/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2006-2007 Nokia Corporation * Copyright (C) 2004-2009 Marcel Holtmann * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include "logging.h" #include "../src/adapter.h" #include "../src/device.h" #include "device.h" #include "manager.h" #include "control.h" #include "avdtp.h" #include "glib-helper.h" #include "btio.h" #include "sink.h" #include "source.h" #include #define AVDTP_PSM 25 #define MAX_SEID 0x3E #define AVDTP_DISCOVER 0x01 #define AVDTP_GET_CAPABILITIES 0x02 #define AVDTP_SET_CONFIGURATION 0x03 #define AVDTP_GET_CONFIGURATION 0x04 #define AVDTP_RECONFIGURE 0x05 #define AVDTP_OPEN 0x06 #define AVDTP_START 0x07 #define AVDTP_CLOSE 0x08 #define AVDTP_SUSPEND 0x09 #define AVDTP_ABORT 0x0A #define AVDTP_SECURITY_CONTROL 0x0B #define AVDTP_PKT_TYPE_SINGLE 0x00 #define AVDTP_PKT_TYPE_START 0x01 #define AVDTP_PKT_TYPE_CONTINUE 0x02 #define AVDTP_PKT_TYPE_END 0x03 #define AVDTP_MSG_TYPE_COMMAND 0x00 #define AVDTP_MSG_TYPE_GEN_REJECT 0x01 #define AVDTP_MSG_TYPE_ACCEPT 0x02 #define AVDTP_MSG_TYPE_REJECT 0x03 #define REQ_TIMEOUT 4 #define DISCONNECT_TIMEOUT 1 #define STREAM_TIMEOUT 20 #if __BYTE_ORDER == __LITTLE_ENDIAN struct avdtp_common_header { uint8_t message_type:2; uint8_t packet_type:2; uint8_t transaction:4; } __attribute__ ((packed)); struct avdtp_single_header { uint8_t message_type:2; uint8_t packet_type:2; uint8_t transaction:4; uint8_t signal_id:6; uint8_t rfa0:2; } __attribute__ ((packed)); struct avdtp_start_header { uint8_t message_type:2; uint8_t packet_type:2; uint8_t transaction:4; uint8_t no_of_packets; uint8_t signal_id:6; uint8_t rfa0:2; } __attribute__ ((packed)); struct avdtp_continue_header { uint8_t message_type:2; uint8_t packet_type:2; uint8_t transaction:4; } __attribute__ ((packed)); struct seid_info { uint8_t rfa0:1; uint8_t inuse:1; uint8_t seid:6; uint8_t rfa2:3; uint8_t type:1; uint8_t media_type:4; } __attribute__ ((packed)); struct seid { uint8_t rfa0:2; uint8_t seid:6; } __attribute__ ((packed)); #elif __BYTE_ORDER == __BIG_ENDIAN struct avdtp_common_header { uint8_t transaction:4; uint8_t packet_type:2; uint8_t message_type:2; } __attribute__ ((packed)); struct avdtp_single_header { uint8_t transaction:4; uint8_t packet_type:2; uint8_t message_type:2; uint8_t rfa0:2; uint8_t signal_id:6; } __attribute__ ((packed)); struct avdtp_start_header { uint8_t transaction:4; uint8_t packet_type:2; uint8_t message_type:2; uint8_t no_of_packets; uint8_t rfa0:2; uint8_t signal_id:6; } __attribute__ ((packed)); struct avdtp_continue_header { uint8_t transaction:4; uint8_t packet_type:2; uint8_t message_type:2; } __attribute__ ((packed)); struct seid_info { uint8_t seid:6; uint8_t inuse:1; uint8_t rfa0:1; uint8_t media_type:4; uint8_t type:1; uint8_t rfa2:3; } __attribute__ ((packed)); struct seid { uint8_t seid:6; uint8_t rfa0:2; } __attribute__ ((packed)); #else #error "Unknown byte order" #endif /* packets */ struct discover_resp { struct seid_info seps[0]; } __attribute__ ((packed)); struct getcap_resp { uint8_t caps[0]; } __attribute__ ((packed)); struct start_req { struct seid first_seid; struct seid other_seids[0]; } __attribute__ ((packed)); struct suspend_req { struct seid first_seid; struct seid other_seids[0]; } __attribute__ ((packed)); struct seid_rej { uint8_t error; } __attribute__ ((packed)); struct conf_rej { uint8_t category; uint8_t error; } __attribute__ ((packed)); #if __BYTE_ORDER == __LITTLE_ENDIAN struct seid_req { uint8_t rfa0:2; uint8_t acp_seid:6; } __attribute__ ((packed)); struct setconf_req { uint8_t rfa0:2; uint8_t acp_seid:6; uint8_t rfa1:2; uint8_t int_seid:6; uint8_t caps[0]; } __attribute__ ((packed)); struct stream_rej { uint8_t rfa0:2; uint8_t acp_seid:6; uint8_t error; } __attribute__ ((packed)); struct reconf_req { uint8_t rfa0:2; uint8_t acp_seid:6; uint8_t serv_cap; uint8_t serv_cap_len; uint8_t caps[0]; } __attribute__ ((packed)); #elif __BYTE_ORDER == __BIG_ENDIAN struct seid_req { uint8_t acp_seid:6; uint8_t rfa0:2; } __attribute__ ((packed)); struct setconf_req { uint8_t acp_seid:6; uint8_t rfa0:2; uint8_t int_seid:6; uint8_t rfa1:2; uint8_t caps[0]; } __attribute__ ((packed)); struct stream_rej { uint8_t acp_seid:6; uint8_t rfa0:2; uint8_t error; } __attribute__ ((packed)); struct reconf_req { uint8_t acp_seid:6; uint8_t rfa0:2; uint8_t serv_cap; uint8_t serv_cap_len; uint8_t caps[0]; } __attribute__ ((packed)); #else #error "Unknown byte order" #endif struct in_buf { gboolean active; int no_of_packets; uint8_t transaction; uint8_t message_type; uint8_t signal_id; uint8_t buf[1024]; uint8_t data_size; }; struct pending_req { uint8_t transaction; uint8_t signal_id; void *data; size_t data_size; struct avdtp_stream *stream; /* Set if the request targeted a stream */ guint timeout; }; struct avdtp_remote_sep { uint8_t seid; uint8_t type; uint8_t media_type; struct avdtp_service_capability *codec; GSList *caps; /* of type struct avdtp_service_capability */ struct avdtp_stream *stream; }; struct avdtp_server { bdaddr_t src; GIOChannel *io; GSList *seps; GSList *sessions; }; struct avdtp_local_sep { avdtp_state_t state; struct avdtp_stream *stream; struct seid_info info; uint8_t codec; GSList *caps; struct avdtp_sep_ind *ind; struct avdtp_sep_cfm *cfm; void *user_data; struct avdtp_server *server; }; struct stream_callback { avdtp_stream_state_cb cb; void *user_data; unsigned int id; }; struct avdtp_state_callback { avdtp_session_state_cb cb; void *user_data; unsigned int id; }; struct avdtp_stream { GIOChannel *io; uint16_t imtu; uint16_t omtu; struct avdtp *session; struct avdtp_local_sep *lsep; uint8_t rseid; GSList *caps; GSList *callbacks; struct avdtp_service_capability *codec; guint io_id; /* Transport GSource ID */ guint timer; /* Waiting for other side to close or open * the transport channel */ gboolean open_acp; /* If we are in ACT role for Open */ gboolean close_int; /* If we are in INT role for Close */ gboolean abort_int; /* If we are in INT role for Abort */ guint idle_timer; }; /* Structure describing an AVDTP connection between two devices */ struct avdtp { int ref; int free_lock; struct avdtp_server *server; bdaddr_t dst; avdtp_session_state_t state; /* True if the session should be automatically disconnected */ gboolean auto_dc; GIOChannel *io; guint io_id; GSList *seps; /* Elements of type struct avdtp_remote_sep * */ GSList *streams; /* Elements of type struct avdtp_stream * */ GSList *req_queue; /* Elements of type struct pending_req * */ GSList *prio_queue; /* Same as req_queue but is processed before it */ struct avdtp_stream *pending_open; uint16_t imtu; uint16_t omtu; struct in_buf in; char *buf; avdtp_discover_cb_t discov_cb; void *user_data; struct pending_req *req; guint dc_timer; /* Attempt stream setup instead of disconnecting */ gboolean stream_setup; DBusPendingCall *pending_auth; }; static GSList *servers = NULL; static GSList *avdtp_callbacks = NULL; static gboolean auto_connect = TRUE; static int send_request(struct avdtp *session, gboolean priority, struct avdtp_stream *stream, uint8_t signal_id, void *buffer, size_t size); static gboolean avdtp_parse_resp(struct avdtp *session, struct avdtp_stream *stream, uint8_t transaction, uint8_t signal_id, void *buf, int size); static gboolean avdtp_parse_rej(struct avdtp *session, struct avdtp_stream *stream, uint8_t transaction, uint8_t signal_id, void *buf, int size); static int process_queue(struct avdtp *session); static void connection_lost(struct avdtp *session, int err); static void avdtp_sep_set_state(struct avdtp *session, struct avdtp_local_sep *sep, avdtp_state_t state); static struct avdtp_server *find_server(GSList *list, const bdaddr_t *src) { GSList *l; for (l = list; l; l = l->next) { struct avdtp_server *server = l->data; if (bacmp(&server->src, src) == 0) return server; } return NULL; } static const char *avdtp_statestr(avdtp_state_t state) { switch (state) { case AVDTP_STATE_IDLE: return "IDLE"; case AVDTP_STATE_CONFIGURED: return "CONFIGURED"; case AVDTP_STATE_OPEN: return "OPEN"; case AVDTP_STATE_STREAMING: return "STREAMING"; case AVDTP_STATE_CLOSING: return "CLOSING"; case AVDTP_STATE_ABORTING: return "ABORTING"; default: return ""; } } static gboolean try_send(int sk, void *data, size_t len) { int err; do { err = send(sk, data, len, 0); } while (err < 0 && errno == EINTR); if (err < 0) { error("send: %s (%d)", strerror(errno), errno); return FALSE; } else if ((size_t) err != len) { error("try_send: complete buffer not sent (%d/%zu bytes)", err, len); return FALSE; } return TRUE; } static gboolean avdtp_send(struct avdtp *session, uint8_t transaction, uint8_t message_type, uint8_t signal_id, void *data, size_t len) { unsigned int cont_fragments, sent; struct avdtp_start_header start; struct avdtp_continue_header cont; int sock; if (session->io == NULL) { error("avdtp_send: session is closed"); return FALSE; } sock = g_io_channel_unix_get_fd(session->io); /* Single packet - no fragmentation */ if (sizeof(struct avdtp_single_header) + len <= session->omtu) { struct avdtp_single_header single; memset(&single, 0, sizeof(single)); single.transaction = transaction; single.packet_type = AVDTP_PKT_TYPE_SINGLE; single.message_type = message_type; single.signal_id = signal_id; memcpy(session->buf, &single, sizeof(single)); memcpy(session->buf + sizeof(single), data, len); return try_send(sock, session->buf, sizeof(single) + len); } /* Count the number of needed fragments */ cont_fragments = (len - (session->omtu - sizeof(start))) / (session->omtu - sizeof(cont)) + 1; debug("avdtp_send: %zu bytes split into %d fragments", len, cont_fragments + 1); /* Send the start packet */ memset(&start, 0, sizeof(start)); start.transaction = transaction; start.packet_type = AVDTP_PKT_TYPE_START; start.message_type = message_type; start.no_of_packets = cont_fragments + 1; start.signal_id = signal_id; memcpy(session->buf, &start, sizeof(start)); memcpy(session->buf + sizeof(start), data, session->omtu - sizeof(start)); if (!try_send(sock, session->buf, session->omtu)) return FALSE; debug("avdtp_send: first packet with %zu bytes sent", session->omtu - sizeof(start)); sent = session->omtu - sizeof(start); /* Send the continue fragments and the end packet */ while (sent < len) { int left, to_copy; left = len - sent; if (left + sizeof(cont) > session->omtu) { cont.packet_type = AVDTP_PKT_TYPE_CONTINUE; to_copy = session->omtu - sizeof(cont); debug("avdtp_send: sending continue with %d bytes", to_copy); } else { cont.packet_type = AVDTP_PKT_TYPE_END; to_copy = left; debug("avdtp_send: sending end with %d bytes", to_copy); } cont.transaction = transaction; cont.message_type = message_type; memcpy(session->buf, &cont, sizeof(cont)); memcpy(session->buf + sizeof(cont), data + sent, to_copy); if (!try_send(sock, session->buf, to_copy + sizeof(cont))) return FALSE; sent += to_copy; } return TRUE; } static void pending_req_free(struct pending_req *req) { if (req->timeout) g_source_remove(req->timeout); g_free(req->data); g_free(req); } static void close_stream(struct avdtp_stream *stream) { int sock; if (stream->io == NULL) return; sock = g_io_channel_unix_get_fd(stream->io); shutdown(sock, SHUT_RDWR); g_io_channel_shutdown(stream->io, FALSE, NULL); g_io_channel_unref(stream->io); stream->io = NULL; } static gboolean stream_close_timeout(gpointer user_data) { struct avdtp_stream *stream = user_data; debug("Timed out waiting for peer to close the transport channel"); stream->timer = 0; close_stream(stream); return FALSE; } static gboolean stream_open_timeout(gpointer user_data) { struct avdtp_stream *stream = user_data; debug("Timed out waiting for peer to open the transport channel"); stream->timer = 0; stream->session->pending_open = NULL; avdtp_abort(stream->session, stream); return FALSE; } static gboolean disconnect_timeout(gpointer user_data) { struct avdtp *session = user_data; struct audio_device *dev; gboolean stream_setup; session->dc_timer = 0; stream_setup = session->stream_setup; session->stream_setup = FALSE; dev = manager_get_device(&session->server->src, &session->dst, FALSE); if (dev && dev->sink && stream_setup) sink_setup_stream(dev->sink, session); else if (dev && dev->source && stream_setup) source_setup_stream(dev->source, session); else connection_lost(session, ETIMEDOUT); return FALSE; } static void remove_disconnect_timer(struct avdtp *session) { g_source_remove(session->dc_timer); session->dc_timer = 0; session->stream_setup = FALSE; } static void set_disconnect_timer(struct avdtp *session) { if (session->dc_timer) remove_disconnect_timer(session); session->dc_timer = g_timeout_add_seconds(DISCONNECT_TIMEOUT, disconnect_timeout, session); } void avdtp_error_init(struct avdtp_error *err, uint8_t type, int id) { err->type = type; switch (type) { case AVDTP_ERROR_ERRNO: err->err.posix_errno = id; break; case AVDTP_ERROR_ERROR_CODE: err->err.error_code = id; break; } } avdtp_error_type_t avdtp_error_type(struct avdtp_error *err) { return err->type; } int avdtp_error_error_code(struct avdtp_error *err) { assert(err->type == AVDTP_ERROR_ERROR_CODE); return err->err.error_code; } int avdtp_error_posix_errno(struct avdtp_error *err) { assert(err->type == AVDTP_ERROR_ERRNO); return err->err.posix_errno; } static struct avdtp_stream *find_stream_by_rseid(struct avdtp *session, uint8_t rseid) { GSList *l; for (l = session->streams; l != NULL; l = g_slist_next(l)) { struct avdtp_stream *stream = l->data; if (stream->rseid == rseid) return stream; } return NULL; } static struct avdtp_remote_sep *find_remote_sep(GSList *seps, uint8_t seid) { GSList *l; for (l = seps; l != NULL; l = g_slist_next(l)) { struct avdtp_remote_sep *sep = l->data; if (sep->seid == seid) return sep; } return NULL; } static void avdtp_set_state(struct avdtp *session, avdtp_session_state_t new_state) { GSList *l; struct audio_device *dev; bdaddr_t src, dst; avdtp_session_state_t old_state = session->state; session->state = new_state; avdtp_get_peers(session, &src, &dst); dev = manager_get_device(&src, &dst, FALSE); if (dev == NULL) { error("avdtp_set_state(): no matching audio device"); return; } for (l = avdtp_callbacks; l != NULL; l = l->next) { struct avdtp_state_callback *cb = l->data; cb->cb(dev, session, old_state, new_state, cb->user_data); } } static void stream_free(struct avdtp_stream *stream) { struct avdtp_remote_sep *rsep; stream->lsep->info.inuse = 0; stream->lsep->stream = NULL; rsep = find_remote_sep(stream->session->seps, stream->rseid); if (rsep) rsep->stream = NULL; if (stream->timer) g_source_remove(stream->timer); if (stream->io) g_io_channel_unref(stream->io); if (stream->io_id) g_source_remove(stream->io_id); g_slist_foreach(stream->callbacks, (GFunc) g_free, NULL); g_slist_free(stream->callbacks); g_slist_foreach(stream->caps, (GFunc) g_free, NULL); g_slist_free(stream->caps); g_free(stream); } static gboolean stream_timeout(gpointer user_data) { struct avdtp_stream *stream = user_data; struct avdtp *session = stream->session; avdtp_close(session, stream); stream->idle_timer = 0; return FALSE; } static gboolean transport_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { struct avdtp_stream *stream = data; struct avdtp_local_sep *sep = stream->lsep; if (stream->close_int && sep->cfm && sep->cfm->close) sep->cfm->close(stream->session, sep, stream, NULL, sep->user_data); if (!(cond & G_IO_NVAL)) close_stream(stream); stream->io_id = 0; if (!stream->abort_int) avdtp_sep_set_state(stream->session, sep, AVDTP_STATE_IDLE); return FALSE; } static void handle_transport_connect(struct avdtp *session, GIOChannel *io, uint16_t imtu, uint16_t omtu) { struct avdtp_stream *stream = session->pending_open; struct avdtp_local_sep *sep = stream->lsep; session->pending_open = NULL; if (stream->timer) { g_source_remove(stream->timer); stream->timer = 0; } if (io == NULL) { if (!stream->open_acp && sep->cfm && sep->cfm->open) { struct avdtp_error err; avdtp_error_init(&err, AVDTP_ERROR_ERRNO, EIO); sep->cfm->open(session, sep, NULL, &err, sep->user_data); } return; } stream->io = g_io_channel_ref(io); stream->omtu = omtu; stream->imtu = imtu; if (!stream->open_acp && sep->cfm && sep->cfm->open) sep->cfm->open(session, sep, stream, NULL, sep->user_data); avdtp_sep_set_state(session, sep, AVDTP_STATE_OPEN); stream->io_id = g_io_add_watch(io, G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) transport_cb, stream); } static int pending_req_cmp(gconstpointer a, gconstpointer b) { const struct pending_req *req = a; const struct avdtp_stream *stream = b; if (req->stream == stream) return 0; return -1; } static void cleanup_queue(struct avdtp *session, struct avdtp_stream *stream) { GSList *l; struct pending_req *req; while ((l = g_slist_find_custom(session->prio_queue, stream, pending_req_cmp))) { req = l->data; pending_req_free(req); session->prio_queue = g_slist_remove(session->prio_queue, req); } while ((l = g_slist_find_custom(session->req_queue, stream, pending_req_cmp))) { req = l->data; pending_req_free(req); session->req_queue = g_slist_remove(session->req_queue, req); } } static void avdtp_sep_set_state(struct avdtp *session, struct avdtp_local_sep *sep, avdtp_state_t state) { struct avdtp_stream *stream = sep->stream; avdtp_state_t old_state; struct avdtp_error err, *err_ptr = NULL; GSList *l; if (!stream) { error("Error changing sep state: stream not available"); return; } if (sep->state == state) { avdtp_error_init(&err, AVDTP_ERROR_ERRNO, EIO); debug("stream state change failed: %s", avdtp_strerror(&err)); err_ptr = &err; } else { err_ptr = NULL; debug("stream state changed: %s -> %s", avdtp_statestr(sep->state), avdtp_statestr(state)); } old_state = sep->state; sep->state = state; for (l = stream->callbacks; l != NULL; l = g_slist_next(l)) { struct stream_callback *cb = l->data; cb->cb(stream, old_state, state, err_ptr, cb->user_data); } switch (state) { case AVDTP_STATE_OPEN: if (old_state > AVDTP_STATE_OPEN && session->auto_dc) stream->idle_timer = g_timeout_add_seconds(STREAM_TIMEOUT, stream_timeout, stream); break; case AVDTP_STATE_STREAMING: case AVDTP_STATE_CLOSING: case AVDTP_STATE_ABORTING: if (stream->idle_timer) { g_source_remove(stream->idle_timer); stream->idle_timer = 0; } break; case AVDTP_STATE_IDLE: if (stream->idle_timer) { g_source_remove(stream->idle_timer); stream->idle_timer = 0; } session->streams = g_slist_remove(session->streams, stream); if (session->pending_open == stream) handle_transport_connect(session, NULL, 0, 0); if (session->req && session->req->stream == stream) session->req->stream = NULL; /* Remove pending commands for this stream from the queue */ cleanup_queue(session, stream); stream_free(stream); if (session->ref == 1 && !session->streams) set_disconnect_timer(session); break; default: break; } } static void finalize_discovery(struct avdtp *session, int err) { struct avdtp_error avdtp_err; avdtp_error_init(&avdtp_err, AVDTP_ERROR_ERRNO, err); if (!session->discov_cb) return; session->discov_cb(session, session->seps, err ? &avdtp_err : NULL, session->user_data); session->discov_cb = NULL; session->user_data = NULL; } static void release_stream(struct avdtp_stream *stream, struct avdtp *session) { struct avdtp_local_sep *sep = stream->lsep; if (sep->cfm && sep->cfm->abort && (sep->state != AVDTP_STATE_ABORTING || stream->abort_int)) sep->cfm->abort(session, sep, stream, NULL, sep->user_data); avdtp_sep_set_state(session, sep, AVDTP_STATE_IDLE); } static void connection_lost(struct avdtp *session, int err) { char address[18]; ba2str(&session->dst, address); debug("Disconnected from %s", address); if (session->state == AVDTP_SESSION_STATE_CONNECTING && err != EACCES) btd_cancel_authorization(&session->server->src, &session->dst); session->free_lock = 1; finalize_discovery(session, err); g_slist_foreach(session->streams, (GFunc) release_stream, session); session->streams = NULL; session->free_lock = 0; if (session->io) { g_io_channel_shutdown(session->io, FALSE, NULL); g_io_channel_unref(session->io); session->io = NULL; } avdtp_set_state(session, AVDTP_SESSION_STATE_DISCONNECTED); if (session->io_id) { g_source_remove(session->io_id); session->io_id = 0; } if (session->dc_timer) remove_disconnect_timer(session); session->auto_dc = TRUE; if (session->ref != 1) error("connection_lost: ref count not 1 after all callbacks"); else avdtp_unref(session); } void avdtp_unref(struct avdtp *session) { struct avdtp_server *server; if (!session) return; session->ref--; debug("avdtp_unref(%p): ref=%d", session, session->ref); if (session->ref == 1) { if (session->state == AVDTP_SESSION_STATE_CONNECTING && session->io) { btd_cancel_authorization(&session->server->src, &session->dst); g_io_channel_shutdown(session->io, TRUE, NULL); g_io_channel_unref(session->io); session->io = NULL; } if (session->io) set_disconnect_timer(session); else if (!session->free_lock) /* Drop the local ref if we aren't connected */ session->ref--; } if (session->ref > 0) return; server = session->server; debug("avdtp_unref(%p): freeing session and removing from list", session); if (session->dc_timer) remove_disconnect_timer(session); server->sessions = g_slist_remove(server->sessions, session); if (session->req) pending_req_free(session->req); g_slist_foreach(session->seps, (GFunc) g_free, NULL); g_slist_free(session->seps); g_free(session->buf); g_free(session); } struct avdtp *avdtp_ref(struct avdtp *session) { session->ref++; debug("avdtp_ref(%p): ref=%d", session, session->ref); if (session->dc_timer) remove_disconnect_timer(session); return session; } static struct avdtp_local_sep *find_local_sep_by_seid(struct avdtp_server *server, uint8_t seid) { GSList *l; for (l = server->seps; l != NULL; l = g_slist_next(l)) { struct avdtp_local_sep *sep = l->data; if (sep->info.seid == seid) return sep; } return NULL; } static struct avdtp_local_sep *find_local_sep(struct avdtp_server *server, uint8_t type, uint8_t media_type, uint8_t codec) { GSList *l; for (l = server->seps; l != NULL; l = g_slist_next(l)) { struct avdtp_local_sep *sep = l->data; if (sep->info.inuse) continue; if (sep->info.type == type && sep->info.media_type == media_type && sep->codec == codec) return sep; } return NULL; } static GSList *caps_to_list(uint8_t *data, int size, struct avdtp_service_capability **codec) { GSList *caps; int processed; for (processed = 0, caps = NULL; processed + 2 < size;) { struct avdtp_service_capability *cap; uint8_t length, category; category = data[0]; length = data[1]; if (processed + 2 + length > size) { error("Invalid capability data in getcap resp"); break; } cap = g_malloc(sizeof(struct avdtp_service_capability) + length); memcpy(cap, data, 2 + length); processed += 2 + length; data += 2 + length; caps = g_slist_append(caps, cap); if (category == AVDTP_MEDIA_CODEC && length >= sizeof(struct avdtp_media_codec_capability)) *codec = cap; } return caps; } static gboolean avdtp_unknown_cmd(struct avdtp *session, uint8_t transaction, uint8_t signal_id) { return avdtp_send(session, transaction, AVDTP_MSG_TYPE_GEN_REJECT, signal_id, NULL, 0); } static gboolean avdtp_discover_cmd(struct avdtp *session, uint8_t transaction, void *buf, int size) { GSList *l; unsigned int rsp_size, sep_count, i; struct seid_info *seps; gboolean ret; sep_count = g_slist_length(session->server->seps); if (sep_count == 0) { uint8_t err = AVDTP_NOT_SUPPORTED_COMMAND; return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_DISCOVER, &err, sizeof(err)); } rsp_size = sep_count * sizeof(struct seid_info); seps = g_new0(struct seid_info, sep_count); for (l = session->server->seps, i = 0; l != NULL; l = l->next, i++) { struct avdtp_local_sep *sep = l->data; memcpy(&seps[i], &sep->info, sizeof(struct seid_info)); } ret = avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_DISCOVER, seps, rsp_size); g_free(seps); return ret; } static gboolean avdtp_getcap_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, unsigned int size) { GSList *l, *caps; struct avdtp_local_sep *sep = NULL; unsigned int rsp_size; uint8_t err, buf[1024], *ptr = buf; if (size < sizeof(struct seid_req)) { err = AVDTP_BAD_LENGTH; goto failed; } sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (!sep->ind->get_capability(session, sep, &caps, &err, sep->user_data)) goto failed; for (l = caps, rsp_size = 0; l != NULL; l = g_slist_next(l)) { struct avdtp_service_capability *cap = l->data; if (rsp_size + cap->length + 2 > sizeof(buf)) break; memcpy(ptr, cap, cap->length + 2); rsp_size += cap->length + 2; ptr += cap->length + 2; g_free(cap); } g_slist_free(caps); return avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_GET_CAPABILITIES, buf, rsp_size); failed: return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_GET_CAPABILITIES, &err, sizeof(err)); } static gboolean avdtp_setconf_cmd(struct avdtp *session, uint8_t transaction, struct setconf_req *req, unsigned int size) { struct conf_rej rej; struct avdtp_local_sep *sep; struct avdtp_stream *stream; uint8_t err, category = 0x00; struct audio_device *dev; bdaddr_t src, dst; GSList *l; if (size < sizeof(struct setconf_req)) { error("Too short getcap request"); return FALSE; } sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (sep->stream) { err = AVDTP_SEP_IN_USE; goto failed; } avdtp_get_peers(session, &src, &dst); dev = manager_get_device(&src, &dst, FALSE); if (!dev) { error("Unable to get a audio device object"); goto failed; } switch (sep->info.type) { case AVDTP_SEP_TYPE_SOURCE: if (!dev->sink) { btd_device_add_uuid(dev->btd_dev, A2DP_SINK_UUID); if (!dev->sink) { error("Unable to get a audio sink object"); goto failed; } } break; case AVDTP_SEP_TYPE_SINK: /* Do source_init() here when it's implemented */ break; } stream = g_new0(struct avdtp_stream, 1); stream->session = session; stream->lsep = sep; stream->rseid = req->int_seid; stream->caps = caps_to_list(req->caps, size - sizeof(struct setconf_req), &stream->codec); /* Verify that the Media Transport capability's length = 0. Reject otherwise */ for (l = stream->caps; l != NULL; l = g_slist_next(l)) { struct avdtp_service_capability *cap = l->data; if (cap->category == AVDTP_MEDIA_TRANSPORT && cap->length != 0) { err = AVDTP_BAD_MEDIA_TRANSPORT_FORMAT; goto failed; } } if (sep->ind && sep->ind->set_configuration) { if (!sep->ind->set_configuration(session, sep, stream, stream->caps, &err, &category, sep->user_data)) { stream_free(stream); goto failed; } } if (!avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_SET_CONFIGURATION, NULL, 0)) { stream_free(stream); return FALSE; } sep->stream = stream; session->streams = g_slist_append(session->streams, stream); avdtp_sep_set_state(session, sep, AVDTP_STATE_CONFIGURED); return TRUE; failed: rej.error = err; rej.category = category; return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_SET_CONFIGURATION, &rej, sizeof(rej)); } static gboolean avdtp_getconf_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, int size) { GSList *l; struct avdtp_local_sep *sep = NULL; int rsp_size; uint8_t err; uint8_t buf[1024]; uint8_t *ptr = buf; if (size < (int) sizeof(struct seid_req)) { error("Too short getconf request"); return FALSE; } memset(buf, 0, sizeof(buf)); sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (!sep->stream || !sep->stream->caps) { err = AVDTP_UNSUPPORTED_CONFIGURATION; goto failed; } for (l = sep->stream->caps, rsp_size = 0; l != NULL; l = g_slist_next(l)) { struct avdtp_service_capability *cap = l->data; if (rsp_size + cap->length + 2 > (int) sizeof(buf)) break; memcpy(ptr, cap, cap->length + 2); rsp_size += cap->length + 2; ptr += cap->length + 2; } return avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_GET_CONFIGURATION, buf, rsp_size); failed: return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_GET_CONFIGURATION, &err, sizeof(err)); } static