/* mgcp_utils - common functions to setup an MGCP connection */ /* (C) 2016 by sysmocom s.f.m.c. GmbH * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include #include #include #include #include #include #include #include #include #include #include #include #include void mgcp_client_conf_init(struct mgcp_client_conf *conf) { /* NULL and -1 default to MGCP_CLIENT_*_DEFAULT values */ *conf = (struct mgcp_client_conf){ .local_addr = NULL, .local_port = -1, .remote_addr = NULL, .remote_port = -1, .first_endpoint = 0, .last_endpoint = 0, .bts_base = 0, }; } /* Test if a given endpoint id is currently in use */ static bool endpoint_in_use(uint16_t id, struct mgcp_client *client) { struct mgcp_inuse_endpoint *endpoint; llist_for_each_entry(endpoint, &client->inuse_endpoints, entry) { if (endpoint->id == id) return true; } return false; } /* Find and seize an unsused endpoint id */ int mgcp_client_next_endpoint(struct mgcp_client *client) { int i; uint16_t first_endpoint = client->actual.first_endpoint; uint16_t last_endpoint = client->actual.last_endpoint; struct mgcp_inuse_endpoint *endpoint; /* Use the maximum permitted range if the VTY * configuration does not specify a range */ if (client->actual.last_endpoint == 0) { first_endpoint = 1; last_endpoint = 65534; } /* Test the permitted endpoint range for an endpoint * number that is not in use. When a suitable endpoint * number can be found, seize it by adding it to the * inuse list. */ for (i=first_endpoint;iid = i; llist_add_tail(&endpoint->entry, &client->inuse_endpoints); return endpoint->id; } } /* All endpoints are busy! */ return -EINVAL; } /* Release a seized endpoint id to make it available again for other calls */ void mgcp_client_release_endpoint(uint16_t id, struct mgcp_client *client) { struct mgcp_inuse_endpoint *endpoint; struct mgcp_inuse_endpoint *endpoint_tmp; llist_for_each_entry_safe(endpoint, endpoint_tmp, &client->inuse_endpoints, entry) { if (endpoint->id == id) { llist_del(&endpoint->entry); talloc_free(endpoint); } } } static void mgcp_client_handle_response(struct mgcp_client *mgcp, struct mgcp_response_pending *pending, struct mgcp_response *response) { if (!pending) { LOGP(DLMGCP, LOGL_ERROR, "Cannot handle NULL response\n"); return; } if (pending->response_cb) pending->response_cb(response, pending->priv); else LOGP(DLMGCP, LOGL_INFO, "MGCP response ignored (NULL cb)\n"); talloc_free(pending); } static int mgcp_response_parse_head(struct mgcp_response *r, struct msgb *msg) { int comment_pos; char *end; if (mgcp_msg_terminate_nul(msg)) goto response_parse_failure; r->body = (char *)msg->data; if (sscanf(r->body, "%3d %u %n", &r->head.response_code, &r->head.trans_id, &comment_pos) != 2) goto response_parse_failure; r->head.comment = r->body + comment_pos; end = strchr(r->head.comment, '\r'); if (!end) goto response_parse_failure; /* Mark the end of the comment */ *end = '\0'; r->body = end + 1; if (r->body[0] == '\n') r->body ++; return 0; response_parse_failure: LOGP(DLMGCP, LOGL_ERROR, "Failed to parse MGCP response header\n"); return -EINVAL; } /* TODO undup against mgcp_protocol.c:mgcp_check_param() */ static bool mgcp_line_is_valid(const char *line) { const size_t line_len = strlen(line); if (line[0] == '\0') return true; if (line_len < 2 || line[1] != '=') { LOGP(DLMGCP, LOGL_ERROR, "Wrong MGCP option format: '%s'\n", line); return false; } return true; } /* Parse a line like "m=audio 16002 RTP/AVP 98" */ static int mgcp_parse_audio_port(struct