/* A Media Gateway Control Protocol Media Gateway: RFC 3435 */ /* The protocol implementation */ /* * (C) 2009-2012 by Holger Hans Peter Freyther * (C) 2009-2012 by On-Waves * 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 #define for_each_non_empty_line(line, save) \ for (line = strtok_r(NULL, "\r\n", &save); line;\ line = strtok_r(NULL, "\r\n", &save)) static void mgcp_rtp_end_reset(struct mgcp_rtp_end *end); struct mgcp_request { char *name; struct msgb *(*handle_request) (struct mgcp_parse_data *data); char *debug_name; }; #define MGCP_REQUEST(NAME, REQ, DEBUG_NAME) \ { .name = NAME, .handle_request = REQ, .debug_name = DEBUG_NAME }, static struct msgb *handle_audit_endpoint(struct mgcp_parse_data *data); static struct msgb *handle_create_con(struct mgcp_parse_data *data); static struct msgb *handle_delete_con(struct mgcp_parse_data *data); static struct msgb *handle_modify_con(struct mgcp_parse_data *data); static struct msgb *handle_rsip(struct mgcp_parse_data *data); static struct msgb *handle_noti_req(struct mgcp_parse_data *data); static void create_transcoder(struct mgcp_endpoint *endp); static void delete_transcoder(struct mgcp_endpoint *endp); static int setup_rtp_processing(struct mgcp_endpoint *endp); static int mgcp_analyze_header(struct mgcp_parse_data *parse, char *data); static int mgcp_check_param(const struct mgcp_endpoint *endp, const char *line) { const size_t line_len = strlen(line); if (line[0] != '\0' && line_len < 2) { LOGP(DMGCP, LOGL_ERROR, "Wrong MGCP option format: '%s' on 0x%x\n", line, ENDPOINT_NUMBER(endp)); return 0; } return 1; } static uint32_t generate_call_id(struct mgcp_config *cfg) { int i; /* use the call id */ ++cfg->last_call_id; /* handle wrap around */ if (cfg->last_call_id == CI_UNUSED) ++cfg->last_call_id; /* callstack can only be of size number_of_endpoints */ /* verify that the call id is free, e.g. in case of overrun */ for (i = 1; i < cfg->trunk.number_endpoints; ++i) if (cfg->trunk.endpoints[i].ci == cfg->last_call_id) return generate_call_id(cfg); return cfg->last_call_id; } /* * array of function pointers for handling various * messages. In the future this might be binary sorted * for performance reasons. */ static const struct mgcp_request mgcp_requests [] = { MGCP_REQUEST("AUEP", handle_audit_endpoint, "AuditEndpoint") MGCP_REQUEST("CRCX", handle_create_con, "CreateConnection") MGCP_REQUEST("DLCX", handle_delete_con, "DeleteConnection") MGCP_REQUEST("MDCX", handle_modify_con, "ModifiyConnection") MGCP_REQUEST("RQNT", handle_noti_req, "NotificationRequest") /* SPEC extension */ MGCP_REQUEST("RSIP", handle_rsip, "ReSetInProgress") }; static struct msgb *mgcp_msgb_alloc(void) { struct msgb *msg; msg = msgb_alloc_headroom(4096, 128, "MGCP msg"); if (!msg) LOGP(DMGCP, LOGL_ERROR, "Failed to msgb for MGCP data.\n"); return msg; } static struct msgb *do_retransmission(const struct mgcp_endpoint *endp) { struct msgb *msg = mgcp_msgb_alloc(); if (!msg) return NULL; msg->l2h = msgb_put(msg, strlen(endp->last_response)); memcpy(msg->l2h, endp->last_response, msgb_l2len(msg)); return msg; } static struct msgb *create_resp(struct mgcp_endpoint *endp, int code, const char *txt, const char *msg, const char *trans, const char *param, const char *sdp) { int len; struct msgb *res; res = mgcp_msgb_alloc(); if (!res) return NULL; len = snprintf((char *) res->data, 2048, "%d %s%s%s\r\n%s", code, trans, txt, param ? param : "", sdp ? sdp : ""); if (len < 0) { LOGP(DMGCP, LOGL_ERROR, "Failed to sprintf MGCP response.\n"); msgb_free(res); return NULL; } res->l2h = msgb_put(res, len); LOGP(DMGCP, LOGL_DEBUG, "Generated response: code: %d for '%s'\n", code, res->l2h); /* * Remember the last transmission per endpoint. */ if (endp) { struct mgcp_trunk_config *tcfg = endp->tcfg; talloc_free(endp->last_response); talloc_free(endp->last_trans); endp->last_trans = talloc_strdup(tcfg->endpoints, trans); endp->last_response = talloc_strndup(tcfg->endpoints, (const char *) res->l2h, msgb_l2len(res)); } return res; } static struct msgb *create_ok_resp_with_param(struct mgcp_endpoint *endp, int code, const char *msg, const char *trans, const char *param) { return create_resp(endp, code, " OK", msg, trans, param, NULL); } static struct msgb *create_ok_response(struct mgcp_endpoint *endp, int code, const char *msg, const char *trans) { return create_ok_resp_with_param(endp, code, msg, trans, NULL); } static struct msgb *create_err_response(struct mgcp_endpoint *endp, int code, const char *msg, const char *trans) { return create_resp(endp, code, " FAIL", msg, trans, NULL, NULL); } static int write_response_sdp(struct mgcp_endpoint *endp, char *sdp_record, size_t size, const char *addr) { const char *fmtp_extra; const char *audio_name; int payload_type; int len; int nchars; endp->cfg->get_net_downlink_format_cb(endp, &payload_type, &audio_name, &fmtp_extra); len = snprintf(sdp_record, size, "v=0\r\n" "o=- %u 23 IN IP4 %s\r\n" "s=-\r\n" "c=IN IP4 %s\r\n" "t=0 0\r\n", endp->ci, addr, addr); if (len < 0 || len >= size) goto buffer_too_small; if (payload_type >= 0) { nchars = snprintf(sdp_record + len, size - len, "m=audio %d RTP/AVP %d\r\n", endp->net_end.local_port, payload_type); if (nchars < 0 || nchars >= size - len) goto buffer_too_small; len += nchars; if (audio_name && endp->tcfg->audio_send_name) { nchars = snprintf(sdp_record + len, size - len, "a=rtpmap:%d %s\r\n", payload_type, audio_name); if (nchars < 0 || nchars >= size - len) goto buffer_too_small; len += nchars; } if (fmtp_extra) { nchars = snprintf(sdp_record + len, size - len, "%s\r\n", fmtp_extra); if (nchars < 0 || nchars >= size - len) goto buffer_too_small; len += nchars; } } if (endp->bts_end.packet_duration_ms > 0 && endp->tcfg->audio_send_ptime) { nchars = snprintf(sdp_record + len, size - len, "a=ptime:%d\r\n", endp->bts_end.packet_duration_ms); if (nchars < 0 || nchars >= size - len) goto buffer_too_small; len += nchars; } return len; buffer_too_small: LOGP(DMGCP, LOGL_ERROR, "SDP buffer too small: %zu (needed %d)\n", size, len); return -1; } static struct msgb *create_response_with_sdp(struct mgcp_endpoint *endp, const char *msg, const char *trans_id) { const char *addr = endp->cfg->local_ip; char sdp_record[4096]; int len; int nchars; char osmux_extension[strlen("\nX-Osmux: 255") + 1]; if (!addr) addr = mgcp_net_src_addr(endp); if (endp->osmux.state == OSMUX_STATE_ACTIVATING) sprintf(osmux_extension, "\nX-Osmux: %u", endp->osmux.cid); else osmux_extension[0] = '\0'; len = snprintf(sdp_record, sizeof(sdp_record), "I: %u%s\n\n", endp->ci, osmux_extension); if (len < 0) return NULL; nchars = write_response_sdp(endp, sdp_record + len, sizeof(sdp_record) - len - 1, addr); if (nchars < 0) return NULL; len += nchars; sdp_record[sizeof(sdp_record) - 1] = '\0'; return create_resp(endp, 200, " OK", msg, trans_id, NULL, sdp_record); } static void send_dummy(struct mgcp_endpoint *endp) { if (endp->osmux.state != OSMUX_STATE_DISABLED) osmux_send_dummy(endp); else mgcp_send_dummy(endp); } /* * handle incoming messages: * - this can be a command (four letters, space, transaction id) * - or a response (three numbers, space, transaction id) */ struct msgb *mgcp_handle_message(struct mgcp_config *cfg, struct msgb *msg) { struct mgcp_parse_data pdata; int i, code, handled = 0; struct msgb *resp = NULL; char *data; unsigned char *tail = msg->l2h + msgb_l2len(msg); /* char after l2 data */ if (msgb_l2len(msg) < 4) { LOGP(DMGCP, LOGL_ERROR, "msg too short: %d\n", msg->len); return NULL; } /* Ensure that the msg->l2h is NUL terminated. */ if (tail[-1] == '\0') /* nothing to do */; else if (msgb_tailroom(msg) > 0) tail[0] = '\0'; else if (tail[-1] == '\r' || tail[-1] == '\n') tail[-1] = '\0'; else { LOGP(DMGCP, LOGL_ERROR, "Cannot NUL terminate MGCP message: " "Length: %d, Buffer size: %d\n", msgb_l2len(msg), msg->data_len); return NULL; } /* attempt to treat it as a response */ if (sscanf((const char *)&msg->l2h[0], "%3d %*s", &code) == 1) { LOGP(DMGCP, LOGL_DEBUG, "Response: Code: %d\n", code); return NULL; } msg->l3h = &msg->l2h[4]; /* * Check for a duplicate message and respond. */ memset(&pdata, 0, sizeof(pdata)); pdata.cfg = cfg; data = strline_r((char *) msg->l3h, &pdata.save); pdata.found = mgcp_analyze_header(&pdata, data); if (pdata.endp && pdata.trans && pdata.endp->last_trans && strcmp(pdata.endp->last_trans, pdata.trans) == 0) { return do_retransmission(pdata.endp); } for (i = 0; i < ARRAY_SIZE(mgcp_requests); ++i) { if (strncmp(mgcp_requests[i].name, (const char *) &msg->l2h[0], 4) == 0) { handled = 1; resp = mgcp_requests[i].handle_request(&pdata); break; } } if (!handled) LOGP(DMGCP, LOGL_NOTICE, "MSG with type: '%.4s' not handled\n", &msg->l2h[0]); return resp; } /** * We have a null terminated string with the endpoint name here. We only * support two kinds. Simple ones as seen on the BSC level and the ones * seen on the trunk side. */ static struct mgcp_endpoint *find_e1_endpoint(struct mgcp_config *cfg, const char *mgcp) { char *rest = NULL; struct mgcp_trunk_config *tcfg; int trunk, endp; trunk = strtoul(mgcp + 6, &rest, 10); if (rest == NULL || rest[0] != '/' || trunk < 1) { LOGP(DMGCP, LOGL_ERROR, "Wrong trunk name '%s'\n", mgcp); return NULL; } endp = strtoul(rest + 1, &rest, 10); if (rest == NULL || rest[0] != '@') { LOGP(DMGCP, LOGL_ERROR, "Wrong endpoint name '%s'\n", mgcp); return NULL; } /* signalling is on timeslot 1 */ if (endp == 1) return NULL; tcfg = mgcp_trunk_num(cfg, trunk); if (!tcfg) { LOGP(DMGCP, LOGL_ERROR, "The trunk %d is not declared.\n", trunk); return NULL; } if (!tcfg->endpoints) { LOGP(DMGCP, LOGL_ERROR, "Endpoints of trunk %d not allocated.\n", trunk); return NULL; } if (endp < 1 || endp >= tcfg->number_endpoints) { LOGP(DMGCP, LOGL_ERROR, "Failed to find endpoint '%s'\n", mgcp); return NULL; } return &tcfg->endpoints[endp]; } static struct mgcp_endpoint *find_endpoint(struct mgcp_config *cfg, const char *mgcp) { char *endptr = NULL; unsigned int gw = INT_MAX; if (strncmp(mgcp, "ds/e1", 5) == 0) return find_e1_endpoint(cfg, mgcp); gw = strtoul(mgcp, &endptr, 16); if (gw > 0 && gw < cfg->trunk.number_endpoints && endptr[0] == '@') return &cfg->trunk.endpoints[gw]; LOGP(DMGCP, LOGL_ERROR, "Not able to find the endpoint: '%s'\n", mgcp); return NULL; } /** * @returns 0 when the status line was complete and transaction_id and * endp out parameters are set. */ static int mgcp_analyze_header(struct mgcp_parse_data *pdata, char *data) { int i = 0; char *elem, *save = NULL; pdata->trans = "000000"; for (elem = strtok_r(data, " ", &save); elem; elem = strtok_r(NULL, " ", &save)) { switch (i) { case 0: pdata->trans = elem; break; case 1: pdata->endp = find_endpoint(pdata->cfg, elem); if (!pdata->endp) { LOGP(DMGCP, LOGL_ERROR, "Unable to find Endpoint `%s'\n", elem); return -1; } break; case 2: if (strcmp("MGCP", elem)) { LOGP(DMGCP, LOGL_ERROR, "MGCP header parsing error\n"); return -1; } break; case 3: if (strcmp("1.0", elem)) { LOGP(DMGCP, LOGL_ERROR, "MGCP version `%s' " "not supported\n", elem); return -1; } break; } i++; } if (i != 4) { LOGP(DMGCP, LOGL_ERROR, "MGCP status line too short.\n"); pdata->trans = "000000"; pdata->endp = NULL; return -1; } return 0; } static int verify_call_id(const struct mgcp_endpoint *endp, const char *callid) { if (strcmp(endp->callid, callid) != 0) { LOGP(DMGCP, LOGL_ERROR, "CallIDs does not match on 0x%x. '%s' != '%s'\n", ENDPOINT_NUMBER(endp), endp->callid, callid); return -1; } return 0; } static int verify_ci(const struct mgcp_endpoint *endp, const char *_ci) { uint32_t ci = strtoul(_ci, NULL, 10); if (ci != endp->ci) { LOGP(DMGCP, LOGL_ERROR, "ConnectionIdentifiers do not match on 0x%x. %u != %s\n", ENDPOINT_NUMBER(endp), endp->ci, _ci); return -1; } return 0; } static struct msgb *handle_audit_endpoint(struct mgcp_parse_data *p) { if (p->found != 0) return create_err_response(NULL, 500, "AUEP", p->trans); else return create_ok_response(p->endp, 200, "AUEP", p->trans); } static int parse_conn_mode(const char *msg, struct mgcp_endpoint *endp) { int ret = 0; if (strcmp(msg, "recvonly") == 0) endp->conn_mode = MGCP_CONN_RECV_ONLY; else if (strcmp(msg, "sendrecv") == 0) endp->conn_mode = MGCP_CONN_RECV_SEND; else if (strcmp(msg, "sendonly") == 0) endp->conn_mode = MGCP_CONN_SEND_ONLY; else if (strcmp(msg, "loopback") == 0) endp->conn_mode = MGCP_CONN_LOOPBACK; else { LOGP(DMGCP, LOGL_ERROR, "Unknown connection mode: '%s'\n", msg); ret = -1; } endp->net_end.output_enabled = endp->conn_mode & MGCP_CONN_SEND_ONLY ? 1 : 0; endp->bts_end.output_enabled = endp->conn_mode & MGCP_CONN_RECV_ONLY ? 1 : 0; return ret; } static int allocate_port(struct mgcp_endpoint *endp, struct mgcp_rtp_end *end, struct mgcp_port_range *range, int (*alloc)(struct mgcp_endpoint *endp, int port)) { int i; if (range->mode == PORT_ALLOC_STATIC) { end->local_alloc = PORT_ALLOC_STATIC; return 0; } /* attempt to find a port */ for (i = 0; i < 200; ++i) { int rc; if (range->last_port >= range->range_end) range->last_port = range->range_start; rc = alloc(endp, range->last_port); range->last_port += 2; if (rc == 0) { end->local_alloc = PORT_ALLOC_DYNAMIC; return 0; } } LOGP(DMGCP, LOGL_ERROR, "Allocating a RTP/RTCP port failed 200 times 0x%x.