gboolean avdtp_reconf_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, int size) { return avdtp_unknown_cmd(session, transaction, AVDTP_RECONFIGURE); } static gboolean avdtp_open_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, unsigned int size) { struct avdtp_local_sep *sep; struct avdtp_stream *stream; uint8_t err; if (size < sizeof(struct seid_req)) { error("Too short abort request"); return FALSE; } sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (sep->state != AVDTP_STATE_CONFIGURED) { err = AVDTP_BAD_STATE; goto failed; } stream = sep->stream; if (sep->ind && sep->ind->open) { if (!sep->ind->open(session, sep, stream, &err, sep->user_data)) goto failed; } if (!avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_OPEN, NULL, 0)) return FALSE; stream->open_acp = TRUE; session->pending_open = stream; stream->timer = g_timeout_add_seconds(REQ_TIMEOUT, stream_open_timeout, stream); return TRUE; failed: return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_OPEN, &err, sizeof(err)); } static gboolean avdtp_start_cmd(struct avdtp *session, uint8_t transaction, struct start_req *req, unsigned int size) { struct avdtp_local_sep *sep; struct avdtp_stream *stream; struct stream_rej rej; struct seid *seid; uint8_t err, failed_seid; int seid_count, i; if (size < sizeof(struct start_req)) { error("Too short start request"); return FALSE; } seid_count = 1 + size - sizeof(struct start_req); seid = &req->first_seid; for (i = 0; i < seid_count; i++, seid++) { failed_seid = seid->seid; sep = find_local_sep_by_seid(session->server, req->first_seid.seid); if (!sep || !sep->stream) { err = AVDTP_BAD_ACP_SEID; goto failed; } stream = sep->stream; if (sep->state != AVDTP_STATE_OPEN) { err = AVDTP_BAD_STATE; goto failed; } if (sep->ind && sep->ind->start) { if (!sep->ind->start(session, sep, stream, &err, sep->user_data)) goto failed; } avdtp_sep_set_state(session, sep, AVDTP_STATE_STREAMING); } return avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_START, NULL, 0); failed: memset(&rej, 0, sizeof(rej)); rej.acp_seid = failed_seid; rej.error = err; return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_START, &rej, sizeof(rej)); } static gboolean avdtp_close_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, unsigned int size) { struct avdtp_local_sep *sep; struct avdtp_stream *stream; uint8_t err; if (size < sizeof(struct seid_req)) { error("Too short close request"); return FALSE; } sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep || !sep->stream) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (sep->state != AVDTP_STATE_OPEN && sep->state != AVDTP_STATE_STREAMING) { err = AVDTP_BAD_STATE; goto failed; } stream = sep->stream; if (sep->ind && sep->ind->close) { if (!sep->ind->close(session, sep, stream, &err, sep->user_data)) goto failed; } avdtp_sep_set_state(session, sep, AVDTP_STATE_CLOSING); if (!avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_CLOSE, NULL, 0)) return FALSE; stream->timer = g_timeout_add_seconds(REQ_TIMEOUT, stream_close_timeout, stream); return TRUE; failed: return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_CLOSE, &err, sizeof(err)); } static gboolean avdtp_suspend_cmd(struct avdtp *session, uint8_t transaction, struct suspend_req *req, unsigned int size) { struct avdtp_local_sep *sep; struct avdtp_stream *stream; struct stream_rej rej; struct seid *seid; uint8_t err, failed_seid; int seid_count, i; if (size < sizeof(struct suspend_req)) { error("Too short suspend request"); return FALSE; } seid_count = 1 + size - sizeof(struct suspend_req); seid = &req->first_seid; for (i = 0; i < seid_count; i++, seid++) { failed_seid = seid->seid; sep = find_local_sep_by_seid(session->server, req->first_seid.seid); if (!sep || !sep->stream) { err = AVDTP_BAD_ACP_SEID; goto failed; } stream = sep->stream; if (sep->state != AVDTP_STATE_STREAMING) { err = AVDTP_BAD_STATE; goto failed; } if (sep->ind && sep->ind->suspend) { if (!sep->ind->suspend(session, sep, stream, &err, sep->user_data)) goto failed; } avdtp_sep_set_state(session, sep, AVDTP_STATE_OPEN); } return avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_SUSPEND, NULL, 0); failed: memset(&rej, 0, sizeof(rej)); rej.acp_seid = failed_seid; rej.error = err; return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_SUSPEND, &rej, sizeof(rej)); } static gboolean avdtp_abort_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, unsigned int size) { struct avdtp_local_sep *sep; uint8_t err; gboolean ret; if (size < sizeof(struct seid_req)) { error("Too short abort request"); return FALSE; } sep = find_local_sep_by_seid(session->server, req->acp_seid); if (!sep || !sep->stream) { err = AVDTP_BAD_ACP_SEID; goto failed; } if (sep->ind && sep->ind->abort) { if (!sep->ind->abort(session, sep, sep->stream, &err, sep->user_data)) goto failed; } ret = avdtp_send(session, transaction, AVDTP_MSG_TYPE_ACCEPT, AVDTP_ABORT, NULL, 0); if (ret) avdtp_sep_set_state(session, sep, AVDTP_STATE_ABORTING); return ret; failed: return avdtp_send(session, transaction, AVDTP_MSG_TYPE_REJECT, AVDTP_ABORT, &err, sizeof(err)); } static gboolean avdtp_secctl_cmd(struct avdtp *session, uint8_t transaction, struct seid_req *req, int size) { return avdtp_unknown_cmd(session, transaction, AVDTP_SECURITY_CONTROL); } static gboolean avdtp_parse_cmd(struct avdtp *session, uint8_t transaction, uint8_t signal_id, void *buf, int size) { switch (signal_id) { case AVDTP_DISCOVER: debug("Received DISCOVER_CMD"); return avdtp_discover_cmd(session, transaction, buf, size); case AVDTP_GET_CAPABILITIES: debug("Received GET_CAPABILITIES_CMD"); return avdtp_getcap_cmd(session, transaction, buf, size); case AVDTP_SET_CONFIGURATION: debug("Received SET_CONFIGURATION_CMD"); return avdtp_setconf_cmd(session, transaction, buf, size); case AVDTP_GET_CONFIGURATION: debug("Received GET_CONFIGURATION_CMD"); return avdtp_getconf_cmd(session, transaction, buf, size); case AVDTP_RECONFIGURE: debug("Received RECONFIGURE_CMD"); return avdtp_reconf_cmd(session, transaction, buf, size); case AVDTP_OPEN: debug("Received OPEN_CMD"); return avdtp_open_cmd(session, transaction, buf, size); case AVDTP_START: debug("Received START_CMD"); return avdtp_start_cmd(session, transaction, buf, size); case AVDTP_CLOSE: debug("Received CLOSE_CMD"); return avdtp_close_cmd(session, transaction, buf, size); case AVDTP_SUSPEND: debug("Received SUSPEND_CMD"); return avdtp_suspend_cmd(session, transaction, buf, size); case AVDTP_ABORT: debug("Received ABORT_CMD"); return avdtp_abort_cmd(session, transaction, buf, size); case AVDTP_SECURITY_CONTROL: debug("Received SECURITY_CONTROL_CMD"); return avdtp_secctl_cmd(session, transaction, buf, size); default: debug("Received unknown request id %u", signal_id); return avdtp_unknown_cmd(session, transaction, signal_id); } } enum avdtp_parse_result { PARSE_ERROR, PARSE_FRAGMENT, PARSE_SUCCESS }; static enum avdtp_parse_result avdtp_parse_data(struct avdtp *session, void *buf, size_t size) { struct avdtp_common_header *header = buf; struct avdtp_single_header *single = (void *) session->buf; struct avdtp_start_header *start = (void *) session->buf; void *payload; gsize payload_size; switch (header->packet_type) { case AVDTP_PKT_TYPE_SINGLE: if (size < sizeof(*single)) { error("Received too small single packet (%zu bytes)", size); return PARSE_ERROR; } if (session->in.active) { error("SINGLE: Invalid AVDTP packet fragmentation"); return PARSE_ERROR; } payload = session->buf + sizeof(*single); payload_size = size - sizeof(*single); session->in.active = TRUE; session->in.data_size = 0; session->in.no_of_packets = 1; session->in.transaction = header->transaction; session->in.message_type = header->message_type; session->in.signal_id = single->signal_id; break; case AVDTP_PKT_TYPE_START: if (size < sizeof(*start)) { error("Received too small start packet (%zu bytes)", size); return PARSE_ERROR; } if (session->in.active) { error("START: Invalid AVDTP packet fragmentation"); return PARSE_ERROR; } session->in.active = TRUE; session->in.data_size = 0; session->in.transaction = header->transaction; session->in.message_type = header->message_type; session->in.no_of_packets = start->no_of_packets; session->in.signal_id = start->signal_id; payload = session->buf + sizeof(*start); payload_size = size - sizeof(*start); break; case AVDTP_PKT_TYPE_CONTINUE: if (size < sizeof(struct avdtp_continue_header)) { error("Received too small continue packet (%zu bytes)", size); return PARSE_ERROR; } if (!session->in.active) { error("CONTINUE: Invalid AVDTP packet fragmentation"); return PARSE_ERROR; } if (session->in.transaction != header->transaction) { error("Continue transaction id doesn't match"); return PARSE_ERROR; } if (session->in.no_of_packets <= 1) { error("Too few continue packets"); return PARSE_ERROR; } payload = session->buf + sizeof(struct avdtp_continue_header); payload_size = size - sizeof(struct avdtp_continue_header); break; case AVDTP_PKT_TYPE_END: if (size < sizeof(struct avdtp_continue_header)) { error("Received too small end packet (%zu bytes)", size); return PARSE_ERROR; } if (!session->in.active) { error("END: Invalid AVDTP packet fragmentation"); return PARSE_ERROR; } if (session->in.transaction != header->transaction) { error("End transaction id doesn't match"); return PARSE_ERROR; } if (session->in.no_of_packets > 1) { error("Got an end packet too early"); return PARSE_ERROR; } payload = session->buf + sizeof(struct avdtp_continue_header); payload_size = size - sizeof(struct avdtp_continue_header); break; default: error("Invalid AVDTP packet type 0x%02X", header->packet_type); return PARSE_ERROR; } if (session->in.data_size + payload_size > sizeof(session->in.buf)) { error("Not enough incoming buffer space!"); return PARSE_ERROR; } memcpy(session->in.buf + session->in.data_size, payload, payload_size); session->in.data_size += payload_size; if (session->in.no_of_packets > 1) { session->in.no_of_packets--; debug("Received AVDTP fragment. %d to go", session->in.no_of_packets); return PARSE_FRAGMENT; } session->in.active = FALSE; return PARSE_SUCCESS; } static gboolean session_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { struct avdtp *session = data; struct avdtp_common_header *header; gsize size; debug("session_cb"); if (cond & G_IO_NVAL) return FALSE; header = (void *) session->buf; if (cond & (G_IO_HUP | G_IO_ERR)) goto failed; if (g_io_channel_read(chan, session->buf, session->imtu, &size) != G_IO_ERROR_NONE) { error("IO Channel read error"); goto failed; } if (size < sizeof(struct avdtp_common_header)) { error("Received too small packet (%zu bytes)", size); goto failed; } switch (avdtp_parse_data(session, session->buf, size)) { case PARSE_ERROR: goto failed; case PARSE_FRAGMENT: return TRUE; case PARSE_SUCCESS: break; } if (session->in.message_type == AVDTP_MSG_TYPE_COMMAND) { if (!avdtp_parse_cmd(session, session->in.transaction, session->in.signal_id, session->in.buf, session->in.data_size)) { error("Unable to handle command. Disconnecting"); goto failed; } if (session->ref == 1 && !session->streams && !session->req) set_disconnect_timer(session); if (session->streams && session->dc_timer) remove_disconnect_timer(session); return TRUE; } if (session->req == NULL) { error("No pending request, ignoring message"); return TRUE; } if (header->transaction != session->req->transaction) { error("Transaction label doesn't match"); return TRUE; } if (session->in.signal_id != session->req->signal_id) { error("Reponse signal doesn't match"); return TRUE; } g_source_remove(session->req->timeout); session->req->timeout = 0; switch (header->message_type) { case AVDTP_MSG_TYPE_ACCEPT: if (!avdtp_parse_resp(session, session->req->stream, session->in.transaction, session->in.signal_id, session->in.buf, session->in.data_size)) { error("Unable to parse accept response"); goto failed; } break; case AVDTP_MSG_TYPE_REJECT: if (!avdtp_parse_rej(session, session->req->stream, session->in.transaction, session->in.signal_id, session->in.buf, session->in.data_size)) { error("Unable to parse reject response"); goto failed; } break; case AVDTP_MSG_TYPE_GEN_REJECT: error("Received a General Reject message"); break; default: error("Unknown message type 0x%02X", header->message_type); break; } pending_req_free(session->req); session->req = NULL; process_queue(session); return TRUE; failed: connection_lost(session, EIO); return FALSE; } static struct avdtp *find_session(GSList *list, const bdaddr_t *dst) { GSList *l; for (l = list; l != NULL; l = g_slist_next(l)) { struct avdtp *s = l->data; if (bacmp(dst, &s->dst)) continue; return s; } return NULL; } static struct avdtp *avdtp_get_internal(const bdaddr_t *src, const bdaddr_t *dst) { struct avdtp_server *server; struct avdtp *session; assert(src != NULL); assert(dst != NULL); server = find_server(servers, src); if (server == NULL) return NULL; session = find_session(server->sessions, dst); if (session) { if (session->pending_auth) return NULL; else return session; } session = g_new0(struct avdtp, 1); session->server = server; bacpy(&session->dst, dst); session->ref = 1; /* We don't use avdtp_set_state() here since this isn't a state change * but just setting of the initial state */ session->state = AVDTP_SESSION_STATE_DISCONNECTED; session->auto_dc = TRUE; server->sessions = g_slist_append(server->sessions, session); return session; } struct avdtp *avdtp_get(bdaddr_t *src, bdaddr_t *dst) { struct avdtp *session; session = avdtp_get_internal(src, dst); if (!session) return NULL; return avdtp_ref(session); } static void avdtp_connect_cb(GIOChannel *chan, GError *err, gpointer user_data) { struct avdtp *session = user_data; char address[18]; GError *gerr = NULL; if (err) { error("%s", err->message); goto failed; } if (!session->io) session->io = g_io_channel_ref(chan); bt_io_get(chan, BT_IO_L2CAP, &gerr, BT_IO_OPT_OMTU, &session->omtu, BT_IO_OPT_IMTU, &session->imtu, BT_IO_OPT_INVALID); if (gerr) { error("%s", gerr->message); g_error_free(gerr); goto failed; } ba2str(&session->dst, address); debug("AVDTP: connected %s channel to %s", session->pending_open ? "transport" : "signaling", address); if (session->state == AVDTP_SESSION_STATE_CONNECTING) { debug("AVDTP imtu=%u, omtu=%u", session->imtu, session->omtu); session->buf = g_malloc0(session->imtu); avdtp_set_state(session, AVDTP_SESSION_STATE_CONNECTED); if (session->io_id) g_source_remove(session->io_id); /* This watch should be low priority since otherwise the * connect callback might be dispatched before the session * callback if the kernel wakes us up at the same time for * them. This could happen if a headset is very quick in * sending the Start command after connecting the stream * transport channel. */ session->io_id = g_io_add_watch_full(chan, G_PRIORITY_LOW, G_IO_IN | G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) session_cb, session, NULL); if (session->stream_setup) { set_disconnect_timer(session); avdtp_set_auto_disconnect(session, FALSE); } } else if (session->pending_open) handle_transport_connect(session, chan, session->imtu, session->omtu); else goto failed; process_queue(session); return; failed: if (session->pending_open) { struct avdtp_stream *stream = session->pending_open; handle_transport_connect(session, NULL, 0, 0); if (avdtp_abort(session, stream) < 0) avdtp_sep_set_state(session, stream->lsep, AVDTP_STATE_IDLE); } else connection_lost(session, EIO); return; } static void auth_cb(DBusError *derr, void *user_data) { struct avdtp *session = user_data; GError *err = NULL; if (derr && dbus_error_is_set(derr)) { error("Access denied: %s", derr->message); connection_lost(session, EACCES); return; } if (!bt_io_accept(session->io, avdtp_connect_cb, session, NULL, &err)) { error("bt_io_accept: %s", err->message); connection_lost(session, EACCES); g_error_free(err); return; } /* This is so that avdtp_connect_cb will know to do the right thing * with respect to the disconnect timer */ session->stream_setup = TRUE; } static void avdtp_confirm_cb(GIOChannel *chan, gpointer data) { struct avdtp *session; struct audio_device *dev; char address[18]; bdaddr_t src, dst; int perr; GError *err = NULL; bt_io_get(chan, BT_IO_L2CAP, &err, BT_IO_OPT_SOURCE_BDADDR, &src, BT_IO_OPT_DEST_BDADDR, &dst, BT_IO_OPT_DEST, address, BT_IO_OPT_INVALID); if (err) { error("%s", err->message); g_error_free(err); goto drop; } debug("AVDTP: incoming connect from %s", address); session = avdtp_get_internal(&src, &dst); if (!session) goto drop; if (session->pending_open && session->pending_open->open_acp) { if (!bt_io_accept(chan, avdtp_connect_cb, session, NULL, NULL)) goto drop; return; } if (session->io) { error("Refusing unexpected connect from %s", address); goto drop; } dev = manager_get_device(&src, &dst, FALSE); if (!dev) { dev = manager_get_device(&src, &dst, TRUE); if (!dev) { error("Unable to get audio device object for %s", address); goto drop; } btd_device_add_uuid(dev->btd_dev, ADVANCED_AUDIO_UUID); } session->io = g_io_channel_ref(chan); avdtp_set_state(session, AVDTP_SESSION_STATE_CONNECTING); session->io_id = g_io_add_watch(chan, G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) session_cb, session); perr = audio_device_request_authorization(dev, ADVANCED_AUDIO_UUID, auth_cb, session); if (perr < 0) { avdtp_unref(session); goto drop; } dev->auto_connect = auto_connect; return; drop: g_io_channel_shutdown(chan, TRUE, NULL); } static int l2cap_connect(struct avdtp *session) { GError *err = NULL; GIOChannel *io; io = bt_io_connect(BT_IO_L2CAP, avdtp_connect_cb, session, NULL, &err, BT_IO_OPT_SOURCE_BDADDR, &session->server->src, BT_IO_OPT_DEST_BDADDR, &session->dst, BT_IO_OPT_PSM, AVDTP_PSM, BT_IO_OPT_INVALID); if (!io) { error("%s", err->message); g_error_free(err); return -EIO; } g_io_channel_unref(io); return 0; } static void queue_request(struct avdtp *session, struct pending_req *req, gboolean priority) { if (priority) session->prio_queue = g_slist_append(session->prio_queue, req); else session->req_queue = g_slist_append(session->req_queue, req); } static uint8_t req_get_seid(struct pending_req *req) { if (req->signal_id == AVDTP_DISCOVER) return 0; return ((struct seid_req *) (req->data))->acp_seid; } static gboolean request_timeout(gpointer user_data) { struct avdtp *session = user_data; struct pending_req *req; struct seid_req sreq; struct avdtp_local_sep *lsep; struct avdtp_stream *stream; uint8_t seid; struct avdtp_error err; req = session->req; session->req = NULL; avdtp_error_init(&err, AVDTP_ERROR_ERRNO, ETIMEDOUT); seid = req_get_seid(req); if (seid) stream = find_stream_by_rseid(session, seid); else stream = NULL; if (stream) lsep = stream->lsep; else lsep = NULL; switch (req->signal_id) { case AVDTP_RECONFIGURE: error("Reconfigure request timed out"); if (lsep && lsep->cfm && lsep->cfm->reconfigure) lsep->cfm->reconfigure(session, lsep, stream, &err, lsep->user_data); break; case AVDTP_OPEN: error("Open request timed out"); if (lsep && lsep->cfm && lsep->cfm->open) lsep->cfm->open(session, lsep, stream, &err, lsep->user_data); break; case AVDTP_START: error("Start request timed out"); if (lsep && lsep->cfm && lsep->cfm->start) lsep->cfm->start(session, lsep, stream, &err, lsep->user_data); break; case AVDTP_SUSPEND: error("Suspend request timed out"); if (lsep && lsep->cfm && lsep->cfm->suspend) lsep->cfm->suspend(session, lsep, stream, &err, lsep->user_data); break; case AVDTP_CLOSE: error("Close request timed out"); if (lsep && lsep->cfm && lsep->cfm->close) { lsep->cfm->close(session, lsep, stream, &err, lsep->user_data); if (stream) stream->close_int = FALSE; } break; case AVDTP_SET_CONFIGURATION: error("SetConfiguration request timed out"); if (lsep && lsep->cfm && lsep->cfm->set_configuration) lsep->cfm->set_configuration(session, lsep, stream, &err, lsep->user_data); goto failed; case AVDTP_DISCOVER: error("Discover request timed out"); goto failed; case AVDTP_GET_CAPABILITIES: error("GetCapabilities request timed out"); goto failed; case AVDTP_ABORT: error("Abort request timed out"); goto failed; } memset(&sreq, 0, sizeof(sreq)); sreq.acp_seid = seid; if (send_request(session, TRUE, stream, AVDTP_ABORT, &sreq, sizeof(sreq)) < 0) { error("Unable to send abort request"); goto failed; } stream->abort_int = TRUE; avdtp_sep_set_state(session, stream->lsep, AVDTP_STATE_ABORTING); goto done; failed: connection_lost(session, ETIMEDOUT); done: pending_req_free(req); return FALSE; } static int send_req(struct avdtp *session, gboolean priority, struct pending_req *req) { static int transaction = 0; int err; if (session->state == AVDTP_SESSION_STATE_DISCONNECTED) { err = l2cap_connect(session); if (err < 0) goto failed; avdtp_set_state(session, AVDTP_SESSION_STATE_CONNECTING); } if (session->state < AVDTP_SESSION_STATE_CONNECTED || session->req != NULL) { queue_request(session, req, priority); return 0; } req->transaction = transaction++; transaction %= 16; /* FIXME: Should we retry to send if the buffer was not totally sent or in case of EINTR? */ if (!avdtp_send(session, req->transaction, AVDTP_MSG_TYPE_COMMAND, req->signal_id, req->data, req->data_size)) { err = -EIO; goto failed; } session->req = req; req->timeout = g_timeout_add_seconds(REQ_TIMEOUT, request_timeout, session); return 0; failed: g_free(req->data); g_free(req); return err; } static int send_request(struct avdtp *session, gboolean priority, struct avdtp_stream *stream, uint8_t signal_id, void *buffer, size_t size) { struct pending_req *req; req = g_new0(struct pending_req, 1); req->signal_id = signal_id; req->data = g_malloc(size); memcpy(req->data, buffer, size); req->data_size = size; req->stream = stream; return send_req(session, priority, req); } static gboolean avdtp_discover_resp(struct avdtp *session, struct discover_resp *resp, int size) { int sep_count, i; sep_count = size / sizeof(struct seid_info); for (i = 0; i < sep_count; i++) { struct avdtp_remote_sep *sep; struct avdtp_stream *stream; struct seid_req req; int ret; debug("seid %d type %d media %d in use %d", resp->seps[i].seid, resp->seps[i].type, resp->seps[i].media_type, resp->seps[i].inuse); stream = find_stream_by_rseid(session, resp->seps[i].seid); sep = find_remote_sep(session->seps, resp->seps[i].seid); if (!sep) { if (resp->seps[i].inuse && !stream) continue; sep = g_new0(struct avdtp_remote_sep, 1); session->seps = g_slist_append(session->seps, sep); } sep->stream = stream; sep->seid = resp->seps[i].seid; sep->type = resp->seps[i].type; sep->media_type = resp->seps[i].media_type; memset(&req, 0, sizeof(req)); req.acp_seid = sep->seid; ret = send_request(session, TRUE, NULL, AVDTP_GET_CAPABILITIES, &req, sizeof(req)); if (ret < 0) { finalize_discovery(session, -ret); break; } } return TRUE; } static gboolean avdtp_get_capabilities_resp(struct avdtp *session, struct getcap_resp *resp, unsigned int size) { struct avdtp_remote_sep *sep; uint8_t seid; /* Check for minimum required packet size includes: * 1. getcap resp header * 2. media transport capability (2 bytes) * 3. media codec capability type + length (2 bytes) * 4. the actual media codec elements * */ if (size < (sizeof(struct getcap_resp) + 4 + sizeof(struct avdtp_media_codec_capability))) { error("Too short getcap resp packet"); return FALSE; } seid = ((struct seid_req *) session->req->data)->acp_seid; sep = find_remote_sep(session->seps, seid); debug("seid %d type %d media %d", sep->seid, sep->type, sep->media_type); if (sep->caps) { g_slist_foreach(sep->caps, (GFunc) g_free, NULL); g_slist_free(sep->caps); sep->caps = NULL; sep->codec = NULL; } sep->caps = caps_to_list(resp->caps, size - sizeof(struct getcap_resp), &sep->codec); return TRUE; } static gboolean avdtp_set_configuration_resp(struct avdtp *session, struct avdtp_stream *stream, struct avdtp_single_header *resp, int size) { struct avdtp_local_sep *sep = stream->lsep; if (sep->cfm && sep->cfm->set_configuration) sep->cfm->set_configuration(session, sep, stream, NULL, sep->user_data); avdtp_sep_set_state(session, sep, AVDTP_STATE_CONFIGURED); return TRUE; } static gboolean avdtp_reconfigure_resp(struct avdtp *session, struct avdtp_stream *stream, struct avdtp_single_header *resp, int size) { return TRUE; } static gboolean avdtp_open_resp(struct avdtp *session, struct avdtp_stream *stream, struct seid_rej *resp, int size) { struct avdtp_local_sep *sep = stream->lsep; if (l2cap_connect(session) < 0) { avdtp_sep_set_state(session, sep, AVDTP_STATE_IDLE); return FALSE; } session->pending_open = stream; return TRUE; } static gboolean avdtp_start_resp(struct avdtp *session, struct avdtp_stream *stream, struct seid_rej *resp, int size) { struct avdtp_local_sep *sep = stream->lsep; if (sep->cfm && sep->cfm->start) sep->cfm->start(session, sep, stream, NULL, sep->user_data); /* We might be in STREAMING already if both sides send START_CMD at the * same time and the one in SNK role doesn't reject it as it should */ if (sep->state != AVDTP_STATE_STREAMING) avdtp_sep_set_state(session, sep, AVDTP_STATE_STREAMING); return TRUE; } static gboolean avdtp_close_resp(struct avdtp *session, struct avdtp_stream *stream, struct seid_rej *resp, int size) { struct avdtp_local_sep *sep = stream->lsep; avdtp_sep_set_state(session, sep, AVDTP_STATE_CLOSING); close_stream(stream); return TRUE; } static gboolean avdtp_suspend_resp(struct avdtp *session, struct avdtp_stream *stream, void *data, int size) { struct avdtp_local_sep *sep = stream->lsep; avdtp_sep_set_state(session, sep, AVDTP_STATE_OPEN); if (sep->cfm && sep->cfm->suspend) sep->cfm->suspend(session, sep, stream, NULL, sep->user_data); return TRUE; } static gboolean avdtp_abort_resp(struct avdtp *session, struct avdtp_stream *stream, struct seid_rej *resp, int size) { struct avdtp_local_sep *sep = stream->lsep; avdtp_sep_set_state(session, sep, AVDTP_STATE_ABORTING); if (sep->cfm && sep->cfm->abort) sep->cfm->abort(session, sep, stream, NULL, sep->user_data); avdtp_sep_set_state(session, sep, AVDTP_STATE_IDLE); return TRUE; } static gboolean avdtp_parse_resp(struct avdtp *session, struct avdtp_stream *stream, uint8_t transaction, uint8_t signal_id, void *buf, int size) { struct pending_req *next; if (session->prio_queue) next = session->prio_queue->data; else if (session->req_queue) next = session->req_queue->data; else next = NULL; switch (signal_id) { case AVDTP_DISCOVER: debug("DISCOVER request succeeded"); return avdtp_discover_resp(session, buf, size); case AVDTP_GET_CAPABILITIES: debug("GET_CAPABILITIES request succeeded"); if (!avdtp_get_capabilities_resp(session, buf, size)) return FALSE; if (!