#include <gio/gunixfdlist.h>
#include <cynara-client.h>
#include <cynara-creds-gdbus.h>
+#include <systemd/sd-daemon.h>
#include "bluetooth-api.h"
#include "bluetooth-audio-api.h"
static gboolean __bt_is_sync_function(int service_function)
{
/*TODO: Keep adding sync methods with expect replies from bluetooth service */
- if (service_function == BT_ENABLE_ADAPTER
- || service_function == BT_DISABLE_ADAPTER
- || service_function == BT_GET_LOCAL_ADDRESS
+ if (service_function == BT_GET_LOCAL_ADDRESS
|| service_function == BT_GET_LOCAL_NAME
|| service_function == BT_GET_LOCAL_VERSION
|| service_function == BT_GET_BONDED_DEVICES
|| service_function == BT_GATT_SERVER_DELETE_SERVICE
|| service_function == BT_START_LE_DISCOVERY
|| service_function == BT_STOP_LE_DISCOVERY
+ || service_function == BT_GET_CONNECTABLE
#ifdef TIZEN_GATT_CLIENT
|| service_function == BT_GATT_CLIENT_REGISTER
|| service_function == BT_GATT_GET_PRIMARY_SERVICES
static int __bt_bm_request_data(_bt_battery_data_t *latest)
{
- int ret = _bt_bm_read_data(latest);
+ int ret = _bt_bm_read_data(latest);
if (ret == BLUETOOTH_ERROR_NONE) {
BT_DBG("Received data from bluetooth battery monitor: %ld %ld %d %d",
latest->session_start_time, latest->session_end_time,
switch (function_name) {
case BT_ENABLE_ADAPTER: {
result = _bt_enable_adapter();
- /* Save invocation */
- if (result == BLUETOOTH_ERROR_NONE) {
- BT_DBG("_bt_enable_adapter scheduled successfully! save invocation context");
- sender = (char*)g_dbus_method_invocation_get_sender(context);
- _bt_save_invocation_context(context, result, sender,
- function_name, NULL);
- }
break;
}
case BT_DISABLE_ADAPTER: {
result = _bt_disable_adapter();
- /* Save invocation */
- if (result == BLUETOOTH_ERROR_NONE) {
- BT_DBG("_bt_disable_adapter scheduled successfully! save invocation context");
- sender = (char*)g_dbus_method_invocation_get_sender(context);
- _bt_save_invocation_context(context, result, sender,
- function_name, NULL);
- }
break;
}
case BT_RECOVER_ADAPTER:
g_array_append_vals(*out_param1, &is_connectable, sizeof(gboolean));
break;
}
+ case BT_GET_CONNECTABLE: {
+ result = _bt_get_connectable();
+
+ /* Save invocation */
+ if (result == BLUETOOTH_ERROR_NONE) {
+ sender = (char*)g_dbus_method_invocation_get_sender(context);
+ _bt_save_invocation_context(context, result, sender,
+ function_name, NULL);
+ }
+ break;
+ }
case BT_SET_CONNECTABLE: {
gboolean is_connectable;
result = _bt_set_white_list(&address, address_type, is_add);
break;
}
+ case BT_UPDATE_LE_CONNECTION_MODE: {
+ char *sender = NULL;
+ bluetooth_device_address_t remote_address = { { 0 } };
+ bluetooth_le_connection_param_t parameters = { 0 };
+ bluetooth_le_connection_mode_t mode = BLUETOOTH_LE_CONNECTION_MODE_BALANCED;
+
+ __bt_service_get_parameters(in_param1, &remote_address,
+ sizeof(bluetooth_device_address_t));
+ __bt_service_get_parameters(in_param2, &mode,
+ sizeof(bluetooth_le_connection_mode_t));
+
+ result = _bt_get_le_connection_parameter(mode, ¶meters);
+ if (result != BLUETOOTH_ERROR_NONE)
+ break;
+
+ sender = (char *)g_dbus_method_invocation_get_sender(context);
+
+ result = _bt_le_connection_update(sender,
+ remote_address.addr,