\n", ENDPOINT_NUMBER(endp)); return -1; } static int allocate_ports(struct mgcp_endpoint *endp) { if (allocate_port(endp, &endp->net_end, &endp->cfg->net_ports, mgcp_bind_net_rtp_port) != 0) return -1; if (allocate_port(endp, &endp->bts_end, &endp->cfg->bts_ports, mgcp_bind_bts_rtp_port) != 0) { mgcp_rtp_end_reset(&endp->net_end); return -1; } if (endp->cfg->transcoder_ip && endp->tcfg->trunk_type == MGCP_TRUNK_VIRTUAL) { if (allocate_port(endp, &endp->trans_net, &endp->cfg->transcoder_ports, mgcp_bind_trans_net_rtp_port) != 0) { mgcp_rtp_end_reset(&endp->net_end); mgcp_rtp_end_reset(&endp->bts_end); return -1; } if (allocate_port(endp, &endp->trans_bts, &endp->cfg->transcoder_ports, mgcp_bind_trans_bts_rtp_port) != 0) { mgcp_rtp_end_reset(&endp->net_end); mgcp_rtp_end_reset(&endp->bts_end); mgcp_rtp_end_reset(&endp->trans_net); return -1; } /* remember that we have set up transcoding */ endp->type = MGCP_RTP_TRANSCODED; } return 0; } /* Set the LCO from a string (see RFC 3435). * The string is stored in the 'string' field. A NULL string is handled excatly * like an empty string, the 'string' field is never NULL after this function * has been called. */ static void set_local_cx_options(void *ctx, struct mgcp_lco *lco, const char *options) { char *p_opt, *a_opt; char codec[9]; talloc_free(lco->string); talloc_free(lco->codec); lco->codec = NULL; lco->pkt_period_min = lco->pkt_period_max = 0; lco->string = talloc_strdup(ctx, options ? options : ""); p_opt = strstr(lco->string, "p:"); if (p_opt && sscanf(p_opt, "p:%d-%d", &lco->pkt_period_min, &lco->pkt_period_max) == 1) lco->pkt_period_max = lco->pkt_period_min; a_opt = strstr(lco->string, "a:"); if (a_opt && sscanf(a_opt, "a:%8[^,]", codec) == 1) lco->codec = talloc_strdup(ctx, codec); } void mgcp_rtp_end_config(struct mgcp_endpoint *endp, int expect_ssrc_change, struct mgcp_rtp_end *rtp) { struct mgcp_trunk_config *tcfg = endp->tcfg; int patch_ssrc = expect_ssrc_change && tcfg->force_constant_ssrc; rtp->force_aligned_timing = tcfg->force_aligned_timing; rtp->force_constant_ssrc = patch_ssrc ? 1 : 0; LOGP(DMGCP, LOGL_DEBUG, "Configuring RTP endpoint: local port %d%s%s\n", ntohs(rtp->rtp_port), rtp->force_aligned_timing ? ", force constant timing" : "", rtp->force_constant_ssrc ? ", force constant ssrc" : ""); } uint32_t mgcp_rtp_packet_duration(struct mgcp_endpoint *endp, struct mgcp_rtp_end *rtp) { int f = 0; /* Get the number of frames per channel and packet */ if (rtp->frames_per_packet) f = rtp->frames_per_packet; else if (rtp->packet_duration_ms && rtp->codec.frame_duration_num) { int den = 1000 * rtp->codec.frame_duration_num; f = (rtp->packet_duration_ms * rtp->codec.frame_duration_den + den/2) / den; } return rtp->codec.rate * f * rtp->codec.frame_duration_num / rtp->codec.frame_duration_den; } static int mgcp_parse_osmux_cid(const char *line) { int osmux_cid; if (sscanf(line + 2, "Osmux: %u", &osmux_cid) != 1) return -1; if (osmux_cid > OSMUX_CID_MAX) { LOGP(DMGCP, LOGL_ERROR, "Osmux ID too large: %u > %u\n", osmux_cid, OSMUX_CID_MAX); return -1; } LOGP(DMGCP, LOGL_DEBUG, "bsc-nat offered Osmux CID %u\n", osmux_cid); return osmux_cid; } static int mgcp_osmux_setup(struct mgcp_endpoint *endp, const char *line) { if (!endp->cfg->osmux_init) { if (osmux_init(OSMUX_ROLE_BSC, endp->cfg) < 0) { LOGP(DMGCP, LOGL_ERROR, "Cannot init OSMUX\n"); return -1; } LOGP(DMGCP, LOGL_NOTICE, "OSMUX socket has been set up\n"); } return mgcp_parse_osmux_cid(line); } static struct msgb *handle_create_con(struct mgcp_parse_data *p) { struct mgcp_trunk_config *tcfg; struct mgcp_endpoint *endp = p->endp; int error_code = 400; const char *local_options = NULL; const char *callid = NULL; const char *mode = NULL; char *line; int have_sdp = 0, osmux_cid = -1; if (p->found != 0) return create_err_response(NULL, 510, "CRCX", p->trans); /* parse CallID C: and LocalParameters L: */ for_each_line(line, p->save) { if (!mgcp_check_param(endp, line)) continue; switch (line[0]) { case 'L': local_options = (const char *) line + 3; break; case 'C': callid = (const char *) line + 3; break; case 'M': mode = (const char *) line + 3; break; case 