/* * Copyright (c) 2022 Nordic Semiconductor * * SPDX-License-Identifier: Apache-2.0 * * Opcode aggregator test */ #include "mesh_test.h" #include #include LOG_MODULE_REGISTER(test_op_agg, LOG_LEVEL_INF); #define CLI_ADDR 0x7728 #define SRV_ADDR 0x18f8 #define WAIT_TIME 15 /* seconds */ #define SEM_TIMEOUT K_SECONDS(10) #define BT_MESH_DUMMY_VND_MOD_GET_OP BT_MESH_MODEL_OP_3(0xDC, TEST_VND_COMPANY_ID) #define BT_MESH_DUMMY_VND_MOD_STATUS_OP BT_MESH_MODEL_OP_3(0xCD, TEST_VND_COMPANY_ID) #define BT_MESH_DUMMY_VND_MOD_MSG_MINLEN 7 #define BT_MESH_DUMMY_VND_MOD_MSG_MAXLEN 8 /* The 34 messages make up the aggregated message sequence, expecting a 380 byte status response. */ #define TEST_SEND_ITR 34 /* Spec: 4.3.9.4: Table 4.273 defines the structure of the OPCODES_AGGREGATOR_STATUS message. */ #define OPCODES_AGG_STATUS_MSG_BASE_STRUCTURE_LEN 5 /* SPEC: 4.3.9.1: Length_format + Length_Short.*/ #define OPCODES_AGG_ITEM_SHORT_FORMAT_LEN 1 /* SPEC: 4.3.9.1: The structure of an Aggregator Item field is defined in Table 4.270 */ #define OPCODES_STATUS_ITEM_LEN(param_len) \ (OPCODES_AGG_ITEM_SHORT_FORMAT_LEN + \ BT_MESH_MODEL_OP_LEN(BT_MESH_DUMMY_VND_MOD_STATUS_OP) + param_len) /* Spec: 4.3.9.3 OPCODES_AGGREGATOR_STATUS. The test initiates 33+1 get/status message iterations.*/ #define OP_AGG_STATUS_ACCESS_PAYLOAD \ (OPCODES_AGG_STATUS_MSG_BASE_STRUCTURE_LEN + \ (OPCODES_STATUS_ITEM_LEN(BT_MESH_DUMMY_VND_MOD_MSG_MINLEN) * (TEST_SEND_ITR - 1)) + \ OPCODES_STATUS_ITEM_LEN(BT_MESH_DUMMY_VND_MOD_MSG_MAXLEN)) /* Ensure that a 380-byte opcode aggregator get/status access payload is being sent. */ BUILD_ASSERT(OP_AGG_STATUS_ACCESS_PAYLOAD == (BT_MESH_TX_SDU_MAX - BT_MESH_MIC_SHORT)); static int status_rcvd_count; static int get_rcvd_count; static struct k_sem cli_suspend_sem; static struct k_sem srv_suspend_sem; static const uint8_t dev_key[16] = {0xaa}; static uint8_t cli_sent_array[TEST_SEND_ITR], cli_rcvd_array[TEST_SEND_ITR]; static struct bt_mesh_msg_ctx test_ctx = { .net_idx = 0, .app_idx = 0, .addr = SRV_ADDR, }; static struct bt_mesh_prov prov; static struct bt_mesh_cfg_cli cfg_cli; static int get_handler(struct bt_mesh_model *model, struct bt_mesh_msg_ctx *ctx, struct net_buf_simple *buf) { uint8_t seq = net_buf_simple_pull_u8(buf); get_rcvd_count++; BT_MESH_MODEL_BUF_DEFINE(msg, BT_MESH_DUMMY_VND_MOD_STATUS_OP, BT_MESH_DUMMY_VND_MOD_MSG_MAXLEN); bt_mesh_model_msg_init(&msg, BT_MESH_DUMMY_VND_MOD_STATUS_OP); net_buf_simple_add_u8(&msg, seq); memset(net_buf_simple_add(&msg, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN - 1), 0, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN); /* Last message: One additional byte is added to fill the available access payload.*/ if (get_rcvd_count >= TEST_SEND_ITR) { net_buf_simple_add(&msg, 1); k_sem_give(&srv_suspend_sem); } return bt_mesh_model_send(model, ctx, &msg, NULL, NULL); } static int status_handler(struct bt_mesh_model *model, struct bt_mesh_msg_ctx *ctx, struct net_buf_simple *buf) { uint8_t seq = net_buf_simple_pull_u8(buf); status_rcvd_count++; cli_rcvd_array[status_rcvd_count - 1] = seq; if (status_rcvd_count >= TEST_SEND_ITR) { k_sem_give(&cli_suspend_sem); } return 0; } static int dummy_vnd_mod_get(struct bt_mesh_model *model, struct bt_mesh_msg_ctx *ctx, uint8_t seq) { BT_MESH_MODEL_BUF_DEFINE(msg, BT_MESH_DUMMY_VND_MOD_GET_OP, BT_MESH_DUMMY_VND_MOD_MSG_MAXLEN); bt_mesh_model_msg_init(&msg, BT_MESH_DUMMY_VND_MOD_GET_OP); net_buf_simple_add_u8(&msg, seq); memset(net_buf_simple_add(&msg, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN - 1), 0, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN); /* Last message: One additional byte is added to fill the available access payload.