/****************************************************************************** * * Copyright 2014 Google, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ #define LOG_TAG "bt_btif_sock" #include #include #include #include #include #include "bta_api.h" #include "btif_common.h" #include "btif_config.h" #include "btif_metrics_logging.h" #include "btif_sock_l2cap.h" #include "btif_sock_rfc.h" #include "btif_sock_sco.h" #include "btif_sock_sdp.h" #include "btif_sock_thread.h" #include "btif_uid.h" #include "btif_util.h" #include "device/include/controller.h" #include "osi/include/thread.h" using bluetooth::Uuid; static bt_status_t btsock_listen(btsock_type_t type, const char* service_name, const Uuid* uuid, int channel, int* sock_fd, int flags, int app_uid); static bt_status_t btsock_connect(const RawAddress* bd_addr, btsock_type_t type, const Uuid* uuid, int channel, int* sock_fd, int flags, int app_uid); static void btsock_request_max_tx_data_length(const RawAddress& bd_addr); static void btsock_signaled(int fd, int type, int flags, uint32_t user_id); static std::atomic_int thread_handle{-1}; static thread_t* thread; const btsock_interface_t* btif_sock_get_interface(void) { static btsock_interface_t interface = { sizeof(interface), btsock_listen, /* listen */ btsock_connect, /* connect */ btsock_request_max_tx_data_length /* request_max_tx_data_length */ }; return &interface; } bt_status_t btif_sock_init(uid_set_t* uid_set) { CHECK(thread_handle == -1); CHECK(thread == NULL); bt_status_t status; btsock_thread_init(); thread_handle = btsock_thread_create(btsock_signaled, NULL); if (thread_handle == -1) { LOG_ERROR("%s unable to create btsock_thread.", __func__); goto error; } status = btsock_rfc_init(thread_handle, uid_set); if (status != BT_STATUS_SUCCESS) { LOG_ERROR("%s error initializing RFCOMM sockets: %d", __func__, status); goto error; } status = btsock_l2cap_init(thread_handle, uid_set); if (status != BT_STATUS_SUCCESS) { LOG_ERROR("%s error initializing L2CAP sockets: %d", __func__, status); goto error; } thread = thread_new("btif_sock"); if (!thread) { LOG_ERROR("%s error creating new thread.", __func__); btsock_rfc_cleanup(); goto error; } status = btsock_sco_init(thread); if (status != BT_STATUS_SUCCESS) { LOG_ERROR("%s error initializing SCO sockets: %d", __func__, status); btsock_rfc_cleanup(); goto error; } return BT_STATUS_SUCCESS; error:; thread_free(thread); thread = NULL; if (thread_handle != -1) btsock_thread_exit(thread_handle); thread_handle = -1; uid_set = NULL; return BT_STATUS_FAIL; } void btif_sock_cleanup(void) { int saved_handle = thread_handle; if (std::atomic_exchange(&thread_handle, -1) == -1) return; btsock_thread_exit(saved_handle); btsock_rfc_cleanup(); btsock_sco_cleanup(); btsock_l2cap_cleanup(); thread_free(thread); thread = NULL; } static bt_status_t btsock_listen(btsock_type_t type, const char* service_name, const Uuid* service_uuid, int channel, int* sock_fd, int flags, int app_uid) { if ((flags & BTSOCK_FLAG_NO_SDP) == 0) { CHECK(sock_fd != NULL); } *sock_fd = INVALID_FD; bt_status_t status = BT_STATUS_FAIL; int original_channel = channel; log_socket_connection_state(RawAddress::kEmpty, 0, type, android::bluetooth::SocketConnectionstateEnum:: SOCKET_CONNECTION_STATE_LISTENING, 0, 0, app_uid, channel, android::bluetooth::SOCKET_ROLE_LISTEN); switch (type) { case BTSOCK_RFCOMM: status = btsock_rfc_listen(service_name, service_uuid, channel, sock_fd, flags, app_uid); break; case BTSOCK_L2CAP: status = btsock_l2cap_listen(service_name, channel, sock_fd, flags, app_uid); break; case BTSOCK_L2CAP_LE: if (flags & BTSOCK_FLAG_NO_SDP) { /* Set channel to zero so that it will be assigned */ channel = 0; } else if (channel <= 0) { LOG_ERROR("%s: type BTSOCK_L2CAP_LE: invalid channel=%d", __func__, channel); break; } flags |= BTSOCK_FLAG_LE_COC; LOG_INFO( "%s: type=BTSOCK_L2CAP_LE, channel=0x%x, original=0x%x, flags=0x%x", __func__, channel, original_channel, flags); status = btsock_l2cap_listen(service_name, channel, sock_fd, flags, app_uid); break; case BTSOCK_SCO: status = btsock_sco_listen(sock_fd, flags); break; default: LOG_ERROR("%s unknown/unsupported socket type: %d", __func__, type); status = BT_STATUS_UNSUPPORTED; break; } if (status != BT_STATUS_SUCCESS) { log_socket_connection_state(RawAddress::kEmpty, 0, type, android::bluetooth::SocketConnectionstateEnum:: SOCKET_CONNECTION_STATE_DISCONNECTED, 0, 0, app_uid, channel, android::bluetooth::SOCKET_ROLE_LISTEN); } return status; } static bt_status_t btsock_connect(const RawAddress* bd_addr, btsock_type_t type, const Uuid* uuid, int channel, int* sock_fd, int flags, int app_uid) { CHECK(bd_addr != NULL); CHECK(sock_fd != NULL); *sock_fd = INVALID_FD; bt_status_t status = BT_STATUS_FAIL; log_socket_connection_state(*bd_addr, 0, type, android::bluetooth::SocketConnectionstateEnum:: SOCKET_CONNECTION_STATE_CONNECTING, 0, 0, app_uid, channel, android::bluetooth::SOCKET_ROLE_CONNECTION); switch (type) { case BTSOCK_RFCOMM: status = btsock_rfc_connect(bd_addr, uuid, channel, sock_fd, flags, app_uid); break; case BTSOCK_L2CAP: status = btsock_l2cap_connect(bd_addr, channel, sock_fd, flags, app_uid); break; case BTSOCK_L2CAP_LE: { flags |= BTSOCK_FLAG_LE_COC; // Ensure device is in inquiry database tBLE_ADDR_TYPE addr_type = BLE_ADDR_PUBLIC; int device_type = 0; if (btif_get_address_type(*bd_addr, &addr_type) && btif_get_device_type(*bd_addr, &device_type) && device_type != BT_DEVICE_TYPE_BREDR) { BTA_DmAddBleDevice(*bd_addr, addr_type, device_type); } LOG_INFO("%s: type=BTSOCK_L2CAP_LE, channel=0x%x, flags=0x%x", __func__, channel, flags); status = btsock_l2cap_connect(bd_addr, channel, sock_fd, flags, app_uid); break; } case BTSOCK_SCO: status = btsock_sco_connect(bd_addr, sock_fd, flags); break; default: LOG_ERROR("%s unknown/unsupported socket type: %d", __func__, type); status = BT_STATUS_UNSUPPORTED; break; } if (status != BT_STATUS_SUCCESS) { log_socket_connection_state(*bd_addr, 0, type, android::bluetooth::SocketConnectionstateEnum:: SOCKET_CONNECTION_STATE_DISCONNECTED, 0, 0, app_uid, channel, android::bluetooth::SOCKET_ROLE_CONNECTION); } return status; } static void btsock_request_max_tx_data_length(const RawAddress& remote_device) { BTA_DmBleRequestMaxTxDataLength(remote_device); } static void btsock_signaled(int fd, int type, int flags, uint32_t user_id) { switch (type) { case BTSOCK_RFCOMM: btsock_rfc_signaled(fd, flags, user_id); break; case BTSOCK_L2CAP: case BTSOCK_L2CAP_LE: /* Note: The caller may not distinguish between BTSOCK_L2CAP and * BTSOCK_L2CAP_LE correctly */ btsock_l2cap_signaled(fd, flags, user_id); break; default: LOG(FATAL) << "Invalid socket type! type=" << type << " fd=" << fd << " flags=" << flags << " user_id=" << user_id; break; } }