2 test_cases_submesh03.c -- Execution of specific meshlink black box test cases
3 Copyright (C) 2018 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.
29 #include "execute_tests.h"
30 #include "test_cases_submesh03.h"
32 #include "../common/containers.h"
33 #include "../common/test_step.h"
34 #include "../common/common_handlers.h"
35 #include "../common/mesh_event_handler.h"
37 #define CORENODE1_ID "0"
38 #define APP1NODE1_ID "1"
39 #define APP1NODE2_ID "2"
43 static bool test_case_status = false;
45 static void test_case_submesh_03(void **state);
46 static bool test_steps_submesh_03(void);
48 static char event_node_name[][10] = {"CORENODE1", "APP1NODE1", "APP1NODE2"};
49 static const char *node_ids[] = { "corenode1", "app1node1", "app1node2" };
51 static mesh_event_t core_node1[] = { NODE_STARTED, CHANNEL_OPENED, CHANNEL_DATA_RECIEVED};
53 static mesh_event_t app1_node1[] = { NODE_STARTED, NODE_JOINED, CHANNEL_OPENED, CHANNEL_DATA_RECIEVED};
55 static mesh_event_t app1_node2[] = { NODE_STARTED, NODE_JOINED, CHANNEL_OPENED, CHANNEL_DATA_RECIEVED, CHANNEL_OPENED, CHANNEL_DATA_RECIEVED, MESH_EVENT_COMPLETED};
57 static node_status_t node_status[3] = {
63 /* State structure for SubMesh Test Case #3 */
64 static char *test_case_submesh_3_nodes[] = { "corenode1", "app1node1", "app1node2" };
65 static black_box_state_t test_case_submesh_3_state = {
66 .test_case_name = "test_cases_submesh03",
67 .node_names = test_case_submesh_3_nodes,
71 static int black_box_group0_setup(void **state) {
74 const char *nodes[] = { "corenode1", "app1node1", "app1node2" };
75 int num_nodes = sizeof(nodes) / sizeof(nodes[0]);
77 PRINT_TEST_CASE_MSG("Creating Containers\n");
79 create_containers(nodes, num_nodes);
84 static int black_box_group0_teardown(void **state) {
87 PRINT_TEST_CASE_MSG("Destroying Containers\n");
93 static void restart_all_nodes(char *import) {
96 for(i = 0; i < 3; i++) {
97 node_step_in_container(node_ids[i], "SIGTERM");
98 node_status[i].current_index = 0;
103 node_sim_in_container_event("corenode1", "1", NULL, CORENODE1_ID, import);
104 node_sim_in_container_event("app1node1", "1", NULL, APP1NODE1_ID, import);
105 node_sim_in_container_event("app1node2", "1", NULL, APP1NODE2_ID, import);
108 static bool event_cb(mesh_event_payload_t payload) {
110 fprintf(stderr, "%s(%lu) : %s\n", event_node_name[payload.client_id], time(NULL), event_status[payload.mesh_event]);
111 assert(change_state(&node_status[payload.client_id], payload.mesh_event));
113 if(payload.mesh_event == NODE_JOINED) {
114 signal_node_start(node_status, 1, 2, (char **)node_ids);
117 if(check_nodes_finished(node_status, 3)) {
118 test_case_status = true;
125 /* Execute SubMesh Test Case # 3 */
126 static void test_case_submesh_03(void **state) {
127 execute_test(test_steps_submesh_03, state);
130 /* Test Steps for SubMesh Test Case # 3
133 1. Run corenode1, app1node1, and app1node2
134 2. Generate invites to app1node1, and app1node2
135 from corenode1 to join corenode1.
136 3. After Join is successful start channels from all nodes and exchange data on channels
137 4. Try to restart all the nodes at the same time.
140 Channels should be formed between nodes of sub-mesh & coremesh, nodes with in sub-mesh
141 and should be able to exchange data even after restart.
143 static bool test_steps_submesh_03(void) {
144 char *invite_app1node1, *invite_app1node2;
147 import = mesh_event_sock_create(eth_if_name);
148 invite_app1node1 = invite_in_container("corenode1", "app1node1");
149 invite_app1node2 = invite_in_container("corenode1", "app1node2");
151 node_sim_in_container_event("corenode1", "1", NULL, CORENODE1_ID, import);
152 node_sim_in_container_event("app1node1", "1", invite_app1node1, APP1NODE1_ID, import);
153 node_sim_in_container_event("app1node2", "1", invite_app1node2, APP1NODE2_ID, import);
155 PRINT_TEST_CASE_MSG("Waiting for nodes to get connected with corenode1\n");
157 assert(wait_for_event(event_cb, 120));
158 assert(test_case_status);
160 test_case_status = false;
162 restart_all_nodes(import);
163 PRINT_TEST_CASE_MSG("Waiting for nodes to get restarted\n");
165 assert(wait_for_event(event_cb, 120));
166 assert(test_case_status);
168 free(invite_app1node1);
169 free(invite_app1node2);
171 mesh_event_destroy();
176 int test_cases_submesh03(void) {
177 const struct CMUnitTest blackbox_group0_tests[] = {
178 cmocka_unit_test_prestate_setup_teardown(test_case_submesh_03, setup_test, teardown_test,
179 (void *)&test_case_submesh_3_state)
181 total_tests += sizeof(blackbox_group0_tests) / sizeof(blackbox_group0_tests[0]);
183 return cmocka_run_group_tests(blackbox_group0_tests, black_box_group0_setup, black_box_group0_teardown);