/****************************************************************************** * * Copyright (C) 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_sco" #include #include #include #include #include #include #include #include "btif_common.h" #include "osi/include/allocator.h" #include "osi/include/list.h" #include "osi/include/osi.h" #include "osi/include/log.h" #include "osi/include/socket.h" #include "osi/include/thread.h" // This module provides a socket abstraction for SCO connections to a higher // layer. It returns file descriptors representing two types of sockets: // listening (server) and connected (client) sockets. No SCO data is // transferred across these sockets; instead, they are used to manage SCO // connection lifecycles while the data routing takes place over the I2S bus. // // This code bridges the gap between the BTM layer, which implements SCO // connections, and the Android HAL. It adapts the BTM representation of SCO // connections (integer handles) to a file descriptor representation usable by // Android's LocalSocket implementation. // // Sample flow for an incoming connection: // btsock_sco_listen() - listen for incoming connections // connection_request_cb() - incoming connection request from remote host // connect_completed_cb() - connection successfully established // socket_read_ready_cb() - local host closed SCO socket // disconnect_completed_cb() - connection terminated typedef struct { uint16_t sco_handle; socket_t *socket; bool connect_completed; } sco_socket_t; // TODO: verify packet types that are being sent OTA. static tBTM_ESCO_PARAMS sco_parameters = { BTM_64KBITS_RATE, /* TX Bandwidth (64 kbits/sec) */ BTM_64KBITS_RATE, /* RX Bandwidth (64 kbits/sec) */ 0x000a, /* 10 ms (HS/HF can use EV3, 2-EV3, 3-EV3) */ 0x0060, /* Inp Linear, Air CVSD, 2s Comp, 16bit */ (BTM_SCO_LINK_ALL_PKT_MASK | BTM_SCO_PKT_TYPES_MASK_NO_2_EV5 | BTM_SCO_PKT_TYPES_MASK_NO_3_EV5), BTM_ESCO_RETRANS_POWER /* Retransmission effort */ }; static sco_socket_t *sco_socket_establish_locked(bool is_listening, const bt_bdaddr_t *bd_addr, int *sock_fd); static sco_socket_t *sco_socket_new(void); static void sco_socket_free_locked(sco_socket_t *socket); static sco_socket_t *sco_socket_find_locked(uint16_t sco_handle); static void connection_request_cb(tBTM_ESCO_EVT event, tBTM_ESCO_EVT_DATA *data); static void connect_completed_cb(uint16_t sco_handle); static void disconnect_completed_cb(uint16_t sco_handle); static void socket_read_ready_cb(socket_t *socket, void *context); // |lock| protects all of the static variables below and // calls into the BTM layer. static pthread_mutex_t lock; static list_t *sco_sockets; // Owns a collection of sco_socket_t objects. static sco_socket_t *listen_sco_socket; // Not owned, do not free. static thread_t *thread; // Not owned, do not free. bt_status_t btsock_sco_init(thread_t *thread_) { assert(thread_ != NULL); sco_sockets = list_new((list_free_cb)sco_socket_free_locked); if (!sco_sockets) return BT_STATUS_FAIL; pthread_mutex_init(&lock, NULL); thread = thread_; BTM_SetEScoMode(BTM_LINK_TYPE_ESCO, &sco_parameters); return BT_STATUS_SUCCESS; } bt_status_t btsock_sco_cleanup(void) { list_free(sco_sockets); sco_sockets = NULL; pthread_mutex_destroy(&lock); return BT_STATUS_SUCCESS; } bt_status_t btsock_sco_listen(int *sock_fd, UNUSED_ATTR int flags) { assert(sock_fd != NULL); pthread_mutex_lock(&lock); sco_socket_t *sco_socket = sco_socket_establish_locked(true, NULL, sock_fd); if (sco_socket) { BTM_RegForEScoEvts(sco_socket->sco_handle, connection_request_cb); listen_sco_socket = sco_socket; } pthread_mutex_unlock(&lock); return sco_socket ? BT_STATUS_SUCCESS : BT_STATUS_FAIL; } bt_status_t btsock_sco_connect(const bt_bdaddr_t *bd_addr, int *sock_fd, UNUSED_ATTR int flags) { assert(bd_addr != NULL); assert(sock_fd != NULL); pthread_mutex_lock(&lock); sco_socket_t *sco_socket = sco_socket_establish_locked(false, bd_addr, sock_fd); pthread_mutex_unlock(&lock); return (sco_socket != NULL) ? BT_STATUS_SUCCESS : BT_STATUS_FAIL; } // Must be called with |lock| held. static sco_socket_t *sco_socket_establish_locked(bool is_listening, const bt_bdaddr_t *bd_addr, int *sock_fd) { int pair[2] = { INVALID_FD, INVALID_FD }; sco_socket_t *sco_socket = NULL; if (socketpair(AF_LOCAL, SOCK_STREAM, 0, pair) == -1) { LOG_ERROR("%s unable to allocate socket pair: %s", __func__, strerror(errno)); goto error; } sco_socket = sco_socket_new(); if (!sco_socket) { LOG_ERROR("%s unable to allocate new SCO socket.", __func__); goto error; } tBTM_STATUS status = BTM_CreateSco((uint8_t *)bd_addr, !is_listening, sco_parameters.packet_types, &sco_socket->sco_handle, connect_completed_cb, disconnect_completed_cb); if (status != BTM_CMD_STARTED) { LOG_ERROR("%s unable to create SCO socket: %d", __func__, status); goto error; } socket_t *socket = socket_new_from_fd(pair[1]); if (!socket) { LOG_ERROR("%s unable to allocate socket from file descriptor %d.", __func__, pair[1]); goto error; } *sock_fd = pair[0]; // Transfer ownership of one end to caller. sco_socket->socket = socket; // Hang on to the other end. list_append(sco_sockets, sco_socket); socket_register(socket, thread_get_reactor(thread), sco_socket, socket_read_ready_cb, NULL); return sco_socket; error:; if (pair[0] != INVALID_FD) close(pair[0]); if (pair[1] != INVALID_FD) close(pair[1]); sco_socket_free_locked(sco_socket); return NULL; } static sco_socket_t *sco_socket_new(void) { sco_socket_t *sco_socket = (sco_socket_t *)osi_calloc(sizeof(sco_socket_t)); if (sco_socket) sco_socket->sco_handle = BTM_INVALID_SCO_INDEX; return sco_socket; } // Must be called with |lock| held except during teardown when we know the socket thread // is no longer alive. static void sco_socket_free_locked(sco_socket_t *sco_socket) { if (!sco_socket) return; if (sco_socket->sco_handle != BTM_INVALID_SCO_INDEX) BTM_RemoveSco(sco_socket->sco_handle); socket_free(sco_socket->socket); osi_free(sco_socket); } // Must be called with |lock| held. static sco_socket_t *sco_socket_find_locked(uint16_t sco_handle) { for (const list_node_t *node = list_begin(sco_sockets); node != list_end(sco_sockets); node = list_next(node)) { sco_socket_t *sco_socket = (sco_socket_t *)list_node(node); if (sco_socket->sco_handle == sco_handle) return sco_socket; } return NULL; } static void connection_request_cb(tBTM_ESCO_EVT event, tBTM_ESCO_EVT_DATA *data) { assert(data != NULL); // Don't care about change of link parameters, only connection requests. if (event != BTM_ESCO_CONN_REQ_EVT) return; pthread_mutex_lock(&lock); const tBTM_ESCO_CONN_REQ_EVT_DATA *conn_data = &data->conn_evt; sco_socket_t *sco_socket = sco_socket_find_locked(conn_data->sco_inx); int client_fd = INVALID_FD; if (!sco_socket) { LOG_ERROR("%s unable to find sco_socket for handle: %hu", __func__, conn_data->sco_inx); goto error; } if (sco_socket != listen_sco_socket) { LOG_ERROR("%s received connection request on non-listening socket handle: %hu", __func__, conn_data->sco_inx); goto error; } sco_socket_t *new_sco_socket = sco_socket_establish_locked(true, NULL, &client_fd); if (!new_sco_socket) { LOG_ERROR("%s unable to allocate new sco_socket.", __func__); goto error; } // Swap socket->sco_handle and new_socket->sco_handle uint16_t temp = sco_socket->sco_handle; sco_socket->sco_handle = new_sco_socket->sco_handle; new_sco_socket->sco_handle = temp; sock_connect_signal_t connect_signal; connect_signal.size = sizeof(connect_signal); memcpy(&connect_signal.bd_addr, conn_data->bd_addr, sizeof(bt_bdaddr_t)); connect_signal.channel = 0; connect_signal.status = 0; if (socket_write_and_transfer_fd(sco_socket->socket, &connect_signal, sizeof(connect_signal), client_fd) != sizeof(connect_signal)) { LOG_ERROR("%s unable to send new file descriptor to listening socket.", __func__); goto error; } BTM_RegForEScoEvts(listen_sco_socket->sco_handle, connection_request_cb); BTM_EScoConnRsp(conn_data->sco_inx, HCI_SUCCESS, NULL); pthread_mutex_unlock(&lock); return; error:; pthread_mutex_unlock(&lock); if (client_fd != INVALID_FD) close(client_fd); BTM_EScoConnRsp(conn_data->sco_inx, HCI_ERR_HOST_REJECT_RESOURCES, NULL); } static void connect_completed_cb(uint16_t sco_handle) { pthread_mutex_lock(&lock); sco_socket_t *sco_socket = sco_socket_find_locked(sco_handle); if (!sco_socket) { LOG_ERROR("%s SCO socket not found on connect for handle: %hu", __func__, sco_handle); goto out; } // If sco_socket->socket was closed, we should tear down because there is no app-level // interest in the SCO socket. if (!sco_socket->socket) { BTM_RemoveSco(sco_socket->sco_handle); list_remove(sco_sockets, sco_socket); goto out; } sco_socket->connect_completed = true; out:; pthread_mutex_unlock(&lock); } static void disconnect_completed_cb(uint16_t sco_handle) { pthread_mutex_lock(&lock); sco_socket_t *sco_socket = sco_socket_find_locked(sco_handle); if (!sco_socket) { LOG_ERROR("%s SCO socket not found on disconnect for handle: %hu", __func__, sco_handle); goto out; } list_remove(sco_sockets, sco_socket); out:; pthread_mutex_unlock(&lock); } static void socket_read_ready_cb(UNUSED_ATTR socket_t *socket, void *context) { pthread_mutex_lock(&lock); sco_socket_t *sco_socket = (sco_socket_t *)context; socket_free(sco_socket->socket); sco_socket->socket = NULL; // Defer the underlying disconnect until the connection completes // since the BTM code doesn't behave correctly when a disconnect // request is issued while a connect is in progress. The fact that // sco_socket->socket == NULL indicates to the connect callback // routine that the socket is no longer desired and should be torn // down. if (sco_socket->connect_completed || sco_socket == listen_sco_socket) { if (BTM_RemoveSco(sco_socket->sco_handle) == BTM_SUCCESS) list_remove(sco_sockets, sco_socket); if (sco_socket == listen_sco_socket) listen_sco_socket = NULL; } pthread_mutex_unlock(&lock); }