+ parameters.interval_min,
+ parameters.interval_max,
+ parameters.latency,
+ parameters.timeout);
+ break;
+ }
case BT_SET_MANUFACTURER_DATA: {
bluetooth_manufacturer_data_t m_data = { 0 };
__bt_service_get_parameters(in_param1,
}
break;
}
+ case BT_IS_SCAN_FILTER_SUPPORTED:{
+ int is_supported = 0;
+
+ if (_bt_is_scan_filter_supported() == TRUE)
+ is_supported = 1;
+
+ g_array_append_vals(*out_param1,
+ &is_supported, sizeof(int));
+
+ break;
+ }
case BT_ENABLE_RSSI: {
bluetooth_device_address_t bd_addr;
int link_type;
}
break;
}
+ case BT_REQ_ATT_MTU: {
+ bluetooth_device_address_t address = { {0} };
+ unsigned int mtu;
+ char *addr;
+
+ sender = (char*)g_dbus_method_invocation_get_sender(context);
+
+ __bt_service_get_parameters(in_param1,
+ &address, sizeof(bluetooth_device_address_t));
+ __bt_service_get_parameters(in_param2,
+ &mtu, sizeof(unsigned int));
+ BT_DBG("BT_REQ_ATT_MTU: %d", mtu);
+ result = _bt_request_att_mtu(&address, mtu);
+ if (BLUETOOTH_ERROR_NONE == result) {
+ addr = g_malloc0(BT_ADDRESS_STRING_SIZE);
+ BT_INFO("GATT Client: Save Invocation data for BT_REQ_ATT_MTU [%s]", sender);
+
+ _bt_convert_addr_type_to_string(addr, address.addr);
+
+ /* Save the informations to invocation */
+ _bt_save_invocation_context(context, result, sender,
+ function_name, (gpointer)addr);
+ } else {
+ g_array_append_vals(*out_param1, &address,
+ sizeof(bluetooth_device_address_t));
+ }
+ break;
+ }
case BT_SET_LE_STATIC_RANDOM_ADDRESS: {
gboolean is_enable;
int mtu = -1;
bluetooth_gatt_client_char_prop_info_t param;
- BT_INFO("GATT Client ACQUIRE WRITE recived");
-
sender = (char*)g_dbus_method_invocation_get_sender(context);
__bt_service_get_parameters(in_param1, ¶m,
g_array_append_vals(*out_param1, &mtu, sizeof(int));
if (BLUETOOTH_ERROR_NONE == result)
- BT_INFO("GATT Client: Save Invocation data for characteristic props app[%s] fd[ %d]", sender, fd);
+ BT_DBG("GATT Client: Save Invocation data for characteristic props app[%s] fd[ %d]", sender, fd);
else {
- BT_ERR("Gatt Client Acqure Write");
+ BT_ERR("GATT Client: gatt acquire write failed");
break;
}
_bt_save_invocation_context(context, result, sender,
function_name, (gpointer)addr);
} else {
- BT_INFO("GATT Client: gatt connect failed");
+ BT_ERR("GATT Client: gatt connect failed");
g_array_append_vals(*out_param1, &address,
sizeof(bluetooth_device_address_t));
}
}
case BT_SET_SCAN_PARAMETERS: {
bluetooth_le_scan_params_t scan_params;
+
__bt_service_get_parameters(in_param1, &scan_params,
sizeof(bluetooth_le_scan_params_t));
g_array_append_vals(*out_param1, &is_coded_phy_supported, sizeof(gboolean));
break;
}
- case BT_UNREGISTER_SCAN_FILTER:{
- char *sender = NULL;
- int slot_id;
-
- sender = (char *)g_dbus_method_invocation_get_sender(context);
- __bt_service_get_parameters(in_param1, &slot_id, sizeof(int));
- BT_DBG("Remove scan filter [Slot ID : %d]", slot_id);
+ case BT_DISCONNECT_DEVICE: {
+ bluetooth_device_address_t address = { {0} };
- result = _bt_unregister_scan_filter(sender, slot_id);
+ __bt_service_get_parameters(in_param1,
+ &address, sizeof(bluetooth_device_address_t));
+ result = _bt_disconnect_device(&address);
break;
}
- case BT_UNREGISTER_ALL_SCAN_FILTERS: {
