from address len"); // tester->assert_false(tester, memcmp(fa_res.ptr, fa_ref.ptr,fa_res.len), "from address value"); // tester->assert_true(tester, ta_res.len == ta_ref.len, "to address len"); // tester->assert_false(tester, memcmp(ta_res.ptr, ta_ref.ptr,ta_res.len), "to address value"); // // tester->assert_true(tester, fp_res == fp_ref, "from port"); // tester->assert_true(tester, tp_res == tp_ref, "to port"); // // free(fa_res.ptr); // free(fa_ref.ptr); // free(ta_res.ptr); // free(ta_ref.ptr); // } // // // /* destroy */ // ts_result[0]->destroy(ts_result[0]); // ts_result[0]->destroy(ts_result[1]); // ts_result[0]->destroy(ts_result[2]); // free(ts_result); // // ts_policy[0]->destroy(ts_policy[0]); // ts_policy[1]->destroy(ts_policy[1]); // ts_policy[2]->destroy(ts_policy[2]); // ts_request[0]->destroy(ts_request[0]); // ts_reference[0]->destroy(ts_reference[0]); // ts_request[1]->destroy(ts_request[1]); // ts_reference[1]->destroy(ts_reference[1]); // ts_request[2]->destroy(ts_request[2]); // ts_reference[2]->destroy(ts_reference[2]); // ts_request[3]->destroy(ts_request[3]); /* policy->destroy(policy);*/ }