tester_print("New connection with handle 0x%04x", handle); test_conn_handle = handle; bthost_request_auth(bthost, handle); } static struct test_case test_cases[] = { TEST_CASE_BREDRLE("Bluetooth Init", ACTION_SUCCESS(dummy_action, NULL), ), TEST_CASE_BREDRLE("Bluetooth Enable - Success", ACTION_SUCCESS(bluetooth_enable_action, NULL), CALLBACK_ADAPTER_PROPS(prop_emu_default_set, 8), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_ON), ), TEST_CASE_BREDRLE("Bluetooth Enable - Success 2", ACTION_SUCCESS(bluetooth_enable_action, NULL), CALLBACK_ADAPTER_PROPS(prop_emu_default_set, 8), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_ON), ACTION_SUCCESS(bluetooth_enable_action, NULL), ), TEST_CASE_BREDRLE("Bluetooth Disable - Success", ACTION_SUCCESS(bluetooth_enable_action, NULL), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_ON), ACTION_SUCCESS(bluetooth_disable_action, NULL), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_OFF), ), TEST_CASE_BREDRLE("Bluetooth Set BDNAME - Success", ACTION_SUCCESS(bluetooth_enable_action, NULL),
struct test_data *data = tester_get_data(); struct step *step = g_new0(struct step, 1); step->action_status = data->if_avrcp->get_element_attr_rsp(2, ele_attrs); schedule_action_verification(step); } static struct test_case test_cases[] = { TEST_CASE_BREDRLE("AVRCP Init", ACTION_SUCCESS(dummy_action, NULL), ), TEST_CASE_BREDRLE("AVRCP Connect - Success", ACTION_SUCCESS(bluetooth_enable_action, NULL), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_ON), ACTION_SUCCESS(emu_setup_powered_remote_action, NULL), ACTION_SUCCESS(emu_set_ssp_mode_action, NULL), ACTION_SUCCESS(set_default_ssp_request_handler, NULL), ACTION_SUCCESS(emu_add_l2cap_server_action, &sdp_setup_data), ACTION_SUCCESS(emu_add_l2cap_server_action, &a2dp_setup_data), ACTION_SUCCESS(emu_add_l2cap_server_action, &avrcp_setup_data), ACTION_SUCCESS(avrcp_connect_action, NULL), CALLBACK_AV_CONN_STATE(CB_A2DP_CONN_STATE, BTAV_CONNECTION_STATE_CONNECTING), CALLBACK_AV_CONN_STATE(CB_A2DP_CONN_STATE, BTAV_CONNECTION_STATE_CONNECTED), ACTION_SUCCESS(bluetooth_disable_action, NULL), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_OFF), ), TEST_CASE_BREDRLE("AVRCP Disconnect - Success",
ctrl_cid_data.handle = handle; tester_print("Sending L2CAP Request from remote"); bthost_l2cap_req(bthost, handle, 0x02, con_req.iov_base, con_req.iov_len, client_l2cap_rsp, &ctrl_cid_data); } static struct test_case test_cases[] = { TEST_CASE_BREDRLE("HidHost Init", ACTION_SUCCESS(dummy_action, NULL), ), TEST_CASE_BREDRLE("HidHost Connect Success", ACTION_SUCCESS(bluetooth_enable_action, NULL), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_ON), ACTION_SUCCESS(emu_setup_powered_remote_action, NULL), ACTION_SUCCESS(emu_set_ssp_mode_action, NULL), ACTION_SUCCESS(emu_add_l2cap_server_action, &l2cap_setup_sdp_data), ACTION_SUCCESS(emu_add_l2cap_server_action, &l2cap_setup_cc_data), ACTION_SUCCESS(emu_add_l2cap_server_action, &l2cap_setup_ic_data), ACTION_SUCCESS(hidhost_connect_action, NULL), CALLBACK_STATE(CB_HH_CONNECTION_STATE, BTHH_CONN_STATE_CONNECTED), ACTION_SUCCESS(bluetooth_disable_action, NULL), CALLBACK_STATE(CB_HH_CONNECTION_STATE, BTHH_CONN_STATE_DISCONNECTED), CALLBACK_STATE(CB_BT_ADAPTER_STATE_CHANGED, BT_STATE_OFF),