2 test_cases_get_all_nodes_by_dev_class.c.c -- Execution of specific meshlink black box test cases
3 Copyright (C) 2019 Guus Sliepen <guus@meshlink.io>
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License along
16 with this program; if not, write to the Free Software Foundation, Inc.,
17 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
20 #include "execute_tests.h"
21 #include "test_cases_get_all_nodes_by_dev_class.h"
22 #include "../common/containers.h"
23 #include "../common/test_step.h"
24 #include "../common/common_handlers.h"
32 /* Modify this to change the logging level of Meshlink */
33 #define TEST_MESHLINK_LOG_LEVEL MESHLINK_DEBUG
35 static void test_case_mesh_get_node_by_dev_class_01(void **state);
36 static bool test_steps_mesh_get_node_by_dev_class_01(void);
37 static void test_case_mesh_get_node_by_dev_class_02(void **state);
38 static bool test_steps_mesh_get_node_by_dev_class_02(void);
39 static void test_case_mesh_get_node_dev_class_01(void **state);
40 static bool test_steps_mesh_get_node_dev_class_01(void);
41 static void test_case_mesh_get_node_dev_class_02(void **state);
42 static bool test_steps_mesh_get_node_dev_class_02(void);
44 /* State structure for meshlink_get_node Test Case #1 */
45 static black_box_state_t test_mesh_get_node_by_dev_class_01_state = {
46 .test_case_name = "test_case_mesh_get_node_by_dev_class_01",
49 /* State structure for meshlink_get_node Test Case #2 */
50 static black_box_state_t test_mesh_get_node_by_dev_class_02_state = {
51 .test_case_name = "test_case_mesh_get_node_by_dev_class_02",
54 /* State structure for meshlink_get_node Test Case #3 */
55 static black_box_state_t test_mesh_get_node_01_state = {
56 .test_case_name = "test_mesh_get_node_01_state",
59 /* State structure for meshlink_get_node Test Case #4 */
60 static black_box_state_t test_mesh_get_node_02_state = {
61 .test_case_name = "test_mesh_get_node_02_state",
64 static void log_message(meshlink_handle_t *mesh, meshlink_log_level_t level, const char *text) {
67 static const char *levelstr[] = {
68 [MESHLINK_DEBUG] = "\x1b[34mDEBUG",
69 [MESHLINK_INFO] = "\x1b[32mINFO",
70 [MESHLINK_WARNING] = "\x1b[33mWARNING",
71 [MESHLINK_ERROR] = "\x1b[31mERROR",
72 [MESHLINK_CRITICAL] = "\x1b[31mCRITICAL",
75 fprintf(stderr, "%s(%s):\x1b[0m %s\n", mesh->name, levelstr[level], text);
78 /* Execute meshlink_get_node Test Case # 1 */
79 static void test_case_mesh_get_node_by_dev_class_01(void **state) {
80 execute_test(test_steps_mesh_get_node_by_dev_class_01, state);
83 /* Test Steps for meshlink_get_node Test Case # 1
86 1. Open nut, peer1, relay1, relay2, relay3 node instances, export and
87 import the configuration of NUT with other nodes.
88 2. Run the node instances.
89 3. Call meshlink_get_all_nodes_by_dev_class API with NULL as nodes array parameter
90 for DEV_CLASS_STATIONARY
91 4. Call meshlink_get_all_nodes_by_dev_class API with previously allocated nodes array
92 parameter for DEV_CLASS_BACKBONE
93 5. Call meshlink_get_all_nodes_by_dev_class API with previously allocated nodes array
94 parameter for DEV_CLASS_PORTABLE
97 meshlink_get_all_nodes_by_dev_class API should return appropriate node array pointer and
98 node member parameter when called and return accordingly.