mgcp_response *r, const char *line) { if (sscanf(line, "m=audio %hu", &r->audio_port) != 1) goto response_parse_failure; return 0; response_parse_failure: LOGP(DLMGCP, LOGL_ERROR, "Failed to parse MGCP response header (audio port)\n"); return -EINVAL; } /* Parse a line like "c=IN IP4 10.11.12.13" */ static int mgcp_parse_audio_ip(struct mgcp_response *r, const char *line) { struct in_addr ip_test; if (strlen(line) < 16) goto response_parse_failure; /* The current implementation strictly supports IPV4 only ! */ if (memcmp("c=IN IP4 ", line, 9) != 0) goto response_parse_failure; /* Extract IP-Address */ osmo_strlcpy(r->audio_ip, line + 9, sizeof(r->audio_ip)); /* Check IP-Address */ if (inet_aton(r->audio_ip, &ip_test) == 0) goto response_parse_failure; return 0; response_parse_failure: LOGP(DLMGCP, LOGL_ERROR, "Failed to parse MGCP response header (audio ip)\n"); return -EINVAL; } int mgcp_response_parse_params(struct mgcp_response *r) { char *line; int rc; OSMO_ASSERT(r->body); char *data = strstr(r->body, "\n\n"); if (!data) { LOGP(DLMGCP, LOGL_ERROR, "MGCP response: cannot find start of parameters\n"); return -EINVAL; } /* Advance to after the \n\n, replace the second \n with \0. That's * where the parameters start. */ data ++; *data = '\0'; data ++; for_each_non_empty_line(line, data) { if (!mgcp_line_is_valid(line)) return -EINVAL; switch (line[0]) { case 'm': rc = mgcp_parse_audio_port(r, line); if (rc) return rc; break; case 'c': rc = mgcp_parse_audio_ip(r, line); if (rc) return rc; break; default: /* skip unhandled parameters */ break; } } return 0; } /* Parse a line like "I: 0cedfd5a19542d197af9afe5231f1d61" */ static int mgcp_parse_conn_id(struct mgcp_response *r, const char *line) { if (strlen(line) < 4) goto response_parse_failure; if (memcmp("I: ", line, 3) != 0) goto response_parse_failure; osmo_strlcpy(r->head.conn_id, line + 3, sizeof(r->head.conn_id)); return 0; response_parse_failure: LOGP(DLMGCP, LOGL_ERROR, "Failed to parse MGCP response (connectionIdentifier)\n"); return -EINVAL; } /* Parse MGCP parameters of the response */ static int parse_head_params(struct mgcp_response *r) { char *line; int rc = 0; OSMO_ASSERT(r->body); char *data = r->body; char *data_end = strstr(r->body, "\n\n"); /* Protect SDP body, for_each_non_empty_line() will * only parse until it hits \0 mark. */ if (data_end) *data_end = '\0'; for_each_non_empty_line(line, data) { switch (line[0]) { case 'I': rc = mgcp_parse_conn_id(r, line); if (rc) goto exit; break; default: /* skip unhandled parameters */ break; } } exit: /* Restore original state */ if (data_end) *data_end = '\n'; return rc; } static struct mgcp_response_pending *mgcp_client_response_pending_get( struct mgcp_client *mgcp, mgcp_trans_id_t trans_id) { struct mgcp_response_pending *pending; llist_for_each_entry(pending, &mgcp->responses_pending, entry) { if (pending->trans_id == trans_id) { llist_del(&pending->entry); return pending; } } return NULL; } /* Feed an MGCP message into the receive processing. * Parse the head and call any callback registered for the transaction id found * in the MGCP message. This is normally called directly from the internal * mgcp_do_read that reads from the socket connected to the MGCP gateway. This * function is published mainly to be able to feed data from the test suite. */ int mgcp_client_rx(struct mgcp_client *mgcp, struct msgb *msg) { struct mgcp_response r = { 0 }; struct mgcp_response_pending *pending; int rc; rc = mgcp_response_parse_head(&r, msg); if (rc) { LOGP(DLMGCP, LOGL_ERROR, "Cannot parse MGCP response (head)\n"); return -1; } rc = parse_head_params(&r); if (rc) { LOGP(DLMGCP, LOGL_ERROR, "Cannot parse MGCP response (head parameters)\n"); return -1; } pending = mgcp_client_response_pending_get(mgcp, r.head.trans_id); if (!pending) { LOGP(DLMGCP, LOGL_ERROR, "Cannot find matching MGCP transaction for trans_id %d\n", r.head.trans_id); return -ENOENT; } mgcp_client_handle_response(mgcp, pending, &r); return 0; } static int mgcp_do_read(struct osmo_fd *fd) { struct mgcp_client *mgcp = fd->data; struct msgb *msg; int ret; msg = msgb_alloc_headroom(4096, 128, "mgcp_from_gw"); if (!msg) { LOGP(DLMGCP, LOGL_ERROR, "Failed to allocate MGCP message.\n"); return -1; } ret = read(fd->fd, msg->data, 4096 - 128); if (ret <= 0) { LOGP(DLMGCP, LOGL_ERROR, "Failed to read: %d/%s\n", errno, strerror(errno)); msgb_free(msg); return -1; } else if (ret > 4096 - 128) { LOGP(DLMGCP, LOGL_ERROR, "Too much data: %d\n", ret); msgb_free(msg); return -1; } msg->l2h = msgb_put(msg, ret); ret = mgcp_client_rx(mgcp, msg); talloc_free(msg); return ret; } static int mgcp_do_write(struct osmo_fd *fd, struct msgb *msg) { int ret; static char strbuf[4096]; unsigned int l = msg->len < sizeof(strbuf) ? msg->len : sizeof(strbuf); unsigned int i; osmo_strlcpy(strbuf, (const char*)msg->data, l); for (i = 0; i < sizeof(strbuf); i++) { if (strbuf[i] == '\n' || strbuf[i] == '\r') { strbuf[i] = '\0'; break; } } DEBUGP(DLMGCP, "Tx MGCP msg to MGCP GW: '%s'\n", strbuf); LOGP(DLMGCP, LOGL_DEBUG, "Sending msg to MGCP GW size: %u\n", msg->len); ret = write(fd->fd, msg->data, msg->len); if (ret != msg->len) LOGP(DLMGCP, LOGL_ERROR, "Failed to forward message to MGCP" " GW: %s\n", strerror(errno)); return ret; } struct mgcp_client *mgcp_client_init(void *ctx, struct mgcp_client_conf *conf) { struct mgcp_client *mgcp; mgcp = talloc_zero(ctx, struct mgcp_client); INIT_LLIST_HEAD(&mgcp->responses_pending); INIT_LLIST_HEAD(&mgcp->inuse_endpoints); mgcp->next_trans_id = 1; mgcp->actual.local_addr = conf->local_addr ? conf->local_addr : MGCP_CLIENT_LOCAL_ADDR_DEFAULT; mgcp->actual.local_port = conf->local_port >= 0 ? (uint16_t)conf->local_port : MGCP_CLIENT_LOCAL_PORT_DEFAULT; mgcp->actual.remote_addr = conf->remote_addr ? conf->remote_addr : MGCP_CLIENT_REMOTE_ADDR_DEFAULT; mgcp->actual.remote_port = conf->remote_port >= 0 ? (uint16_t)conf->remote_port : MGCP_CLIENT_REMOTE_PORT_DEFAULT; mgcp->actual.first_endpoint = conf->first_endpoint > 0 ? (uint16_t)conf->first_endpoint : 0; mgcp->actual.last_endpoint = conf->last_endpoint > 0 ? (uint16_t)conf->last_endpoint : 0; mgcp->actual.bts_base = conf->bts_base > 0 ? (uint16_t)conf->bts_base : 4000; return mgcp; } int mgcp_client_connect(struct mgcp_client *mgcp) { int on; struct sockaddr_in addr; struct osmo_wqueue *wq; int rc; if (!mgcp) { LOGP(DLMGCP, LOGL_FATAL, "MGCPGW client not initialized properly\n"); return -EINVAL; } wq = &mgcp->wq; wq->bfd.fd = socket(AF_INET, SOCK_DGRAM, 0); if (wq->bfd.fd < 0) { LOGP(DLMGCP, LOGL_FATAL, "Failed to create UDP socket errno: %d\n", errno); return -errno; } on = 1; if (setsockopt(wq->bfd.fd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)) < 0) { LOGP(DLMGCP, LOGL_FATAL, "Failed to initialize socket for MGCP GW: %s\n", strerror(errno)); rc = -errno; goto error_close_fd; } /* bind socket */ memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; inet_aton(mgcp->actual.local_addr, &addr.sin_addr); addr.sin_port = htons(mgcp->actual.local_port); if (bind(wq->bfd.fd, (struct sockaddr *) &addr, sizeof(addr)) < 0) { LOGP(DLMGCP, LOGL_FATAL, "Failed to bind for MGCP GW to %s %u\n", mgcp->actual.local_addr, mgcp->actual.local_port); rc = -errno; goto error_close_fd; } /* connect to the remote */ inet_aton(mgcp->actual.remote_addr, &addr.sin_addr); addr.sin_port = htons(mgcp->actual.remote_port); if (connect(wq->bfd.fd, (struct sockaddr *)&addr, sizeof(addr)) < 0) { LOGP(DLMGCP, LOGL_FATAL, "Failed to connect to MGCP GW at %s %u: %s\n", mgcp->actual.remote_addr, mgcp->actual.remote_port, strerror(errno)); rc = -errno; goto error_close_fd; } mgcp->remote_addr = htonl(addr.sin_addr.s_addr); osmo_wqueue_init(wq, 10); wq->bfd.when = BSC_FD_READ; wq->bfd.data = mgcp; wq->read_cb = mgcp_do_read; wq->write_cb = mgcp_do_write; if (osmo_fd_register(&wq->bfd) != 0) { LOGP(DLMGCP, LOGL_FATAL, "Failed to register BFD\n"); rc = -EIO; goto error_close_fd; } LOGP(DLMGCP, LOGL_INFO, "MGCP GW connection: %s:%u -> %s:%u\n", mgcp->actual.local_addr, mgcp->actual.local_port, mgcp->actual.remote_addr, mgcp->actual.remote_port); return 0; error_close_fd: close(wq->bfd.fd); wq->bfd.fd = -1; return rc; } const char *mgcp_client_remote_addr_str(struct mgcp_client *mgcp) { return mgcp->actual.remote_addr; } uint16_t mgcp_client_remote_port(struct mgcp_client *mgcp) { return mgcp->actual.remote_port; } /* Return the MGCP GW binary IPv4 address in network byte order. */ uint32_t mgcp_client_remote_addr_n(struct mgcp_client *mgcp) { return mgcp->remote_addr; } struct mgcp_response_pending * mgcp_client_pending_add( struct mgcp_client *mgcp, mgcp_trans_id_t trans_id, mgcp_response_cb_t response_cb, void *priv) { struct mgcp_response_pending *pending; pending = talloc_zero(mgcp, struct mgcp_response_pending); pending->trans_id = trans_id; pending->response_cb = response_cb; pending->priv = priv; llist_add_tail(&pending->entry, &mgcp->responses_pending); return pending; } /* Send the MGCP message in msg to the MGCP GW and handle a response with * response_cb. NOTE: the response_cb still needs to call * mgcp_response_parse_params(response) to get the parsed parameters -- to * potentially save some CPU cycles, only the head line has been parsed when * the response_cb is invoked. * Before the priv pointer becomes invalid, e.g. due to transaction timeout, * mgcp_client_cancel() needs to be called for this transaction. */ int mgcp_client_tx(struct mgcp_client *mgcp, struct msgb *msg, mgcp_response_cb_t response_cb, void *priv) { struct mgcp_response_pending *pending; mgcp_trans_id_t trans_id; int rc; trans_id = msg->cb[MSGB_CB_MGCP_TRANS_ID]; if (!trans_id) { LOGP(DLMGCP, LOGL_ERROR, "Unset transaction id in mgcp send request\n"); talloc_free(msg); return -EINVAL; } pending = mgcp_client_pending_add(mgcp, trans_id, response_cb, priv); if (msgb_l2len(msg) > 4096) { LOGP(DLMGCP, LOGL_ERROR, "Cannot send, MGCP message too large: %u\n", msgb_l2len(msg)); msgb_free(msg); rc = -EINVAL; goto mgcp_tx_error; } rc = osmo_wqueue_enqueue(&mgcp->wq, msg); if (rc) { LOGP(DLMGCP, LOGL_FATAL, "Could not queue message to MGCP GW\n"); msgb_free(msg); goto mgcp_tx_error; } else LOGP(DLMGCP, LOGL_INFO, "Queued %u bytes for MGCP GW\n", msgb_l2len(msg)); return 0; mgcp_tx_error: /* Pass NULL to response cb to indicate an error */ mgcp_client_handle_response(mgcp, pending, NULL); return -1; } /* Cancel a pending transaction. * Should a priv pointer passed to mgcp_client_tx() become