/* * Copyright (c) 2013, NLNet Labs, Verisign, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the names of the copyright holders nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 Verisign, Inc. 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. */ #ifndef _check_getdns_hostname_h_ #define _check_getdns_hostname_h_ /* ************************************************************************** * * * T E S T S F O R G E T D N S _ H O S T N A M E * * * ************************************************************************** */ START_TEST (getdns_hostname_1) { /* * context = NULL * expect: GETDNS_RETURN_INVALID_PARAMETER */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv4" }; struct getdns_bindata address_data = { 4, (void *)"\x08\x08\x08\x08" }; getdns_transaction_t transaction_id = 0; DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_INVALID_PARAMETER, "Return code from getdns_hostname()"); DICT_DESTROY(address); } END_TEST START_TEST (getdns_hostname_2) { /* * address = NULL * expect: GETDNS_RETURN_INVALID_PARAMETER */ struct getdns_context *context = NULL; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, NULL, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_INVALID_PARAMETER, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_3) { /* * dict in address does not contain getdns_bindata * expect: GETDNS_RETURN_NO_SUCH_DICT_NAME */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_NO_SUCH_DICT_NAME, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_4) { /* * dict in address does not contain two names * expect: GETDNS_RETURN_NO_SUCH_DICT_NAME */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *) "IPv4" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_NO_SUCH_DICT_NAME, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_5) { /* * dict in address contains names other than adddress_type * and address_data. * expect: GETDNS_RETURN_NO_SUCH_DICT_NAME */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_data = { 4, (void *)"\x08\x08\x08\x08" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_int(address, "not_address_type", 100), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_int()"); ASSERT_RC(getdns_dict_set_bindata(address, "not_address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_NO_SUCH_DICT_NAME, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_6) { /* * dict in address contains names address_type * and address_data but data type is not bindata * expect: GETDNS_RETURN_WRONG_TYPE_REQUESTED */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_int(address, "address_type", 100), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_int()"); ASSERT_RC(getdns_dict_set_int(address, "address_data", 200), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_int()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_WRONG_TYPE_REQUESTED, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_7) { /* * dict in address contains invalid address_type * expect: GETDNS_RETURN_INVALID_PARAMETER */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv5" }; struct getdns_bindata address_data = { 4, (void *)"\x08\x08\x08\x08" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_INVALID_PARAMETER, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_8) { /* * dict in address contains invalid address_data * expect: GETDNS_RETURN_INVALID_PARAMETER */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv4" }; struct getdns_bindata address_data = { 5, (void *)"\x08\x08\x08\x08\x08" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, callbackfn), GETDNS_RETURN_INVALID_PARAMETER, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_9) { /* * callbackfn = NULL * expect: GETDNS_RETURN_INVALID_PARAMETER */ struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv4" }; struct getdns_bindata address_data = { 4, (void *)"\x08\x08\x08\x08" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, NULL, &transaction_id, NULL), GETDNS_RETURN_INVALID_PARAMETER, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST START_TEST (getdns_hostname_10) { /* * dict in address has resolvable IPv4 address * expect: response with correct hostname */ void verify_getdns_hostname_10(struct extracted_response *ex_response); fn_cont fn_ref = { verify_getdns_hostname_10 }; struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv4" }; struct getdns_bindata address_data = { 4, (void *)"\x08\x08\x08\x08" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, &fn_ref, &transaction_id, callbackfn), GETDNS_RETURN_GOOD, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST void verify_getdns_hostname_10(struct extracted_response *ex_response) { assert_noerror(ex_response); assert_ptr_in_answer(ex_response); } START_TEST (getdns_hostname_11) { /* * dict in address has unresolvable IPv4 address * expect: response with no hostname */ void verify_getdns_hostname_11(struct extracted_response *ex_response); fn_cont fn_ref = { verify_getdns_hostname_11 }; struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv4" }; struct getdns_bindata address_data = { 4, (void *)"\xb9\x31\x8c\x00" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, &fn_ref, &transaction_id, callbackfn), GETDNS_RETURN_GOOD, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST void verify_getdns_hostname_11(struct extracted_response *ex_response) { assert_nxdomain(ex_response); assert_nodata(ex_response); assert_soa_in_authority(ex_response); } START_TEST (getdns_hostname_12) { /* * dict in address has resolvable IPv6 address * expect: response with correct hostname */ void verify_getdns_hostname_12(struct extracted_response *ex_response); fn_cont fn_ref = { verify_getdns_hostname_12 }; struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv6" }; struct getdns_bindata address_data = { 16, (void *)"\x20\x01\x48\x60\x48\x60\x00\x00\x00\x00\x00\x00\x00\x00\x88\x88" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); ASSERT_RC(getdns_context_set_timeout(context, 10000), GETDNS_RETURN_GOOD, "Return code from getdns_context_set_timeout()"); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, &fn_ref, &transaction_id, callbackfn), GETDNS_RETURN_GOOD, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST void verify_getdns_hostname_12(struct extracted_response *ex_response) { assert_noerror(ex_response); assert_ptr_in_answer(ex_response); } START_TEST (getdns_hostname_13) { /* * dict in address has unresolvable IPv4 address * expect: response with no hostname */ void verify_getdns_hostname_13(struct extracted_response *ex_response); fn_cont fn_ref = { verify_getdns_hostname_13 }; struct getdns_context *context = NULL; struct getdns_dict *address = NULL; struct getdns_bindata address_type = { 5, (void *)"IPv6" }; struct getdns_bindata address_data = { 16, (void *)"\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff" }; void* eventloop = NULL; getdns_transaction_t transaction_id = 0; CONTEXT_CREATE(TRUE); DICT_CREATE(address); ASSERT_RC(getdns_dict_set_bindata(address, "address_type", &address_type), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); ASSERT_RC(getdns_dict_set_bindata(address, "address_data", &address_data), GETDNS_RETURN_GOOD, "Return code from getdns_dict_set_bindata()"); EVENT_BASE_CREATE; ASSERT_RC(getdns_hostname(context, address, NULL, &fn_ref, &transaction_id, callbackfn), GETDNS_RETURN_GOOD, "Return code from getdns_hostname()"); RUN_EVENT_LOOP; DICT_DESTROY(address); CONTEXT_DESTROY; } END_TEST void verify_getdns_hostname_13(struct extracted_response *ex_response) { assert_nxdomain(ex_response); assert_nodata(ex_response); assert_soa_in_authority(ex_response); } Suite * getdns_hostname_suite (void) { Suite *s = suite_create ("getdns_hostname()"); /* Negative test caseis */ TCase *tc_neg = tcase_create("Negative"); tcase_add_test(tc_neg, getdns_hostname_1); tcase_add_test(tc_neg, getdns_hostname_2); tcase_add_test(tc_neg, getdns_hostname_3); tcase_add_test(tc_neg, getdns_hostname_4); tcase_add_test(tc_neg, getdns_hostname_5); tcase_add_test(tc_neg, getdns_hostname_6); tcase_add_test(tc_neg, getdns_hostname_7); tcase_add_test(tc_neg, getdns_hostname_8); tcase_add_test(tc_neg, getdns_hostname_9); suite_add_tcase(s, tc_neg); /* Positive test cases */ TCase *tc_pos = tcase_create("Positive"); tcase_set_timeout(tc_pos, 10.0); tcase_add_test(tc_pos, getdns_hostname_10); tcase_add_test(tc_pos, getdns_hostname_11); tcase_add_test(tc_pos, getdns_hostname_12); tcase_add_test(tc_pos, getdns_hostname_13); suite_add_tcase(s, tc_pos); return s; } #endif