/*! * test_devices.c * * Copyright (c) 2015-2020, NADAL Jean-Baptiste. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301 USA * * @Author: NADAL Jean-Baptiste * @Date: 26/12/2019 * */ /*--------------------------------------------------------------------------*/ void device_create_set_state_free(const char *capability, const char *test_name_true, const char *test_name_false) { struct json_object *root_node; devices_manager_t *dm; int ret; char *device_serialized; dm = devices_manager_new(); ASSERT_NOT_NULL(dm); // Create a New Entry. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_name, json_object_new_string("test_name")); ret = devices_manager_create(dm, capability, root_node); /* Clean the json object. */ json_object_put(root_node); ASSERT_EQUAL_INT(ret, 0); // Check Objets. device_serialized = devices_manager_get_by_id(dm, capability, 1); // printf ("device: %s\n", device_serialized); ASSERT_EQUAL_STR(device_serialized, test_name_false); free(device_serialized); // Change the State. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_state, json_object_new_boolean(true)); json_object_object_add(root_node, k_entry_id, json_object_new_int(1)); ret = devices_manager_update(dm, capability, root_node); ASSERT_EQUAL_INT(ret, 0); /* Clean the json object. */ json_object_put(root_node); // Check Objets. device_serialized = devices_manager_get_by_id(dm, capability, 1); ASSERT_EQUAL_STR(device_serialized, test_name_true); free(device_serialized); // Free the Object. devices_manager_free(dm); } /*--------------------------------------------------------------------------*/ void device_create_three_devices_remove_second(const char *capability, const char *test_array_full, const char *test_array_removed) { struct json_object *root_node; devices_manager_t *dm; int ret; char *device_serialized; dm = devices_manager_new(); ASSERT_NOT_NULL(dm); // Create a New Entry 1. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_name, json_object_new_string("test1")); ret = devices_manager_create(dm, capability, root_node); /* Clean the json object. */ json_object_put(root_node); ASSERT_EQUAL_INT(ret, 0); // Create a New Entry 2. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_name, json_object_new_string("test2")); ret = devices_manager_create(dm, capability, root_node); /* Clean the json object. */ json_object_put(root_node); ASSERT_EQUAL_INT(ret, 0); // Create a New Entry 3. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_name, json_object_new_string("test3")); ret = devices_manager_create(dm, capability, root_node); /* Clean the json object. */ json_object_put(root_node); ASSERT_EQUAL_INT(ret, 0); device_serialized = devices_manager_get(dm, capability); // printf ("device: %s\n", device_serialized); ASSERT_EQUAL_STR(device_serialized, test_array_full); free(device_serialized); // Remove ID 2. ret = devices_manager_delete(dm, capability, 2); ASSERT_EQUAL_INT(ret, 0); device_serialized = devices_manager_get(dm, capability); // printf ("device: %s\n", device_serialized); ASSERT_EQUAL_STR(device_serialized, test_array_removed); free(device_serialized); // Free the Object. devices_manager_free(dm); } /*--------------------------------------------------------------------------*/ void device_create_error_case(const char *capability) { struct json_object *root_node; devices_manager_t *dm; int ret; dm = devices_manager_new(); ASSERT_NOT_NULL(dm); // Create a New Entry. root_node = json_object_new_object(); // dm is NULL ret = devices_manager_create(NULL, capability, root_node); ASSERT_EQUAL_INT(ret, -1); // unknown capability ret = devices_manager_create(dm, "", root_node); ASSERT_EQUAL_INT(ret, -1); // json node is null ret = devices_manager_create(dm, capability, NULL); ASSERT_EQUAL_INT(ret, -1); // parameter is missing. ret = devices_manager_create(dm, capability, root_node); ASSERT_EQUAL_INT(ret, -1); json_object_put(root_node); // Free the Object. devices_manager_free(dm); } /*--------------------------------------------------------------------------*/ void device_get_by_id_error_case(const char *capability) { struct json_object *root_node; devices_manager_t *dm; int ret; char *device_serialized; dm = devices_manager_new(); ASSERT_NOT_NULL(dm); // Create a New Entry. root_node = json_object_new_object(); json_object_object_add(root_node, k_entry_name, json_object_new_string("test_name")); ret = devices_manager_create(dm, capability, root_node); ASSERT_EQUAL_INT(ret, 0); // dm is NULL device_serialized = devices_manager_get_by_id(NULL, capability, 1); ASSERT_NULL(device_serialized); // unknown capability device_serialized = devices_manager_get_by_id(dm, "", 1); ASSERT_NULL(device_serialized); // unknown id device_serialized = devices_manager_get_by_id(dm, capability, 7); ASSERT_NULL(device_serialized); json_object_put(root_node); // Free the Object. devices_manager_free(dm); }