100 static bool test_steps_mesh_get_node_by_dev_class_01(void) {
101 meshlink_node_t **nodes;
102 size_t nnodes = 0, i;
104 /* Create meshlink instance for NUT */
105 meshlink_handle_t *mesh_nut = meshlink_open("getnodeconf.1", "nut", "node_sim", DEV_CLASS_STATIONARY);
107 meshlink_set_log_cb(mesh_nut, TEST_MESHLINK_LOG_LEVEL, log_message);
109 /* Create meshlink instance for peer1 */
110 meshlink_handle_t *mesh_peer1 = meshlink_open("getnodeconf.2", "peer1", "node_sim", DEV_CLASS_STATIONARY);
112 meshlink_set_log_cb(mesh_peer1, TEST_MESHLINK_LOG_LEVEL, log_message);
114 /* Create meshlink instance for relay1 */
115 meshlink_handle_t *mesh_relay1 = meshlink_open("getnodeconf.3", "relay1", "node_sim", DEV_CLASS_BACKBONE);
117 meshlink_set_log_cb(mesh_relay1, TEST_MESHLINK_LOG_LEVEL, log_message);
119 /* Create meshlink instance for relay2 */
120 meshlink_handle_t *mesh_relay2 = meshlink_open("getnodeconf.4", "relay2", "node_sim", DEV_CLASS_BACKBONE);
122 meshlink_set_log_cb(mesh_relay2, TEST_MESHLINK_LOG_LEVEL, log_message);
124 /* Create meshlink instance for relay3 */
125 meshlink_handle_t *mesh_relay3 = meshlink_open("getnodeconf.5", "relay3", "node_sim", DEV_CLASS_BACKBONE);
127 meshlink_set_log_cb(mesh_relay3, TEST_MESHLINK_LOG_LEVEL, log_message);
129 /* importing and exporting mesh meta data */
130 char *exp_nut = meshlink_export(mesh_nut);
131 assert(exp_nut != NULL);
132 char *export = meshlink_export(mesh_peer1);
133 assert(export != NULL);
134 assert(meshlink_import(mesh_nut, export));
135 assert(meshlink_import(mesh_peer1, exp_nut));
138 export = meshlink_export(mesh_relay1);
139 assert(export != NULL);
140 assert(meshlink_import(mesh_nut, export));
141 assert(meshlink_import(mesh_relay1, exp_nut));
144 export = meshlink_export(mesh_relay2);
145 assert(export != NULL);
146 assert(meshlink_import(mesh_nut, export));
147 assert(meshlink_import(mesh_relay2, exp_nut));
150 export = meshlink_export(mesh_relay3);
151 assert(export != NULL);
152 assert(meshlink_import(mesh_nut, export));
153 assert(meshlink_import(mesh_relay3, exp_nut));
157 nodes = meshlink_get_all_nodes_by_dev_class(mesh_nut, DEV_CLASS_STATIONARY, NULL, &nnodes);
158 assert_int_not_equal(nodes, NULL);
159 assert_int_equal(nnodes, 2);
161 for(i = 0; i < nnodes; i++) {
162 if(strcasecmp(nodes[i]->name, "nut") && strcasecmp(nodes[i]->name, "peer1")) {
167 nodes = meshlink_get_all_nodes_by_dev_class(mesh_nut, DEV_CLASS_BACKBONE, nodes, &nnodes);
168 assert_int_not_equal(nodes, NULL);
169 assert_int_equal(nnodes, 3);
171 for(i = 0; i < nnodes; i++) {
172 if(strcasecmp(nodes[i]->name, "relay1") && strcasecmp(nodes[i]->name, "relay2") && strcasecmp(nodes[i]->name, "relay3")) {
177 nodes = meshlink_get_all_nodes_by_dev_class(mesh_nut, DEV_CLASS_PORTABLE, nodes, &nnodes);
178 assert_int_equal(nodes, NULL);
179 assert_int_equal(nnodes, 0);
180 assert_int_equal(meshlink_errno, 0);
183 meshlink_close(mesh_nut);
184 meshlink_close(mesh_peer1);
185 meshlink_close(mesh_relay1);
186 meshlink_close(mesh_relay2);
187 meshlink_close(mesh_relay3);
192 /* Execute meshlink_get_node Test Case # 2 - Invalid case
193 Passing invalid parameters as input arguments */
194 static void test_case_mesh_get_node_by_dev_class_02(void **state) {
195 execute_test(test_steps_mesh_get_node_by_dev_class_02, state);
198 /* Test Steps for meshlink_get_node Test Case # 2
202 2. Call meshlink_get_all_nodes_by_dev_class API with invalid parameters
205 meshlink_get_all_nodes_by_dev_class API should return NULL and set appropriate
208 static bool test_steps_mesh_get_node_by_dev_class_02(void) {
209 meshlink_node_t **nodes;
212 meshlink_destroy("getnodeconf.1");
214 /* Create meshlink instance for NUT */
215 meshlink_handle_t *mesh_nut = meshlink_open("getnodeconf.1", "nut", "node_sim", DEV_CLASS_STATIONARY);
217 meshlink_set_log_cb(mesh_nut, TEST_MESHLINK_LOG_LEVEL, log_message);
219 nodes = meshlink_get_all_nodes_by_dev_class(mesh_nut, _DEV_CLASS_MAX + 10, NULL, &nnodes);
220 assert_int_equal(nodes, NULL);