'X': /* Osmux is not enabled in this bsc, ignore it so the * bsc-nat knows that we don't want to use Osmux. */ if (!p->endp->cfg->osmux) break; if (strncmp("Osmux: ", line + 2, strlen("Osmux: ")) == 0) osmux_cid = mgcp_osmux_setup(endp, line); break; case '\0': have_sdp = 1; goto mgcp_header_done; default: LOGP(DMGCP, LOGL_NOTICE, "Unhandled option: '%c'/%d on 0x%x\n", *line, *line, ENDPOINT_NUMBER(endp)); break; } } mgcp_header_done: tcfg = p->endp->tcfg; /* Check required data */ if (!callid || !mode) { LOGP(DMGCP, LOGL_ERROR, "Missing callid and mode in CRCX on 0x%x\n", ENDPOINT_NUMBER(endp)); return create_err_response(endp, 400, "CRCX", p->trans); } if (endp->allocated) { if (tcfg->force_realloc) { LOGP(DMGCP, LOGL_NOTICE, "Endpoint 0x%x already allocated. Forcing realloc.\n", ENDPOINT_NUMBER(endp)); mgcp_release_endp(endp); if (p->cfg->realloc_cb) p->cfg->realloc_cb(tcfg, ENDPOINT_NUMBER(endp)); } else { LOGP(DMGCP, LOGL_ERROR, "Endpoint is already used. 0x%x\n", ENDPOINT_NUMBER(endp)); return create_err_response(endp, 400, "CRCX", p->trans); } } /* copy some parameters */ endp->callid = talloc_strdup(tcfg->endpoints, callid); set_local_cx_options(endp->tcfg->endpoints, &endp->local_options, local_options); if (parse_conn_mode(mode, endp) != 0) { error_code = 517; goto error2; } /* initialize */ endp->net_end.rtp_port = endp->net_end.rtcp_port = endp->bts_end.rtp_port = endp->bts_end.rtcp_port = 0; mgcp_rtp_end_config(endp, 0, &endp->net_end); mgcp_rtp_end_config(endp, 0, &endp->bts_end); /* set to zero until we get the info */ memset(&endp->net_end.addr, 0, sizeof(endp->net_end.addr)); /* bind to the port now */ if (allocate_ports(endp) != 0) goto error2; /* assign a local call identifier or fail */ endp->ci = generate_call_id(p->cfg); if (endp->ci == CI_UNUSED) goto error2; /* Annotate Osmux circuit ID and set it to activating state until this * is fully set up from the dummy load. */ endp->osmux.state = OSMUX_STATE_DISABLED; if (osmux_cid >= 0) { endp->osmux.cid = osmux_cid; endp->osmux.state = OSMUX_STATE_ACTIVATING; } else if(endp->cfg->osmux == OSMUX_USAGE_ONLY) { LOGP(DMGCP, LOGL_ERROR, "Osmux only and no osmux offered on 0x%x\n", ENDPOINT_NUMBER(endp)); goto error2; } endp->allocated = 1; /* set up RTP media parameters */ mgcp_set_audio_info(p->cfg, &endp->bts_end.codec, tcfg->audio_payload, tcfg->audio_name); endp->bts_end.fmtp_extra = talloc_strdup(tcfg->endpoints, tcfg->audio_fmtp_extra); if (have_sdp) mgcp_parse_sdp_data(endp, &endp->net_end, p); else if (endp->local_options.codec) mgcp_set_audio_info(p->cfg, &endp->net_end.codec, PTYPE_UNDEFINED, endp->local_options.codec); if (p->cfg->bts_force_ptime) { endp->bts_end.packet_duration_ms = p->cfg->bts_force_ptime; endp->bts_end.force_output_ptime = 1; } if (setup_rtp_processing(endp) != 0) goto error2; /* policy CB */ if (p->cfg->policy_cb) { int rc; rc = p->cfg->policy_cb(tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_CRCX, p->trans); switch (rc) { case MGCP_POLICY_REJECT: LOGP(DMGCP, LOGL_NOTICE, "CRCX rejected by policy on 0x%x\n", ENDPOINT_NUMBER(endp)); mgcp_release_endp(endp); return create_err_response(endp, 400, "CRCX", p->trans); break; case MGCP_POLICY_DEFER: /* stop processing */ create_transcoder(endp); return NULL; break; case MGCP_POLICY_CONT: /* just continue */ break; } } LOGP(DMGCP, LOGL_DEBUG, "Creating endpoint on: 0x%x CI: %u port: %u/%u\n", ENDPOINT_NUMBER(endp), endp->ci, endp->net_end.local_port, endp->bts_end.local_port); if (p->cfg->change_cb) p->cfg->change_cb(tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_CRCX); if (endp->conn_mode & MGCP_CONN_RECV_ONLY && tcfg->keepalive_interval != 0) { send_dummy(endp); } create_transcoder(endp); return create_response_with_sdp(endp, "CRCX", p->trans); error2: mgcp_release_endp(endp); LOGP(DMGCP, LOGL_NOTICE, "Resource error on 0x%x\n", ENDPOINT_NUMBER(endp)); return create_err_response(endp, error_code, "CRCX", p->trans); } static struct msgb *handle_modify_con(struct mgcp_parse_data *p) { struct mgcp_endpoint *endp = p->endp; int error_code = 500; int silent = 0; int have_sdp = 0; char *line; const char *local_options = NULL; if (p->found != 0) return create_err_response(NULL, 510, "MDCX", p->trans); if (endp->ci == CI_UNUSED) { LOGP(DMGCP, LOGL_ERROR, "Endpoint is not " "holding a connection. 