- char *sender = NULL;
-
- sender = (char *)g_dbus_method_invocation_get_sender(context);
-
- BT_DBG("Remove all scan filters [Sender : %s]", sender);
+ case BT_REGISTER_SCAN_FILTER: {
+ bluetooth_le_scan_filter_t scan_filter;
- result = _bt_unregister_all_scan_filters(sender);
+ sender = (char*)g_dbus_method_invocation_get_sender(context);
+ __bt_service_get_parameters(in_param1, &scan_filter,
+ sizeof(bluetooth_le_scan_filter_t));
- break;
- }
- case BT_DISCONNECT_DEVICE: {
- bluetooth_device_address_t address = { {0} };
+ BT_DBG("bluetooth_le_scan_filter_t [features : 0x%.2x]",
+ scan_filter.added_features);
- __bt_service_get_parameters(in_param1,
- &address, sizeof(bluetooth_device_address_t));
+ result = _bt_register_scan_filter(sender, &scan_filter);
- result = _bt_disconnect_device(&address);
break;
}
default:
case BT_SEARCH_SERVICE:
case BT_RFCOMM_CLIENT_CONNECT:
+ if (function_name == BT_RFCOMM_CLIENT_CONNECT)
+ BT_PERMANENT_LOG("Connect socket");
case BT_RFCOMM_CLIENT_CANCEL_CONNECT:
case BT_RFCOMM_SOCKET_DISCONNECT:
+ if (function_name == BT_RFCOMM_SOCKET_DISCONNECT)
+ BT_PERMANENT_LOG("Disconnect socket");
case BT_RFCOMM_SOCKET_WRITE:
case BT_RFCOMM_CREATE_SOCKET:
case BT_RFCOMM_REMOVE_SOCKET:
case BT_IS_DISCOVERYING:
case BT_IS_LE_DISCOVERYING:
case BT_IS_CONNECTABLE:
+ case BT_GET_CONNECTABLE:
case BT_GET_BONDED_DEVICES:
case BT_GET_PROFILE_CONNECTED_DEVICES:
case BT_GET_BONDED_DEVICE:
case BT_IS_LE_2M_PHY_SUPPORTED:
case BT_IS_LE_CODED_PHY_SUPPORTED:
case BT_REGISTER_SCAN_FILTER:
- case BT_UNREGISTER_SCAN_FILTER:
- case BT_UNREGISTER_ALL_SCAN_FILTERS:
case BT_IS_SCAN_FILTER_SUPPORTED:
case BT_GET_ATT_MTU:
return name_acquired;
}
+void _bt_service_unref_connection(void)
+{
+ BT_INFO("+");
+
+ if (bt_service_conn) {
+ g_dbus_connection_flush_sync(bt_service_conn, NULL, NULL);
+ g_object_unref(bt_service_conn);
+ bt_service_conn = NULL;
+ }
+
+ BT_INFO("-");
+}
+
int _bt_service_register(void)
{
GDBusConnection *conn;
void _bt_service_unregister(void)
{
if (bt_service_conn) {
+ sd_notify(0, "STOPPING=1");
+
if (owner_sig_id > 0) {
g_dbus_connection_signal_unsubscribe(
bt_service_conn, owner_sig_id);
owner_sig_id = 0;
}
- __bt_service_register_object(bt_service_conn, NULL, FALSE);
- if (bt_service_conn) {
- g_object_unref(bt_service_conn);
- bt_service_conn = NULL;
- }
if (owner_id > 0) {
g_bus_unown_name(owner_id);
owner_id = 0;
}
+
+ __bt_service_register_object(bt_service_conn, NULL, FALSE);
}
}
GArray *out_param, int result)
{
GVariant *out_var;
- BT_DBG("+");
+ BT_DBG("");
out_var = g_variant_new_from_data((const GVariantType *)"ay",
out_param->data, out_param->len, TRUE, NULL, NULL);
g_dbus_method_invocation_return_value(invocation,
g_variant_new("(iv)", result, out_var));
- BT_DBG("-");
}
void _bt_service_method_return_with_unix_fd_list(GDBusMethodInvocation *invocation,
GArray *out_param, int result, GUnixFDList *fd_list)
{
GVariant *out_var;
- BT_DBG("+");
+ BT_DBG("");
out_var = g_variant_new_from_data((const GVariantType *)"ay",
out_param->data, out_param->len, TRUE, NULL, NULL);
g_dbus_method_invocation_return_value_with_unix_fd_list(invocation,
g_variant_new("(iv)", result, out_var), fd_list);
- BT_DBG("-");
}