/* unit tests for /core/Messenger.c * Design: * Just call every non-static function in Messenger.c, checking that * they return as they should with check calls. "Bad" calls of the type * function(bad_data, good_length) are _not_ checked for, this type * of call is the fault of the client code. * * Note: * None of the functions here test things that rely on the network, i.e. * checking that status changes are received, messages can be sent, etc. * All of that is done in a separate test, with two local clients running. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "../testing/misc_tools.c" // hex_string_to_bin #include "../toxcore/Messenger.h" #include "../toxcore/Lossless_UDP.h" #include #include #include #include #define REALLY_BIG_NUMBER ((1) << (sizeof(uint16_t) * 7)) #define STRINGS_EQUAL(X, Y) (strcmp(X, Y) == 0) char *friend_id_str = "e4b3d5030bc99494605aecc33ceec8875640c1d74aa32790e821b17e98771c4a00000000f1db"; /* in case we need more than one ID for a test */ char *good_id_a_str = "DB9B569D14850ED8364C3744CAC2C8FF78985D213E980C7C508D0E91E8E45441"; char *good_id_b_str = "d3f14b6d384d8f5f2a66cff637e69f28f539c5de61bc29744785291fa4ef4d64"; char *bad_id_str = "9B569D14ff637e69f2"; unsigned char *friend_id = NULL; unsigned char *good_id_a = NULL; unsigned char *good_id_b = NULL; unsigned char *bad_id = NULL; int friend_id_num = 0; Messenger *m; START_TEST(test_m_sendmesage) { char *message = "h-hi :3"; int good_len = strlen(message); int bad_len = MAX_DATA_SIZE; ck_assert(m_sendmessage(m, -1, (uint8_t *)message, good_len) == 0); ck_assert(m_sendmessage(m, REALLY_BIG_NUMBER, (uint8_t *)message, good_len) == 0); ck_assert(m_sendmessage(m, 17, (uint8_t *)message, good_len) == 0); ck_assert(m_sendmessage(m, friend_id_num, (uint8_t *)message, bad_len) == 0); } END_TEST START_TEST(test_m_get_userstatus_size) { int rc = 0; ck_assert_msg((m_get_statusmessage_size(m, -1) == -1), "m_get_statusmessage_size did NOT catch an argument of -1"); ck_assert_msg((m_get_statusmessage_size(m, REALLY_BIG_NUMBER) == -1), "m_get_statusmessage_size did NOT catch the following argument: %d\n", REALLY_BIG_NUMBER); rc = m_get_statusmessage_size(m, friend_id_num); /* this WILL error if the original m_addfriend_norequest() failed */ ck_assert_msg((rc > 0 && rc <= MAX_STATUSMESSAGE_LENGTH), "m_get_statusmessage_size is returning out of range values!\n" "(this can be caused by the error of m_addfriend_norequest" " in the beginning of the suite)\n"); } END_TEST START_TEST(test_m_set_userstatus) { char *status = "online!"; uint16_t good_length = strlen(status); uint16_t bad_length = REALLY_BIG_NUMBER; ck_assert_msg((m_set_statusmessage(m, (uint8_t *)status, bad_length) == -1), "m_set_userstatus did NOT catch the following length: %d\n", REALLY_BIG_NUMBER); ck_assert_msg((m_set_statusmessage(m, (uint8_t *)status, good_length) == 0), "m_set_userstatus did NOT return 0 on the following length: %d\n" "MAX_STATUSMESSAGE_LENGTH: %d\n", good_length, MAX_STATUSMESSAGE_LENGTH); } END_TEST START_TEST(test_m_get_friend_connectionstatus) { ck_assert_msg((m_get_friend_connectionstatus(m, -1) == -1), "m_get_friend_connectionstatus did NOT catch an argument of -1.\n"); ck_assert_msg((m_get_friend_connectionstatus(m, REALLY_BIG_NUMBER) == -1), "m_get_friend_connectionstatus did NOT catch an argument of %d.\n", REALLY_BIG_NUMBER); } END_TEST START_TEST(test_m_friend_exists) { ck_assert_msg((m_friend_exists(m, -1) == 0), "m_friend_exists did NOT catch an argument of -1.\n"); ck_assert_msg((m_friend_exists(m, REALLY_BIG_NUMBER) == 0), "m_friend_exists did NOT catch an argument of %d.