0x%x\n", ENDPOINT_NUMBER(endp)); return create_err_response(endp, 400, "MDCX", p->trans); } for_each_line(line, p->save) { if (!mgcp_check_param(endp, line)) continue; switch (line[0]) { case 'C': { if (verify_call_id(endp, line + 3) != 0) goto error3; break; } case 'I': { if (verify_ci(endp, line + 3) != 0) goto error3; break; } case 'L': local_options = (const char *) line + 3; break; case 'M': if (parse_conn_mode(line + 3, endp) != 0) { error_code = 517; goto error3; } endp->orig_mode = endp->conn_mode; break; case 'Z': silent = strcmp("noanswer", line + 3) == 0; break; case '\0': /* SDP file begins */ have_sdp = 1; mgcp_parse_sdp_data(endp, &endp->net_end, p); /* This will exhaust p->save, so the loop will * terminate next time. */ break; default: LOGP(DMGCP, LOGL_NOTICE, "Unhandled MGCP option: '%c'/%d on 0x%x\n", line[0], line[0], ENDPOINT_NUMBER(endp)); break; } } set_local_cx_options(endp->tcfg->endpoints, &endp->local_options, local_options); if (!have_sdp && endp->local_options.codec) mgcp_set_audio_info(p->cfg, &endp->net_end.codec, PTYPE_UNDEFINED, endp->local_options.codec); if (setup_rtp_processing(endp) != 0) goto error3; /* policy CB */ if (p->cfg->policy_cb) { int rc; rc = p->cfg->policy_cb(endp->tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_MDCX, p->trans); switch (rc) { case MGCP_POLICY_REJECT: LOGP(DMGCP, LOGL_NOTICE, "MDCX rejected by policy on 0x%x\n", ENDPOINT_NUMBER(endp)); if (silent) goto out_silent; return create_err_response(endp, 400, "MDCX", p->trans); break; case MGCP_POLICY_DEFER: /* stop processing */ return NULL; break; case MGCP_POLICY_CONT: /* just continue */ break; } } mgcp_rtp_end_config(endp, 1, &endp->net_end); mgcp_rtp_end_config(endp, 1, &endp->bts_end); /* modify */ LOGP(DMGCP, LOGL_DEBUG, "Modified endpoint on: 0x%x Server: %s:%u\n", ENDPOINT_NUMBER(endp), inet_ntoa(endp->net_end.addr), ntohs(endp->net_end.rtp_port)); if (p->cfg->change_cb) p->cfg->change_cb(endp->tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_MDCX); if (endp->conn_mode & MGCP_CONN_RECV_ONLY && endp->tcfg->keepalive_interval != 0) send_dummy(endp); if (silent) goto out_silent; return create_response_with_sdp(endp, "MDCX", p->trans); error3: return create_err_response(endp, error_code, "MDCX", p->trans); out_silent: return NULL; } static struct msgb *handle_delete_con(struct mgcp_parse_data *p) { struct mgcp_endpoint *endp = p->endp; int error_code = 400; int silent = 0; char *line; char stats[1048]; if (p->found != 0) return create_err_response(NULL, error_code, "DLCX", p->trans); if (!p->endp->allocated) { LOGP(DMGCP, LOGL_ERROR, "Endpoint is not used. 0x%x\n", ENDPOINT_NUMBER(endp)); return create_err_response(endp, 400, "DLCX", p->trans); } for_each_line(line, p->save) { if (!mgcp_check_param(endp, line)) continue; switch (line[0]) { case 'C': if (verify_call_id(endp, line + 3) != 0) goto error3; break; case 'I': if (verify_ci(endp, line + 3) != 0) goto error3; break; case 'Z': silent = strcmp("noanswer", line + 3) == 0; break; default: LOGP(DMGCP, LOGL_NOTICE, "Unhandled option: '%c'/%d on 0x%x\n", line[0], line[0], ENDPOINT_NUMBER(endp)); break; } } /* policy CB */ if (p->cfg->policy_cb) { int rc; rc = p->cfg->policy_cb(endp->tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_DLCX, p->trans); switch (rc) { case MGCP_POLICY_REJECT: LOGP(DMGCP, LOGL_NOTICE, "DLCX rejected by policy on 0x%x\n", ENDPOINT_NUMBER(endp)); if (silent) goto out_silent; return create_err_response(endp, 400, "DLCX", p->trans); break; case MGCP_POLICY_DEFER: /* stop processing */ delete_transcoder(endp); return NULL; break; case MGCP_POLICY_CONT: /* just continue */ break; } } /* free the connection */ LOGP(DMGCP, LOGL_DEBUG, "Deleted endpoint on: 0x%x Server: %s:%u\n", ENDPOINT_NUMBER(endp), inet_ntoa(endp->net_end.addr), ntohs(endp->net_end.rtp_port)); /* save the statistics of the current call */ mgcp_format_stats(endp, stats, sizeof(stats)); delete_transcoder(endp); mgcp_release_endp(endp); if (p->cfg->change_cb) p->cfg->change_cb(endp->tcfg, ENDPOINT_NUMBER(endp), MGCP_ENDP_DLCX); if (silent) goto out_silent; return create_ok_resp_with_param(endp, 250, "DLCX", p->trans, stats); error3: return create_err_response(endp, error_code, "DLCX", p->trans); out_silent: return NULL; } static struct msgb *handle_rsip(struct mgcp_parse_data *p) { if (p->found != 0) { LOGP(DMGCP, LOGL_ERROR, "Failed to find the endpoint.