(next && next->signal_id == AVDTP_GET_CAPABILITIES)) finalize_discovery(session, 0); return TRUE; case AVDTP_SET_CONFIGURATION: debug("SET_CONFIGURATION request succeeded"); return avdtp_set_configuration_resp(session, stream, buf, size); case AVDTP_RECONFIGURE: debug("RECONFIGURE request succeeded"); return avdtp_reconfigure_resp(session, stream, buf, size); case AVDTP_OPEN: debug("OPEN request succeeded"); return avdtp_open_resp(session, stream, buf, size); case AVDTP_SUSPEND: debug("SUSPEND request succeeded"); return avdtp_suspend_resp(session, stream, buf, size); case AVDTP_START: debug("START request succeeded"); return avdtp_start_resp(session, stream, buf, size); case AVDTP_CLOSE: debug("CLOSE request succeeded"); return avdtp_close_resp(session, stream, buf, size); case AVDTP_ABORT: debug("ABORT request succeeded"); return avdtp_abort_resp(session, stream, buf, size); } error("Unknown signal id in accept response: %u", signal_id); return TRUE; } static gboolean seid_rej_to_err(struct seid_rej *rej, unsigned int size, struct avdtp_error *err) { if (size < sizeof(struct seid_rej)) { error("Too small packet for seid_rej"); return FALSE; } avdtp_error_init(err, AVDTP_ERROR_ERROR_CODE, rej->error); return TRUE; } static gboolean conf_rej_to_err(struct conf_rej *rej, unsigned int size, struct avdtp_error *err, uint8_t *category) { if (size < sizeof(struct conf_rej)) { error("Too small packet for conf_rej"); return FALSE; } avdtp_error_init(err, AVDTP_ERROR_ERROR_CODE, rej->error); if (category) *category = rej->category; return TRUE; } static gboolean stream_rej_to_err(struct stream_rej *rej, unsigned int size, struct avdtp_error *err, uint8_t *acp_seid) { if (size < sizeof(struct stream_rej)) { error("Too small packet for stream_rej"); return FALSE; } avdtp_error_init(err, AVDTP_ERROR_ERROR_CODE, rej->error); if (acp_seid) *acp_seid = rej->acp_seid; return TRUE; } static gboolean avdtp_parse_rej(struct avdtp *session, struct avdtp_stream *stream, uint8_t transaction, uint8_t signal_id, void *buf, int size) { struct avdtp_error err; uint8_t acp_seid, category; struct avdtp_local_sep *sep = stream ? stream->lsep : NULL; switch (signal_id) { case AVDTP_DISCOVER: if (!seid_rej_to_err(buf, size, &err)) return FALSE; error("DISCOVER request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); return TRUE; case AVDTP_GET_CAPABILITIES: if (!seid_rej_to_err(buf, size, &err)) return FALSE; error("GET_CAPABILITIES request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); return TRUE; case AVDTP_OPEN: if (!seid_rej_to_err(buf, size, &err)) return FALSE; error("OPEN request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->open) sep->cfm->open(session, sep, stream, &err, sep->user_data); return TRUE; case AVDTP_SET_CONFIGURATION: if (!conf_rej_to_err(buf, size, &err, &category)) return FALSE; error("SET_CONFIGURATION request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->set_configuration) sep->cfm->set_configuration(session, sep, stream, &err, sep->user_data); return TRUE; case AVDTP_RECONFIGURE: if (!conf_rej_to_err(buf, size, &err, &category)) return FALSE; error("RECONFIGURE request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->reconfigure) sep->cfm->reconfigure(session, sep, stream, &err, sep->user_data); return TRUE; case AVDTP_START: if (!stream_rej_to_err(buf, size, &err, &acp_seid)) return FALSE; error("START request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->start) sep->cfm->start(session, sep, stream, &err, sep->user_data); return TRUE; case AVDTP_SUSPEND: if (!stream_rej_to_err(buf, size, &err, &acp_seid)) return FALSE; error("SUSPEND request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->suspend) sep->cfm->suspend(session, sep, stream, &err, sep->user_data); return TRUE; case AVDTP_CLOSE: if (!stream_rej_to_err(buf, size, &err, &acp_seid)) return FALSE; error("CLOSE request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->close) { sep->cfm->close(session, sep, stream, &err, sep->user_data); stream->close_int = FALSE; } return TRUE; case AVDTP_ABORT: if (!stream_rej_to_err(buf, size, &err, &acp_seid)) return FALSE; error("ABORT request rejected: %s (%d)", avdtp_strerror(&err), err.err.error_code); if (sep && sep->cfm && sep->cfm->abort) sep->cfm->abort(session, sep, stream, &err, sep->user_data); return TRUE; default: error("Unknown reject response signal id: %u", signal_id); return TRUE; } } gboolean avdtp_is_connected(const bdaddr_t *src, const bdaddr_t *dst) { struct avdtp_server *server; struct avdtp *session; server = find_server(servers, src); if (!server) return FALSE; session = find_session(server->sessions, dst); if (!session) return FALSE; if (session->state != AVDTP_SESSION_STATE_DISCONNECTED) return TRUE; return FALSE; } struct avdtp_service_capability *avdtp_stream_get_codec( struct avdtp_stream *stream) { GSList *l; for (l = stream->caps; l; l = l->next) { struct avdtp_service_capability *cap = l->data; if (cap->category == AVDTP_MEDIA_CODEC) return cap; } return NULL; } gboolean avdtp_stream_has_capability(struct avdtp_stream *stream, struct avdtp_service_capability *cap) { GSList *l; struct avdtp_service_capability *stream_cap; for (l = stream->caps; l; l = g_slist_next(l)) { stream_cap = l->data; if (stream_cap->category != cap->category || stream_cap->length != cap->length) continue; if (memcmp(stream_cap->data, cap->data, cap->length) == 0) return TRUE; } return FALSE; } gboolean avdtp_stream_has_capabilities(struct avdtp_stream *stream, GSList *caps) { GSList *l; for (l = caps; l; l = g_slist_next(l)) { struct avdtp_service_capability *cap = l->data; if (!avdtp_stream_has_capability(stream, cap)) return FALSE; } return TRUE; } gboolean avdtp_stream_get_transport(struct avdtp_stream *stream, int *sock, uint16_t *imtu, uint16_t *omtu, GSList **caps) { if (stream->io == NULL) return FALSE; if (sock) *sock = g_io_channel_unix_get_fd(stream->io); if (omtu) *omtu = stream->omtu; if (imtu) *imtu = stream->imtu; if (caps) *caps = stream->caps; return TRUE; } static int process_queue(struct avdtp *session) { GSList **queue, *l; struct pending_req *req; if (session->req) return 0; if (session->prio_queue) queue = &session->prio_queue; else queue = &session->req_queue; if (!*queue) return 0; l = *queue; req = l->data; *queue = g_slist_remove(*queue, req); return send_req(session, FALSE, req); } struct avdtp_remote_sep *avdtp_get_remote_sep(struct avdtp *session, uint8_t seid) { GSList *l; for (l = session->seps; l; l = l->next) { struct avdtp_remote_sep *sep = l->data; if (sep->seid == seid) return sep; } return NULL; } uint8_t avdtp_get_seid(struct avdtp_remote_sep *sep) { return sep->seid; } uint8_t avdtp_get_type(struct avdtp_remote_sep *sep) { return sep->type; } struct avdtp_service_capability *avdtp_get_codec(struct avdtp_remote_sep *sep) { return sep->codec; } struct avdtp_stream *avdtp_get_stream(struct avdtp_remote_sep *sep) { return sep->stream; } struct avdtp_service_capability *avdtp_service_cap_new(uint8_t category, void *data, int length) { struct avdtp_service_capability *cap; if (category < AVDTP_MEDIA_TRANSPORT || category > AVDTP_MEDIA_CODEC) return NULL; cap = g_malloc(sizeof(struct avdtp_service_capability) + length); cap->category = category; cap->length = length; memcpy(cap->data, data, length); return cap; } static gboolean process_discover(gpointer data) { struct avdtp *session = data; finalize_discovery(session, 0); return FALSE; } int avdtp_discover(struct avdtp *session, avdtp_discover_cb_t cb, void *user_data) { int ret; if (session->discov_cb) return -EBUSY; if (session->seps) { session->discov_cb = cb; session->user_data = user_data; g_idle_add(process_discover, session); return 0; } ret = send_request(session, FALSE, NULL, AVDTP_DISCOVER, NULL, 0); if (ret == 0) { session->discov_cb = cb; session->user_data = user_data; } return ret; } int avdtp_get_seps(struct avdtp *session, uint8_t acp_type, uint8_t media_type, uint8_t codec, struct avdtp_local_sep **lsep, struct avdtp_remote_sep **rsep) { GSList *l; uint8_t int_type; int_type = acp_type == AVDTP_SEP_TYPE_SINK ? AVDTP_SEP_TYPE_SOURCE : AVDTP_SEP_TYPE_SINK; *lsep = find_local_sep(session->server, int_type, media_type, codec); if (!*lsep) return -EINVAL; for (l = session->seps; l != NULL; l = g_slist_next(l)) { struct avdtp_remote_sep *sep = l->data; struct avdtp_service_capability *cap; struct avdtp_media_codec_capability *codec_data; if (sep->type != acp_type) continue; if (sep->media_type != media_type) continue; if (!sep->codec) continue; cap = sep->codec; codec_data = (void *) cap->data; if (codec_data->media_codec_type != codec) continue; if (!sep->stream) { *rsep = sep; return 0; } } return -EINVAL; } gboolean avdtp_stream_remove_cb(struct avdtp *session, struct avdtp_stream *stream, unsigned int id) { GSList *l; struct stream_callback *cb; if (!stream) return FALSE; for (cb = NULL, l = stream->callbacks; l != NULL; l = l->next) { struct stream_callback *tmp = l->data; if (tmp && tmp->id == id) { cb = tmp; break; } } if (!cb) return FALSE; stream->callbacks = g_slist_remove(stream->callbacks, cb); g_free(cb); return TRUE; } unsigned int avdtp_stream_add_cb(struct avdtp *session, struct avdtp_stream *stream, avdtp_stream_state_cb cb, void *data) { struct stream_callback *stream_cb; static unsigned int id = 0; stream_cb = g_new(struct stream_callback, 1); stream_cb->cb = cb; stream_cb->user_data = data; stream_cb->id = ++id; stream->callbacks = g_slist_append(stream->callbacks, stream_cb);; return stream_cb->id; } int avdtp_get_configuration(struct avdtp *session, struct avdtp_stream *stream) { struct seid_req req; if (session->state < AVDTP_SESSION_STATE_CONNECTED) return -EINVAL; memset(&req, 0, sizeof(req)); req.acp_seid = stream->rseid; return send_request(session, FALSE, stream, AVDTP_GET_CONFIGURATION, &req, sizeof(req)); } static void copy_capabilities(gpointer data, gpointer user_data) { struct avdtp_service_capability *src_cap = data; struct avdtp_service_capability *dst_cap; GSList **l = user_data; dst_cap = avdtp_service_cap_new(src_cap->category, src_cap->data, src_cap->length); *l = g_slist_append(*l, dst_cap); } int avdtp_set_configuration(struct avdtp *session, struct avdtp_remote_sep *rsep, struct avdtp_local_sep *lsep, GSList *caps, struct avdtp_stream **stream) { struct setconf_req *req; struct avdtp_stream *new_stream; unsigned char *ptr; int ret, caps_len; struct avdtp_service_capability *cap; GSList *l; if (session->state != AVDTP_SESSION_STATE_CONNECTED) return -ENOTCONN; if (!