invalid, this function must be called. In * practical terms, if the caller of mgcp_client_tx() wishes to tear down a transaction without having * received a response this function must be called. The trans_id can be obtained by calling * mgcp_msg_trans_id() on the msgb produced by mgcp_msg_gen(). */ int mgcp_client_cancel(struct mgcp_client *mgcp, mgcp_trans_id_t trans_id) { struct mgcp_response_pending *pending = mgcp_client_response_pending_get(mgcp, trans_id); if (!pending) { /* INFO is sufficient, it is not harmful to cancel a transaction twice. */ LOGP(DLMGCP, LOGL_INFO, "Cannot cancel, no such transaction: %u\n", trans_id); return -ENOENT; } LOGP(DLMGCP, LOGL_INFO, "Canceled transaction %u\n", trans_id); talloc_free(pending); return 0; /* We don't really need to clean up the wqueue: In all sane cases, the msgb has already been sent * out and is no longer in the wqueue. If it still is in the wqueue, then sending MGCP messages * per se is broken and the program should notice so by a full wqueue. Even if this was called * before we had a chance to send out the message and it is still going to be sent, we will just * ignore the reply to it later. Removing a msgb from the wqueue here would just introduce more * bug surface in terms of failing to update wqueue API's counters or some such. */ } static struct msgb *mgcp_msg_from_buf(mgcp_trans_id_t trans_id, const char *buf, int len) { struct msgb *msg; if (len > (4096 - 128)) { LOGP(DLMGCP, LOGL_ERROR, "Cannot send to MGCP GW:" " message too large: %d\n", len); return NULL; } msg = msgb_alloc_headroom(4096, 128, "MGCP tx"); OSMO_ASSERT(msg); char *dst = (char*)msgb_put(msg, len); memcpy(dst, buf, len); msg->l2h = msg->data; msg->cb[MSGB_CB_MGCP_TRANS_ID] = trans_id; return msg; } static struct msgb *mgcp_msg_from_str(mgcp_trans_id_t trans_id, const char *fmt, ...) { static char compose[4096 - 128]; va_list ap; int len; OSMO_ASSERT(fmt); va_start(ap, fmt); len = vsnprintf(compose, sizeof(compose), fmt, ap); va_end(ap); if (len >= sizeof(compose)) { LOGP(DLMGCP, LOGL_ERROR, "Message too large: trans_id=%u len=%d\n", trans_id, len); return NULL; } if (len < 1) { LOGP(DLMGCP, LOGL_ERROR, "Failed to compose message: trans_id=%u len=%d\n", trans_id, len); return NULL; } return mgcp_msg_from_buf(trans_id, compose, len); } static mgcp_trans_id_t mgcp_client_next_trans_id(struct mgcp_client *mgcp) { /* avoid zero trans_id to distinguish from unset trans_id */ if (!mgcp->next_trans_id) mgcp->next_trans_id ++; return mgcp->next_trans_id ++; } struct msgb *mgcp_msg_crcx(struct mgcp_client *mgcp, uint16_t rtp_endpoint, unsigned int call_id, enum mgcp_connection_mode mode) { mgcp_trans_id_t trans_id = mgcp_client_next_trans_id(mgcp); return mgcp_msg_from_str(trans_id, "CRCX %u %x@mgw MGCP 1.0\r\n" "C: %x\r\n" "L: p:20, a:AMR, nt:IN\r\n" "M: %s\r\n" , trans_id, rtp_endpoint, call_id, mgcp_client_cmode_name(mode)); } struct msgb *mgcp_msg_mdcx(struct mgcp_client *mgcp, uint16_t rtp_endpoint, const char *rtp_conn_addr, uint16_t rtp_port, enum mgcp_connection_mode mode) { mgcp_trans_id_t trans_id = mgcp_client_next_trans_id(mgcp); return mgcp_msg_from_str(trans_id, "MDCX %u %x@mgw MGCP 1.0\r\n" "M: %s\r\n" "\r\n" "c=IN IP4 %s\r\n" "m=audio %u RTP/AVP 255\r\n" , trans_id, rtp_endpoint, mgcp_client_cmode_name(mode), rtp_conn_addr, rtp_port); } struct msgb *mgcp_msg_dlcx(struct mgcp_client *mgcp, uint16_t rtp_endpoint, unsigned int call_id) { mgcp_trans_id_t trans_id = mgcp_client_next_trans_id(mgcp); return