*/ if (seq >= TEST_SEND_ITR - 1) { net_buf_simple_add(&msg, 1); } return bt_mesh_model_send(model, ctx, &msg, NULL, NULL); } const struct bt_mesh_model_op _dummy_vnd_mod_op[] = { {BT_MESH_DUMMY_VND_MOD_GET_OP, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN, get_handler}, {BT_MESH_DUMMY_VND_MOD_STATUS_OP, BT_MESH_DUMMY_VND_MOD_MSG_MINLEN, status_handler}, BT_MESH_MODEL_OP_END, }; static struct bt_mesh_elem elements[] = {BT_MESH_ELEM( 0, MODEL_LIST(BT_MESH_MODEL_CFG_SRV, BT_MESH_MODEL_CFG_CLI(&cfg_cli), BT_MESH_MODEL_OP_AGG_SRV, BT_MESH_MODEL_OP_AGG_CLI), MODEL_LIST(BT_MESH_MODEL_VND_CB(TEST_VND_COMPANY_ID, TEST_VND_MOD_ID, _dummy_vnd_mod_op, NULL, NULL, NULL)))}; static const struct bt_mesh_comp comp = { .cid = TEST_VND_COMPANY_ID, .elem = elements, .elem_count = ARRAY_SIZE(elements), }; static void op_agg_test_prov_and_conf(uint16_t addr) { uint8_t status; int err; ASSERT_OK(bt_mesh_provision(test_net_key, 0, 0, 0, addr, dev_key)); err = bt_mesh_cfg_cli_app_key_add(0, addr, 0, 0, test_app_key, &status); if (err || status) { FAIL("AppKey add failed (err %d, status %u)", err, status); } err = bt_mesh_cfg_cli_mod_app_bind(0, addr, addr, 0, BT_MESH_MODEL_ID_OP_AGG_CLI, &status); if (err || status) { FAIL("Failed to bind OP_AGG_CLI to application (err %d, status %u)", err, status); } err = bt_mesh_cfg_cli_mod_app_bind(0, addr, addr, 0, BT_MESH_MODEL_ID_OP_AGG_SRV, &status); if (err || status) { FAIL("Failed to bind OP_AGG_SRV to application (err %d, status %u)", err, status); } err = bt_mesh_cfg_cli_mod_app_bind_vnd(0, addr, addr, 0, TEST_VND_MOD_ID, TEST_VND_COMPANY_ID, &status); if (err || status) { FAIL("Failed to bind OP_AGG_TEST_MOD to application (err %d, status %u)", err, status); } } static void test_cli_max_len_sequence_msg_send(void) { struct bt_mesh_model *dummy_vnd_model = &elements[0].vnd_models[0]; uint8_t seq; bt_mesh_test_cfg_set(NULL, WAIT_TIME); bt_mesh_device_setup(&prov, &comp); op_agg_test_prov_and_conf(CLI_ADDR); ASSERT_OK(k_sem_init(&cli_suspend_sem, 0, 1)); ASSERT_OK(bt_mesh_op_agg_cli_seq_start(0, 0, SRV_ADDR, SRV_ADDR)); for (int i = 0; i < TEST_SEND_ITR; i++) { seq = cli_sent_array[i] = i; ASSERT_OK(dummy_vnd_mod_get(dummy_vnd_model, &test_ctx, seq)); } ASSERT_OK(bt_mesh_op_agg_cli_seq_send()); /* Wait for all expected STATUS messages to be received */ if (k_sem_take(&cli_suspend_sem, SEM_TIMEOUT)) { FAIL("Client suspension timed out. Status-messages received: %d", status_rcvd_count); } if (memcmp(cli_sent_array, cli_rcvd_array, ARRAY_SIZE(cli_rcvd_array))) { FAIL("Message arrays (sent / rcvd) are not equal."); } PASS(); } static void test_srv_max_len_status_msg_send(void) { bt_mesh_test_cfg_set(NULL, WAIT_TIME); bt_mesh_device_setup(&prov, &comp); op_agg_test_prov_and_conf(SRV_ADDR); ASSERT_OK(k_sem_init(&srv_suspend_sem, 0, 1)); /* Wait for all expected GET messages to be received */ if (k_sem_take(&srv_suspend_sem, SEM_TIMEOUT)) { FAIL("Server suspension timed out. Get-messages received: %d", get_rcvd_count); } PASS(); } #define TEST_CASE(role, name, description) \ { \ .test_id = "op_agg_" #role "_" #name, \ .test_descr = description, \ .test_tick_f = bt_mesh_test_timeout, \ .test_main_f = test_##role##_##name, \ } static const struct bst_test_instance test_op_agg[] = { TEST_CASE(cli, max_len_sequence_msg_send, "OpAggCli composes a sequence request list, expecting a 380 Byte status message " "in return."), TEST_CASE(srv, max_len_status_msg_send, "OpAggSrv will respond with a 380 Byte status message. "), BSTEST_END_MARKER}; struct bst_test_list *test_op_agg_install(struct bst_test_list *tests) { tests = bst_add_tests(tests, test_op_agg); return tests; }