4 * Copyright (c) 2012-2013 Samsung Electronics Co., Ltd.
6 * Licensed under the Apache License, Version 2.0 (the "License");
7 * you may not use this file except in compliance with the License.
8 * You may obtain a copy of the License at
10 * http://www.apache.org/licenses/LICENSE-2.0
12 * Unless required by applicable law or agreed to in writing, software
13 * distributed under the License is distributed on an "AS IS" BASIS,
14 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
15 * See the License for the specific language governing permissions and
16 * limitations under the License.
22 #include "bluetooth-api.h"
23 #include "bt-internal-types.h"
25 #include "bt-common.h"
26 #include "bt-request-sender.h"
27 #include "bt-event-handler.h"
30 BT_EXPORT_API int bluetooth_rfcomm_create_socket(const char *uuid)
34 char uuid_str[BLUETOOTH_UUID_STRING_MAX];
36 BT_CHECK_ENABLED(return);
37 BT_CHECK_PARAMETER(uuid, return);
40 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
42 g_strlcpy(uuid_str, uuid, sizeof(uuid_str));
43 g_array_append_vals(in_param1, uuid_str, BLUETOOTH_UUID_STRING_MAX);
45 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_CREATE_SOCKET,
46 in_param1, in_param2, in_param3, in_param4, &out_param);
48 BT_DBG("result: %x", result);
50 if (result == BLUETOOTH_ERROR_NONE) {
51 socket_fd = g_array_index(out_param, int, 0);
53 BT_ERR("Fail to send request");
56 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
61 BT_EXPORT_API int bluetooth_rfcomm_remove_socket(int socket_fd)
65 BT_CHECK_ENABLED(return);
68 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
70 g_array_append_vals(in_param1, &socket_fd, sizeof(int));
72 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_REMOVE_SOCKET,
73 in_param1, in_param2, in_param3, in_param4, &out_param);
75 BT_DBG("result: %x", result);
77 if (result == BLUETOOTH_ERROR_NONE) {
78 _bt_remove_server(socket_fd);
81 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
86 BT_EXPORT_API int bluetooth_rfcomm_server_disconnect(int socket_fd)
90 BT_CHECK_ENABLED(return);
93 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
95 g_array_append_vals(in_param1, &socket_fd, sizeof(int));
97 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_SOCKET_DISCONNECT,
98 in_param1, in_param2, in_param3, in_param4, &out_param);
100 BT_DBG("result: %x", result);
102 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
107 BT_EXPORT_API gboolean bluetooth_rfcomm_is_server_uuid_available(const char *uuid)
110 gboolean available = TRUE;
111 char uuid_str[BLUETOOTH_UUID_STRING_MAX];
113 retv_if(uuid == NULL, FALSE);
114 retv_if(bluetooth_check_adapter() ==
115 BLUETOOTH_ADAPTER_DISABLED, FALSE);
118 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
120 g_strlcpy(uuid_str, uuid, sizeof(uuid_str));
121 g_array_append_vals(in_param1, uuid_str, BLUETOOTH_UUID_STRING_MAX);
123 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_IS_UUID_AVAILABLE,
124 in_param1, in_param2, in_param3, in_param4, &out_param);
126 BT_DBG("result: %x", result);
128 if (result == BLUETOOTH_ERROR_NONE) {
129 available = g_array_index(out_param, gboolean, 0);
132 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
134 BT_DBG("available: %d", available);
139 BT_EXPORT_API int bluetooth_rfcomm_listen_and_accept(int socket_fd, int max_pending_connection)
142 gboolean native_service = TRUE;
144 BT_CHECK_ENABLED(return);
147 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
149 g_array_append_vals(in_param1, &socket_fd, sizeof(int));
150 g_array_append_vals(in_param2, &max_pending_connection, sizeof(int));
151 g_array_append_vals(in_param3, &native_service, sizeof(gboolean));
153 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_LISTEN,
154 in_param1, in_param2, in_param3, in_param4, &out_param);
156 BT_DBG("result: %x", result);
158 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
163 BT_EXPORT_API int bluetooth_rfcomm_listen(int socket_fd, int max_pending_connection)
166 gboolean native_service = FALSE;
168 BT_CHECK_ENABLED(return);
171 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
173 g_array_append_vals(in_param1, &socket_fd, sizeof(int));
174 g_array_append_vals(in_param2, &max_pending_connection, sizeof(int));
175 g_array_append_vals(in_param3, &native_service, sizeof(gboolean));
177 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_LISTEN,
178 in_param1, in_param2, in_param3, in_param4, &out_param);
180 BT_DBG("result: %x", result);
182 if (result == BLUETOOTH_ERROR_NONE) {
183 _bt_add_server(socket_fd);
186 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
191 BT_EXPORT_API int bluetooth_rfcomm_accept_connection(int server_fd, int *client_fd)
195 BT_CHECK_ENABLED(return);
198 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
200 g_array_append_vals(in_param1, &server_fd, sizeof(int));
202 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_ACCEPT_CONNECTION,
203 in_param1, in_param2, in_param3, in_param4, &out_param);
205 BT_DBG("result: %x", result);
207 if (result == BLUETOOTH_ERROR_NONE) {
208 *client_fd = g_array_index(out_param, int, 0);
211 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
213 BT_DBG("client_fd: %d", *client_fd);
218 BT_EXPORT_API int bluetooth_rfcomm_reject_connection(int server_fd)
222 BT_CHECK_ENABLED(return);
225 BT_ALLOC_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);
227 g_array_append_vals(in_param1, &server_fd, sizeof(int));
229 result = _bt_send_request(BT_BLUEZ_SERVICE, BT_RFCOMM_REJECT_CONNECTION,
230 in_param1, in_param2, in_param3, in_param4, &out_param);
232 BT_DBG("result: %x", result);
234 BT_FREE_PARAMS(in_param1, in_param2, in_param3, in_param4, out_param);