221 assert_int_not_equal(meshlink_errno, 0);
223 nodes = meshlink_get_all_nodes_by_dev_class(mesh_nut, DEV_CLASS_STATIONARY, NULL, NULL);
224 assert_int_equal(nodes, NULL);
225 assert_int_not_equal(meshlink_errno, 0);
227 nodes = meshlink_get_all_nodes_by_dev_class(NULL, DEV_CLASS_STATIONARY, NULL, &nnodes);
228 assert_int_equal(nodes, NULL);
229 assert_int_not_equal(meshlink_errno, 0);
231 meshlink_close(mesh_nut);
232 meshlink_destroy("getnodeconf.1");
236 /* Execute meshlink_get_node_dev_class Test Case # 1 */
237 static void test_case_mesh_get_node_dev_class_01(void **state) {
238 execute_test(test_steps_mesh_get_node_dev_class_01, state);
241 /* Test Steps for meshlink_get_node_dev_class Test Case # 1
244 1. Create NUT node with DEV_CLASS_STATIONARY device class and obtain node handle
245 2. Call meshlink_get_node_dev_class API
248 meshlink_get_node_dev_class API should return DEV_CLASS_STATIONARY device class
250 static bool test_steps_mesh_get_node_dev_class_01(void) {
251 meshlink_destroy("getnodeconf.1");
253 /* Create meshlink instance for NUT */
254 meshlink_handle_t *mesh_nut = meshlink_open("getnodeconf.1", "nut", "node_sim", DEV_CLASS_STATIONARY);
256 meshlink_set_log_cb(mesh_nut, TEST_MESHLINK_LOG_LEVEL, log_message);
258 meshlink_node_t *node;
259 node = meshlink_get_self(mesh_nut);
262 dev_class_t dev_class = meshlink_get_node_dev_class(mesh_nut, node);
263 assert_int_equal(dev_class, DEV_CLASS_STATIONARY);
265 meshlink_close(mesh_nut);
266 meshlink_destroy("getnodeconf.1");
270 /* Execute meshlink_get_node_dev_class Test Case # 2 */
271 static void test_case_mesh_get_node_dev_class_02(void **state) {
272 execute_test(test_steps_mesh_get_node_dev_class_02, state);
275 /* Test Steps for meshlink_get_node_dev_class Test Case # 2
278 1. Create NUT and obtain NUT node handle
279 2. Call meshlink_get_node_dev_class API with invalid parameters
282 meshlink_get_node_dev_class API should return NULL and set appropriate
285 static bool test_steps_mesh_get_node_dev_class_02(void) {
286 meshlink_destroy("getnodeconf.1");
288 /* Create meshlink instance for NUT */
289 meshlink_handle_t *mesh_nut = meshlink_open("getnodeconf.1", "nut", "node_sim", DEV_CLASS_STATIONARY);
291 meshlink_set_log_cb(mesh_nut, TEST_MESHLINK_LOG_LEVEL, log_message);
293 meshlink_node_t *node;
294 node = meshlink_get_self(mesh_nut);
297 int dev_class = meshlink_get_node_dev_class(NULL, node);
298 assert_int_equal(dev_class, -1);
299 assert_int_not_equal(meshlink_errno, 0);
301 dev_class = meshlink_get_node_dev_class(mesh_nut, NULL);
302 assert_int_equal(dev_class, -1);
303 assert_int_not_equal(meshlink_errno, 0);
305 meshlink_close(mesh_nut);
306 meshlink_destroy("getnodeconf.1");
310 static int black_box_setup_test_case(void **state) {
311 fprintf(stderr, "Destroying confbases\n");
312 meshlink_destroy("getnodeconf.1");
313 meshlink_destroy("getnodeconf.2");
314 meshlink_destroy("getnodeconf.3");
315 meshlink_destroy("getnodeconf.4");
316 meshlink_destroy("getnodeconf.5");
317 meshlink_set_log_cb(NULL, TEST_MESHLINK_LOG_LEVEL, meshlink_callback_logger);
318 meshlink_errno = MESHLINK_OK;
323 int test_meshlink_get_all_node_by_device_class(void) {
324 const struct CMUnitTest blackbox_get_node_tests[] = {
325 cmocka_unit_test_prestate_setup_teardown(test_case_mesh_get_node_by_dev_class_01, black_box_setup_test_case, black_box_setup_test_case,
326 (void *)&test_mesh_get_node_by_dev_class_01_state),
327 cmocka_unit_test_prestate_setup_teardown(test_case_mesh_get_node_by_dev_class_02, NULL, NULL,
328 (void *)&test_mesh_get_node_by_dev_class_02_state),
329 cmocka_unit_test_prestate_setup_teardown(test_case_mesh_get_node_dev_class_01, NULL, NULL,
330 (void *)&test_mesh_get_node_01_state),
331 cmocka_unit_test_prestate_setup_teardown(test_case_mesh_get_node_dev_class_02, NULL, NULL,
332 (void *)&test_mesh_get_node_02_state),
335 total_tests += sizeof(blackbox_get_node_tests) / sizeof(blackbox_get_node_tests[0]);
337 return cmocka_run_group_tests(blackbox_get_node_tests, NULL, NULL);