(lsep && rsep)) return -EINVAL; debug("avdtp_set_configuration(%p): int_seid=%u, acp_seid=%u", session, lsep->info.seid, rsep->seid); new_stream = g_new0(struct avdtp_stream, 1); new_stream->session = session; new_stream->lsep = lsep; new_stream->rseid = rsep->seid; g_slist_foreach(caps, copy_capabilities, &new_stream->caps); /* Calculate total size of request */ for (l = caps, caps_len = 0; l != NULL; l = g_slist_next(l)) { cap = l->data; caps_len += cap->length + 2; } req = g_malloc0(sizeof(struct setconf_req) + caps_len); req->int_seid = lsep->info.seid; req->acp_seid = rsep->seid; /* Copy the capabilities into the request */ for (l = caps, ptr = req->caps; l != NULL; l = g_slist_next(l)) { cap = l->data; memcpy(ptr, cap, cap->length + 2); ptr += cap->length + 2; } ret = send_request(session, FALSE, new_stream, AVDTP_SET_CONFIGURATION, req, sizeof(struct setconf_req) + caps_len); if (ret < 0) stream_free(new_stream); else { lsep->info.inuse = 1; lsep->stream = new_stream; rsep->stream = new_stream; session->streams = g_slist_append(session->streams, new_stream); if (stream) *stream = new_stream; } g_free(req); return ret; } int avdtp_reconfigure(struct avdtp *session, GSList *caps, struct avdtp_stream *stream) { struct reconf_req *req; unsigned char *ptr; int caps_len, err; GSList *l; struct avdtp_service_capability *cap; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state != AVDTP_STATE_OPEN) return -EINVAL; /* Calculate total size of request */ for (l = caps, caps_len = 0; l != NULL; l = g_slist_next(l)) { cap = l->data; caps_len += cap->length + 2; } req = g_malloc0(sizeof(struct reconf_req) + caps_len); req->acp_seid = stream->rseid; /* Copy the capabilities into the request */ for (l = caps, ptr = req->caps; l != NULL; l = g_slist_next(l)) { cap = l->data; memcpy(ptr, cap, cap->length + 2); ptr += cap->length + 2; } err = send_request(session, FALSE, stream, AVDTP_RECONFIGURE, req, sizeof(*req) + caps_len); g_free(req); return err; } int avdtp_open(struct avdtp *session, struct avdtp_stream *stream) { struct seid_req req; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state > AVDTP_STATE_CONFIGURED) return -EINVAL; memset(&req, 0, sizeof(req)); req.acp_seid = stream->rseid; return send_request(session, FALSE, stream, AVDTP_OPEN, &req, sizeof(req)); } int avdtp_start(struct avdtp *session, struct avdtp_stream *stream) { struct start_req req; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state != AVDTP_STATE_OPEN) return -EINVAL; if (stream->close_int == TRUE) { error("avdtp_start: rejecting start since close is initiated"); return -EINVAL; } memset(&req, 0, sizeof(req)); req.first_seid.seid = stream->rseid; return send_request(session, FALSE, stream, AVDTP_START, &req, sizeof(req)); } int avdtp_close(struct avdtp *session, struct avdtp_stream *stream) { struct seid_req req; int ret; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state < AVDTP_STATE_OPEN) return -EINVAL; if (stream->close_int == TRUE) { error("avdtp_close: rejecting since close is already initiated"); return -EINVAL; } memset(&req, 0, sizeof(req)); req.acp_seid = stream->rseid; ret = send_request(session, FALSE, stream, AVDTP_CLOSE, &req, sizeof(req)); if (ret == 0) stream->close_int = TRUE; return ret; } int avdtp_suspend(struct avdtp *session, struct avdtp_stream *stream) { struct seid_req req; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state <= AVDTP_STATE_OPEN) return -EINVAL; memset(&req, 0, sizeof(req)); req.acp_seid = stream->rseid; return send_request(session, FALSE, stream, AVDTP_SUSPEND, &req, sizeof(req)); } int avdtp_abort(struct avdtp *session, struct avdtp_stream *stream) { struct seid_req req; int ret; if (!g_slist_find(session->streams, stream)) return -EINVAL; if (stream->lsep->state <= AVDTP_STATE_OPEN) return -EINVAL; memset(&req, 0, sizeof(req)); req.acp_seid = stream->rseid; ret = send_request(session, TRUE, stream, AVDTP_ABORT, &req, sizeof(req)); if (ret == 0) { stream->abort_int = TRUE; avdtp_sep_set_state(session, stream->lsep, AVDTP_STATE_ABORTING); } return ret; } struct avdtp_local_sep *avdtp_register_sep(const bdaddr_t *src, uint8_t type, uint8_t media_type, uint8_t codec_type, struct avdtp_sep_ind *ind, struct avdtp_sep_cfm *cfm, void *user_data) { struct avdtp_server *server; struct avdtp_local_sep *sep; server = find_server(servers, src); if (!server) return NULL; if (g_slist_length(server->seps) > MAX_SEID) return NULL; sep = g_new0(struct avdtp_local_sep, 1); sep->state = AVDTP_STATE_IDLE; sep->info.seid = g_slist_length(server->seps) + 1; sep->info.type = type; sep->info.media_type = media_type; sep->codec = codec_type; sep->ind = ind; sep->cfm = cfm; sep->user_data = user_data; sep->server = server; debug("SEP %p registered: type:%d codec:%d seid:%d", sep, sep->info.type, sep->codec, sep->info.seid); server->seps = g_slist_append(server->seps, sep); return sep; } int avdtp_unregister_sep(struct avdtp_local_sep *sep) { struct avdtp_server *server; if (!sep) return -EINVAL; server = sep->server; server->seps = g_slist_remove(server->seps, sep); if (sep->stream) release_stream(sep->stream, sep->stream->session); g_free(sep); return 0; } static GIOChannel *avdtp_server_socket(const bdaddr_t *src, gboolean master) { GError *err = NULL; GIOChannel *io; io = bt_io_listen(BT_IO_L2CAP, NULL, avdtp_confirm_cb, NULL, NULL, &err, BT_IO_OPT_SOURCE_BDADDR, src, BT_IO_OPT_PSM, AVDTP_PSM, BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_MEDIUM, BT_IO_OPT_MASTER, master, BT_IO_OPT_INVALID); if (!io) { error("%s", err->message); g_error_free(err); } return io; } const char *avdtp_strerror(struct avdtp_error *err) { if (err->type == AVDTP_ERROR_ERRNO) return strerror(err->err.posix_errno); switch(err->err.error_code) { case AVDTP_BAD_HEADER_FORMAT: return "Bad Header Format"; case AVDTP_BAD_LENGTH: return "Bad Packet Lenght"; case AVDTP_BAD_ACP_SEID: return "Bad Acceptor SEID"; case AVDTP_SEP_IN_USE: return "Stream End Point in Use"; case AVDTP_SEP_NOT_IN_USE: return "Stream End Point Not in Use"; case AVDTP_BAD_SERV_CATEGORY: return "Bad Service Category"; case AVDTP_BAD_PAYLOAD_FORMAT: return "Bad Payload format"; case AVDTP_NOT_SUPPORTED_COMMAND: return "Command Not Supported"; case AVDTP_INVALID_CAPABILITIES: return "Invalid Capabilities"; case AVDTP_BAD_RECOVERY_TYPE: return "Bad Recovery Type"; case AVDTP_BAD_MEDIA_TRANSPORT_FORMAT: return "Bad Media Transport Format"; case AVDTP_BAD_RECOVERY_FORMAT: return "Bad Recovery Format"; case AVDTP_BAD_ROHC_FORMAT: return "Bad Header Compression Format"; case AVDTP_BAD_CP_FORMAT: return "Bad Content Protetion Format"; case AVDTP_BAD_MULTIPLEXING_FORMAT: return "Bad Multiplexing Format"; case AVDTP_UNSUPPORTED_CONFIGURATION: return "Configuration not supported"; case AVDTP_BAD_STATE: return "Bad State"; default: return "Unknow error"; } } avdtp_state_t avdtp_sep_get_state(struct avdtp_local_sep *sep) { return sep->state; } void avdtp_get_peers(struct avdtp *session, bdaddr_t *src, bdaddr_t *dst) { if (src) bacpy(src, &session->server->src); if (dst) bacpy(dst, &session->dst); } int avdtp_init(const bdaddr_t *src, GKeyFile *config) { GError *err = NULL; gboolean tmp, master = TRUE; struct avdtp_server *server; if (config) { tmp = g_key_file_get_boolean(config, "General", "Master", &err); if (err) { debug("audio.conf: %s", err->message); g_clear_error(&err); } else master = tmp; tmp = g_key_file_get_boolean(config, "General", "AutoConnect", &err); if (err) g_clear_error(&err); else auto_connect = tmp; } server = g_new0(struct avdtp_server, 1); if (!server) return -ENOMEM; server->io = avdtp_server_socket(src, master); if (!server->io) { g_free(server); return -1; } bacpy(&server->src, src); servers = g_slist_append(servers, server); return 0; } void avdtp_exit(const bdaddr_t *src) { struct avdtp_server *server; GSList *l; server = find_server(servers, src); if (!server) return; for (l = server->sessions; l; l = l->next) { struct avdtp *session = l->data; connection_lost(session, -ECONNABORTED); } servers = g_slist_remove(servers, server); g_io_channel_shutdown(server->io, TRUE, NULL); g_io_channel_unref(server->io); g_free(server); } gboolean avdtp_has_stream(struct avdtp *session, struct avdtp_stream *stream) { return g_slist_find(session->streams, stream) ? TRUE : FALSE; } void avdtp_set_auto_disconnect(struct avdtp *session, gboolean auto_dc) { session->auto_dc = auto_dc; } gboolean avdtp_stream_setup_active(struct avdtp *session) { return session->stream_setup; } unsigned int avdtp_add_state_cb(avdtp_session_state_cb cb, void *user_data) { struct avdtp_state_callback *state_cb; static unsigned int id = 0; state_cb = g_new(struct avdtp_state_callback, 1); state_cb->cb = cb; state_cb->user_data = user_data; state_cb->id = ++id; avdtp_callbacks = g_slist_append(avdtp_callbacks, state_cb);; return state_cb->id; } gboolean avdtp_remove_state_cb(unsigned int id) { GSList *l; for (l = avdtp_callbacks; l != NULL; l = l->next) { struct avdtp_state_callback *cb = l->data; if (cb && cb->id == id) { avdtp_callbacks = g_slist_remove(avdtp_callbacks, cb); g_free(cb); return TRUE; } } return FALSE; }