\n", REALLY_BIG_NUMBER); } END_TEST START_TEST(test_m_delfriend) { ck_assert_msg((m_delfriend(m, -1) == -1), "m_delfriend did NOT catch an argument of -1\n"); ck_assert_msg((m_delfriend(m, REALLY_BIG_NUMBER) == -1), "m_delfriend did NOT catch the following number: %d\n", REALLY_BIG_NUMBER); } END_TEST /* START_TEST(test_m_addfriend) { char *good_data = "test"; char *bad_data = ""; int good_len = strlen(good_data); int bad_len = strlen(bad_data); int really_bad_len = (MAX_DATA_SIZE - crypto_box_PUBLICKEYBYTES - crypto_box_NONCEBYTES - crypto_box_BOXZEROBYTES + crypto_box_ZEROBYTES + 100); */ /* TODO: Update this properly to latest master if(m_addfriend(m, (uint8_t *)friend_id, (uint8_t *)good_data, really_bad_len) != FAERR_TOOLONG) ck_abort_msg("m_addfriend did NOT catch the following length: %d\n", really_bad_len); */ /* this will error if the original m_addfriend_norequest() failed */ /* if(m_addfriend(m, (uint8_t *)friend_id, (uint8_t *)good_data, good_len) != FAERR_ALREADYSENT) ck_abort_msg("m_addfriend did NOT catch adding a friend we already have.\n" "(this can be caused by the error of m_addfriend_norequest in" " the beginning of the suite)\n"); if(m_addfriend(m, (uint8_t *)good_id_b, (uint8_t *)bad_data, bad_len) != FAERR_NOMESSAGE) ck_abort_msg("m_addfriend did NOT catch the following length: %d\n", bad_len); */ /* this should REALLY error */ /* * TODO: validate client_id in m_addfriend? if(m_addfriend((uint8_t *)bad_id, (uint8_t *)good_data, good_len) >= 0) ck_abort_msg("The following ID passed through " "m_addfriend without an error:\n'%s'\n", bad_id_str); } END_TEST */ START_TEST(test_setname) { char *good_name = "consensualCorn"; int good_length = strlen(good_name); int bad_length = REALLY_BIG_NUMBER; ck_assert_msg((setname(m, (uint8_t *)good_name, bad_length) == -1), "setname() did NOT error on %d as a length argument!\n", bad_length); ck_assert_msg((setname(m, (uint8_t *)good_name, good_length) == 0), "setname() did NOT return 0 on good arguments!\n"); } END_TEST START_TEST(test_getself_name) { char *nickname = "testGallop"; int len = strlen(nickname); char nick_check[len]; setname(m, (uint8_t *)nickname, len); getself_name(m, (uint8_t *)nick_check, len); ck_assert_msg((memcmp(nickname, nick_check, len) == 0), "getself_name failed to return the known name!\n" "known name: %s\nreturned: %s\n", nickname, nick_check); } END_TEST /* this test is excluded for now, due to lack of a way * to set a friend's status for now. * ideas: * if we have access to the friends list, we could * just add a status manually ourselves. */ /* START_TEST(test_m_copy_userstatus) { assert(m_copy_userstatus(-1, buf, MAX_USERSTATUS_LENGTH) == -1); assert(m_copy_userstatus(REALLY_BIG_NUMBER, buf, MAX_USERSTATUS_LENGTH) == -1); m_copy_userstatus(friend_id_num, buf, MAX_USERSTATUS_LENGTH + 6); assert(STRINGS_EQUAL(name_buf, friend_id_status)); } END_TEST */ START_TEST(test_getname) { uint8_t name_buf[MAX_NAME_LENGTH]; uint8_t test_name[] = {'f', 'o', 'o'}; ck_assert(getname(m, -1, name_buf) == -1); ck_assert(getname(m, REALLY_BIG_NUMBER, name_buf) == -1); memcpy(m->friendlist[0].name, &test_name[0], 3); m->friendlist[0].name_length = 4; ck_assert(getname(m, 0, &name_buf[0]) == 4); ck_assert(strcmp((char *)&name_buf[0], "foo") == 0); } END_TEST START_TEST(test_dht_state_saveloadsave) { /* validate that: * a) saving stays within the confined space * b) a save()d state can be load()ed back successfully * c) a second save() is of equal size * d) the second save() is of equal content */ size_t i, extra = 64; size_t size = DHT_size(m->dht); uint8_t buffer[size + 2 * extra]; memset(buffer, 0xCD, extra); memset(buffer + extra + size, 0xCD, extra); DHT_save(m->dht, buffer + extra); for (i = 0; i < extra; i++) { ck_assert_msg(buffer[i] == 0xCD, "Buffer underwritten from DHT_save() @%u", i); ck_assert_msg(buffer[extra + size + i] == 0xCD, "Buffer overwritten from DHT_save() @%u", i); } int res = DHT_load(m->dht, buffer + extra, size); if (res == -1) ck_assert_msg(res == 0, "Failed to load back stored buffer: res == -1"); else { char msg[128]; size_t offset = res >> 4; uint8_t *ptr = buffer + extra + offset; sprintf(msg, "Failed to load back stored buffer: 0x%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx @%zu/%zu, code %d", ptr[-2], ptr[-1], ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], offset, size, res & 0x0F); ck_assert_msg(res == 0, msg); } size_t size2 = DHT_size(m->dht); ck_assert_msg(size == size2, "Messenger \"grew\" in size from a store/load cycle: %u -> %u", size, size2); uint8_t buffer2[size2]; DHT_save(m->dht, buffer2); ck_assert_msg(!memcmp(buffer + extra, buffer2, size), "DHT state changed by store/load/store cycle"); } END_TEST START_TEST(test_messenger_state_saveloadsave) { /* validate that: * a) saving stays within the confined space * b) a save()d state can be load()ed back successfully * c) a second save() is of equal size * d) the second save() is of equal content */ size_t i, extra = 64; size_t size = messenger_size(m); uint8_t buffer[size + 2 * extra]; memset(buffer, 0xCD, extra); memset(buffer + extra + size, 0xCD, extra); messenger_save(m, buffer + extra); for (i = 0; i < extra; i++) { ck_assert_msg(buffer[i] == 0xCD, "Buffer underwritten from messenger_save() @%u", i); ck_assert_msg(buffer[extra + size + i] == 0xCD, "Buffer overwritten from messenger_save() @%u", i); } int res = messenger_load(m, buffer + extra, size); if (res == -1) ck_assert_msg(res == 0, "Failed to load back stored buffer: res == -1"); else { char msg[128]; size_t offset = res >> 4; uint8_t *ptr = buffer + extra + offset; sprintf(msg, "Failed to load back stored buffer: 0x%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx @%zu/%zu, code %d", ptr[-2], ptr[-1], ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], offset, size, res & 0x0F); ck_assert_msg(res == 0, msg); } size_t size2 = messenger_size(m); ck_assert_msg(size == size2, "Messenger \"grew\" in size from a store/load cycle: %u -> %u", size, size2); uint8_t buffer2[size2]; messenger_save(m, buffer2); ck_assert_msg(!memcmp(buffer + extra, buffer2, size), "Messenger state changed by store/load/store cycle"); } END_TEST START_TEST(test_messenger_state_saveload_encrypted) { uint8_t addr[FRIEND_ADDRESS_SIZE]; getaddress(m, addr); Messenger *m_temp = new_messenger(TOX_ENABLE_IPV6_DEFAULT); size_t size = messenger_size_encrypted(m); uint8_t buffer[size]; messenger_save_encrypted(m, buffer, "Gentoo", sizeof("Gentoo")); ck_assert_msg(messenger_load_encrypted(m_temp, buffer, size, "Ubuntu", sizeof("Ubuntu")) == -1, "Bad password didn't make the function fail."); ck_assert_msg(messenger_load_encrypted(m_temp, buffer, size, "Gentoo", sizeof("Gentoo")) == 0, "Good password didn't make the function succeed."); uint8_t addr1[FRIEND_ADDRESS_SIZE]; getaddress(m_temp, addr1); ck_assert_msg(memcmp(addr1, addr, FRIEND_ADDRESS_SIZE) == 0, "Didn't load messenger successfully"); kill_messenger(m_temp); } END_TEST #define DEFTESTCASE(NAME) \ TCase *tc_##NAME = tcase_create(#NAME); \ tcase_add_test(tc_##NAME, test_##NAME); \ suite_add_tcase(s, tc_##NAME); Suite *messenger_suite(void) { Suite *s = suite_create("Messenger"); DEFTESTCASE(dht_state_saveloadsave); DEFTESTCASE(messenger_state_saveloadsave); DEFTESTCASE(messenger_state_saveload_encrypted); DEFTESTCASE(getself_name); DEFTESTCASE(m_get_userstatus_size); DEFTESTCASE(m_set_userstatus); /* DEFTESTCASE(m_addfriend); */ DEFTESTCASE(m_friend_exists); DEFTESTCASE(m_get_friend_connectionstatus); DEFTESTCASE(m_delfriend); DEFTESTCASE(setname); DEFTESTCASE(getname); DEFTESTCASE(m_sendmesage); return s; } int main(int argc, char *argv[]) { Suite *messenger = messenger_suite(); SRunner *test_runner = srunner_create(messenger); int number_failed = 0; friend_id = hex_string_to_bin(friend_id_str); good_id_a = hex_string_to_bin(good_id_a_str); good_id_b = hex_string_to_bin(good_id_b_str); bad_id = hex_string_to_bin(bad_id_str); /* IPv6 status from global define */ m = new_messenger(TOX_ENABLE_IPV6_DEFAULT); /* setup a default friend and friendnum */ if (m_addfriend_norequest(m, (uint8_t *)friend_id) < 0) fputs("m_addfriend_norequest() failed on a valid ID!\n" "this was CRITICAL to the test, and the build WILL fail.\n" "the tests will continue now...\n\n", stderr); if ((friend_id_num = getfriend_id(m, (uint8_t *)friend_id)) < 0) fputs("getfriend_id() failed on a valid ID!\n" "this was CRITICAL to the test, and the build WILL fail.\n" "the tests will continue now...\n\n", stderr); srunner_run_all(test_runner, CK_NORMAL); number_failed = srunner_ntests_failed(test_runner); srunner_free(test_runner); free(friend_id); free(good_id_a); free(good_id_b); free(bad_id); kill_messenger(m); return number_failed; }