int size;
int i;
int j;
- bluetooth_device_info_t info;
+ bluetooth_device_info_t *info;
char bond_address[BT_ADDRESS_STRING_SIZE] = { 0 };
gboolean ret = FALSE;
size = (dev_list->len) / sizeof(bluetooth_device_info_t);
for (i = 0; i < size; i++) {
- info = g_array_index(dev_list, bluetooth_device_info_t, i);
+ info = &g_array_index(dev_list, bluetooth_device_info_t, i);
_bt_convert_addr_type_to_string(bond_address,
- info.device_address.addr);
+ info->device_address.addr);
if (strcmp(bond_address, remote_address) != 0)
continue;
BT_INFO("Device address Matched");
j = 0;
- while (j != info.service_index) {
+ while (j != info->service_index) {
if (type == BT_AUDIO_HSP) {
- if (strcmp(info.uuids[j], HFP_HS_UUID) == 0) {
+ if (strcmp(info->uuids[j], HFP_HS_UUID) == 0) {
BT_INFO("HFP HS UUID exists");
ret = TRUE;
goto end;
}
} else if (type == BT_AUDIO_A2DP) {
- if (strcmp(info.uuids[j], A2DP_SINK_UUID) == 0) {
+ if (strcmp(info->uuids[j], A2DP_SINK_UUID) == 0) {
BT_INFO("A2DP SINK UUID exists");
ret = TRUE;
goto end;
BT_DBG("result [%d]", result);
if (auto_connect_timer.retry_count <= 0) {
- BT_INFO("Stopping Auto connect retry");
+ BT_INFO(" ### Stopping Auto connect retry");
auto_connect_timer.alarm_id = 0;
} else {
result = _bt_service_set_alarm(BT_AUTO_CONNECT_TIMEOUT_AFTER_LINKLOSS,
BT_AUTO_CONNECT_TIMEOUT_AFTER_LINKLOSS;
if (linkloss_flag) {
- BT_INFO("Start auto connection after linkloss");
+ BT_INFO(" ### Start auto connection after linkloss");
result = _bt_service_set_alarm(BT_AUTO_CONNECT_TIMEOUT_AFTER_LINKLOSS,
__bt_auto_connect_alarm_cb, NULL, &alarm_id);
if (result != BLUETOOTH_ERROR_NONE)
auto_connect_timer.alarm_id = alarm_id;
} else {
- BT_INFO("Start auto connection after BT activated");
+ BT_INFO(" ### Start auto connection after BT activated");
result = _bt_service_set_alarm(BT_AUTO_CONNECT_TIMEOUT_AFTER_BT_ACTIVATED,
__bt_auto_connect_alarm_cb, NULL, &alarm_id);
if (result == BLUETOOTH_ERROR_NONE)