mgcp_msg_from_str(trans_id, "DLCX %u %x@mgw MGCP 1.0\r\n" "C: %x\r\n", trans_id, rtp_endpoint, call_id); } #define MGCP_CRCX_MANDATORY (MGCP_MSG_PRESENCE_ENDPOINT | \ MGCP_MSG_PRESENCE_CALL_ID | \ MGCP_MSG_PRESENCE_CONN_MODE) #define MGCP_MDCX_MANDATORY (MGCP_MSG_PRESENCE_ENDPOINT | \ MGCP_MSG_PRESENCE_CONN_ID) #define MGCP_DLCX_MANDATORY (MGCP_MSG_PRESENCE_ENDPOINT) #define MGCP_AUEP_MANDATORY (MGCP_MSG_PRESENCE_ENDPOINT) #define MGCP_RSIP_MANDATORY 0 /* none */ struct msgb *mgcp_msg_gen(struct mgcp_client *mgcp, struct mgcp_msg *mgcp_msg) { mgcp_trans_id_t trans_id = mgcp_client_next_trans_id(mgcp); uint32_t mandatory_mask; struct msgb *msg = msgb_alloc_headroom(4096, 128, "MGCP tx"); int rc = 0; msg->l2h = msg->data; msg->cb[MSGB_CB_MGCP_TRANS_ID] = trans_id; /* Add command verb */ switch (mgcp_msg->verb) { case MGCP_VERB_CRCX: mandatory_mask = MGCP_CRCX_MANDATORY; rc += msgb_printf(msg, "CRCX %u", trans_id); break; case MGCP_VERB_MDCX: mandatory_mask = MGCP_MDCX_MANDATORY; rc += msgb_printf(msg, "MDCX %u", trans_id); break; case MGCP_VERB_DLCX: mandatory_mask = MGCP_DLCX_MANDATORY; rc += msgb_printf(msg, "DLCX %u", trans_id); break; case MGCP_VERB_AUEP: mandatory_mask = MGCP_AUEP_MANDATORY; rc += msgb_printf(msg, "AUEP %u", trans_id); break; case MGCP_VERB_RSIP: mandatory_mask = MGCP_RSIP_MANDATORY; rc += msgb_printf(msg, "RSIP %u", trans_id); break; default: LOGP(DLMGCP, LOGL_ERROR, "Invalid command verb, can not generate MGCP message\n"); msgb_free(msg); return NULL; } /* Check if mandatory fields are missing */ if (!((mgcp_msg->presence & mandatory_mask) == mandatory_mask)) { LOGP(DLMGCP, LOGL_ERROR, "One or more missing mandatory fields, can not generate MGCP message\n"); msgb_free(msg); return NULL; } /* Add endpoint name */ if (mgcp_msg->presence & MGCP_MSG_PRESENCE_ENDPOINT) rc += msgb_printf(msg, " %s", mgcp_msg->endpoint); /* Add protocol version */ rc += msgb_printf(msg, " MGCP 1.0\r\n"); /* Add call id */ if (mgcp_msg->presence & MGCP_MSG_PRESENCE_CALL_ID) rc += msgb_printf(msg, "C: %x\r\n", mgcp_msg->call_id); /* Add connection id */ if (mgcp_msg->presence & MGCP_MSG_PRESENCE_CONN_ID) rc += msgb_printf(msg, "I: %s\r\n", mgcp_msg->conn_id); /* Add local connection options */ if (mgcp_msg->verb == MGCP_VERB_CRCX) rc += msgb_printf(msg, "L: p:20, a:AMR, nt:IN\r\n"); /* Add mode */ if (mgcp_msg->presence & MGCP_MSG_PRESENCE_CONN_MODE) rc += msgb_printf(msg, "M: %s\r\n", mgcp_client_cmode_name(mgcp_msg->conn_mode)); /* Add RTP address and port (SDP) */ if (mgcp_msg->presence & MGCP_MSG_PRESENCE_AUDIO_IP && mgcp_msg->presence & MGCP_MSG_PRESENCE_AUDIO_PORT) { rc += msgb_printf(msg, "\r\n"); rc += msgb_printf(msg, "c=IN IP4 %s\r\n", mgcp_msg->audio_ip); rc += msgb_printf(msg, "m=audio %u RTP/AVP 255\r\n", mgcp_msg->audio_port); } if (rc != 0) { LOGP(DLMGCP, LOGL_ERROR, "message buffer to small, can not generate MGCP message\n"); msgb_free(msg); msg = NULL; } return msg; } /* Retrieve the MGCP transaction ID from a msgb generated by mgcp_msg_gen() */ mgcp_trans_id_t mgcp_msg_trans_id(struct msgb *msg) { return (mgcp_trans_id_t)msg->cb[MSGB_CB_MGCP_TRANS_ID]; } struct mgcp_client_conf *mgcp_client_conf_actual(struct mgcp_client *mgcp) { return &mgcp->actual; } const struct value_string mgcp_client_connection_mode_strs[] = { { MGCP_CONN_NONE, "none" }, { MGCP_CONN_RECV_SEND, "sendrecv" }, { MGCP_CONN_SEND_ONLY, "sendonly" }, { MGCP_CONN_RECV_ONLY, "recvonly" }, { MGCP_CONN_LOOPBACK, "loopback" }, { 0, NULL } };