\n"); return NULL; } if (p->cfg->reset_cb) p->cfg->reset_cb(p->endp->tcfg); return NULL; } static char extract_tone(const char *line) { const char *str = strstr(line, "D/"); if (!str) return CHAR_MAX; return str[2]; } /* * This can request like DTMF detection and forward, fax detection... it * can also request when the notification should be send and such. We don't * do this right now. */ static struct msgb *handle_noti_req(struct mgcp_parse_data *p) { int res = 0; char *line; char tone = CHAR_MAX; if (p->found != 0) return create_err_response(NULL, 400, "RQNT", p->trans); for_each_line(line, p->save) { switch (line[0]) { case 'S': tone = extract_tone(line); break; } } /* we didn't see a signal request with a tone */ if (tone == CHAR_MAX) return create_ok_response(p->endp, 200, "RQNT", p->trans); if (p->cfg->rqnt_cb) res = p->cfg->rqnt_cb(p->endp, tone); return res == 0 ? create_ok_response(p->endp, 200, "RQNT", p->trans) : create_err_response(p->endp, res, "RQNT", p->trans); } static void mgcp_keepalive_timer_cb(void *_tcfg) { struct mgcp_trunk_config *tcfg = _tcfg; int i; LOGP(DMGCP, LOGL_DEBUG, "Triggered trunk %d keepalive timer.\n", tcfg->trunk_nr); if (tcfg->keepalive_interval <= 0) return; for (i = 1; i < tcfg->number_endpoints; ++i) { struct mgcp_endpoint *endp = &tcfg->endpoints[i]; if (endp->conn_mode == MGCP_CONN_RECV_ONLY) send_dummy(endp); } LOGP(DMGCP, LOGL_DEBUG, "Rescheduling trunk %d keepalive timer.\n", tcfg->trunk_nr); osmo_timer_schedule(&tcfg->keepalive_timer, tcfg->keepalive_interval, 0); } void mgcp_trunk_set_keepalive(struct mgcp_trunk_config *tcfg, int interval) { tcfg->keepalive_interval = interval; tcfg->keepalive_timer.data = tcfg; tcfg->keepalive_timer.cb = mgcp_keepalive_timer_cb; if (interval <= 0) osmo_timer_del(&tcfg->keepalive_timer); else osmo_timer_schedule(&tcfg->keepalive_timer, tcfg->keepalive_interval, 0); } struct mgcp_config *mgcp_config_alloc(void) { struct mgcp_config *cfg; cfg = talloc_zero(NULL, struct mgcp_config); if (!cfg) { LOGP(DMGCP, LOGL_FATAL, "Failed to allocate config.\n"); return NULL; } cfg->source_port = 2427; cfg->source_addr = talloc_strdup(cfg, "0.0.0.0"); cfg->osmux_addr = talloc_strdup(cfg, "0.0.0.0"); cfg->transcoder_remote_base = 4000; cfg->bts_ports.base_port = RTP_PORT_DEFAULT; cfg->net_ports.base_port = RTP_PORT_NET_DEFAULT; cfg->rtp_processing_cb = &mgcp_rtp_processing_default; cfg->setup_rtp_processing_cb = &mgcp_setup_rtp_processing_default; cfg->get_net_downlink_format_cb = &mgcp_get_net_downlink_format_default; /* default trunk handling */ cfg->trunk.cfg = cfg; cfg->trunk.trunk_nr = 0; cfg->trunk.trunk_type = MGCP_TRUNK_VIRTUAL; cfg->trunk.audio_name = talloc_strdup(cfg, "AMR/8000"); cfg->trunk.audio_payload = 126; cfg->trunk.audio_send_ptime = 1; cfg->trunk.audio_send_name = 1; cfg->trunk.omit_rtcp = 0; mgcp_trunk_set_keepalive(&cfg->trunk, MGCP_KEEPALIVE_ONCE); INIT_LLIST_HEAD(&cfg->trunks); return cfg; } struct mgcp_trunk_config *mgcp_trunk_alloc(struct mgcp_config *cfg, int nr) { struct mgcp_trunk_config *trunk; trunk = talloc_zero(cfg, struct mgcp_trunk_config); if (!trunk) { LOGP(DMGCP, LOGL_ERROR, "Failed to allocate.\n"); return NULL; } trunk->cfg = cfg; trunk->trunk_type = MGCP_TRUNK_E1; trunk->trunk_nr = nr; trunk->audio_name = talloc_strdup(cfg, "AMR/8000"); trunk->audio_payload = 126; trunk->audio_send_ptime = 1; trunk->audio_send_name = 1; trunk->number_endpoints = 33; trunk->omit_rtcp = 0; mgcp_trunk_set_keepalive(trunk, MGCP_KEEPALIVE_ONCE); llist_add_tail(&trunk->entry, &cfg->trunks); return trunk; } struct mgcp_trunk_config *mgcp_trunk_num(struct mgcp_config *cfg, int index) { struct mgcp_trunk_config *trunk; llist_for_each_entry(trunk, &cfg->trunks, entry) if (trunk->trunk_nr == index) return trunk; return NULL; } static void mgcp_rtp_codec_reset(struct mgcp_rtp_codec *codec) { codec->payload_type = -1; talloc_free(codec->subtype_name); codec->subtype_name = NULL; talloc_free(codec->audio_name); codec->audio_name = NULL; codec->frame_duration_num = DEFAULT_RTP_AUDIO_FRAME_DUR_NUM; codec->frame_duration_den = DEFAULT_RTP_AUDIO_FRAME_DUR_DEN; codec->rate = DEFAULT_RTP_AUDIO_DEFAULT_RATE; codec->channels = DEFAULT_RTP_AUDIO_DEFAULT_CHANNELS; } static void mgcp_rtp_end_reset(struct mgcp_rtp_end *end) { if (end->local_alloc == PORT_ALLOC_DYNAMIC) { mgcp_free_rtp_port(end); end->local_port = 0; } end->packets = 0; end->octets = 0; end->dropped_packets = 0; memset(&end->addr, 0, sizeof(end->addr)); end->rtp_port = end->rtcp_port = 0; end->local_alloc = -1; talloc_free(end->fmtp_extra); end->fmtp_extra = NULL; talloc_free(end->rtp_process_data); end->rtp_process_data = NULL; /* Set default values */ end->frames_per_packet = 0; /* unknown */ end->packet_duration_ms = DEFAULT_RTP_AUDIO_PACKET_DURATION_MS; end->output_enabled = 0; mgcp_rtp_codec_reset(&end->codec); mgcp_rtp_codec_reset(&end->alt_codec); } static void mgcp_rtp_end_init(struct mgcp_rtp_end *end) { mgcp_rtp_end_reset(end); end->rtp.fd = -1; end->rtcp.fd = -1; } int mgcp_endpoints_allocate(struct mgcp_trunk_config *tcfg) { int i; /* Initialize all endpoints */ tcfg->endpoints = _talloc_zero_array(tcfg->cfg, sizeof(struct mgcp_endpoint), tcfg->number_endpoints, "endpoints"); if (!tcfg->endpoints) return -1; for (i = 0; i < tcfg->number_endpoints; ++i) { tcfg->endpoints[i].osmux.allocated_cid = -1; tcfg->endpoints[i].ci = CI_UNUSED; tcfg->endpoints[i].cfg = tcfg->cfg; tcfg->endpoints[i].tcfg = tcfg; mgcp_rtp_end_init(&tcfg->endpoints[i].net_end); mgcp_rtp_end_init(&tcfg->endpoints[i].bts_end); mgcp_rtp_end_init(&tcfg->endpoints[i].trans_net); mgcp_rtp_end_init(&tcfg->endpoints[i].trans_bts); } return 0; } void mgcp_release_endp(struct mgcp_endpoint *endp) { LOGP(DMGCP, LOGL_DEBUG, "Releasing endpoint on: 0x%x\n", ENDPOINT_NUMBER(endp)); endp->ci = CI_UNUSED; endp->allocated = 0; talloc_free(endp->callid); endp->callid = NULL; talloc_free(endp->local_options.string); endp->local_options.string = NULL; talloc_free(endp->local_options.codec); endp->local_options.codec = NULL; mgcp_rtp_end_reset(&endp->bts_end); mgcp_rtp_end_reset(&endp->net_end); mgcp_rtp_end_reset(&endp->trans_net); mgcp_rtp_end_reset(&endp->trans_bts); endp->type = MGCP_RTP_DEFAULT; memset(&endp->net_state, 0, sizeof(endp->net_state)); memset(&endp->bts_state, 0, sizeof(endp->bts_state)); endp->conn_mode = endp->orig_mode = MGCP_CONN_NONE; if (endp->osmux.state == OSMUX_STATE_ENABLED) osmux_disable_endpoint(endp); /* release the circuit ID if it had been allocated */ osmux_release_cid(endp); memset(&endp->taps, 0, sizeof(endp->taps)); } void mgcp_initialize_endp(struct mgcp_endpoint *endp) { return mgcp_release_endp(endp); } static int send_trans(struct mgcp_config *cfg, const char *buf, int len) { struct sockaddr_in addr; memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_addr = cfg->transcoder_in; addr.sin_port = htons(2427); return sendto(cfg->gw_fd.bfd.fd, buf, len, 0, (struct sockaddr *) &addr, sizeof(addr)); } static void send_msg(struct mgcp_endpoint *endp, int endpoint, int port, const char *msg, const char *mode) { char buf[2096]; int len; int nchars; /* hardcoded to AMR right now, we do not know the real type at this point */ len = snprintf(buf, sizeof(buf), "%s 42 %x@mgw MGCP 1.0\r\n" "C: 4256\r\n" "M: %s\r\n" "\r\n", msg, endpoint, mode); if (len < 0) return; nchars = write_response_sdp(endp, buf + len, sizeof(buf) + len - 1, NULL); if (nchars < 0) return; len += nchars; buf[sizeof(buf) - 1] = '\0'; send_trans(endp->cfg, buf, len); } static void send_dlcx(struct mgcp_endpoint *endp, int endpoint) { char buf[2096]; int len; len = snprintf(buf, sizeof(buf), "DLCX 43 %x@mgw MGCP 1.0\r\n" "C: 4256\r\n" , endpoint); if (len < 0) return; buf[sizeof(buf) - 1] = '\0'; send_trans(endp->cfg, buf, len); } static int send_agent(struct mgcp_config *cfg, const char *buf, int len) { return write(cfg->gw_fd.bfd.fd, buf, len); } int mgcp_send_reset_all(struct mgcp_config *cfg) { static const char mgcp_reset[] = { "RSIP 1 *@mgw MGCP 1.0\r\n" }; return send_agent(cfg, mgcp_reset, sizeof mgcp_reset -1); } int mgcp_send_reset_ep(struct mgcp_endpoint *endp, int endpoint) { char buf[128]; int len; len = snprintf(buf, sizeof(buf), "RSIP 39 %x@mgw MGCP 1.0\r\n" , endpoint); if (len < 0) return len; buf[sizeof(buf) - 1] = '\0'; return send_agent(endp->cfg, buf, len); } static int setup_rtp_processing(struct mgcp_endpoint *endp) { int rc = 0; struct mgcp_config *cfg = endp->cfg; if (endp->type != MGCP_RTP_DEFAULT) return 0; if (endp->conn_mode == MGCP_CONN_LOOPBACK) return 0; if (endp->conn_mode & MGCP_CONN_SEND_ONLY) rc |= cfg->setup_rtp_processing_cb(endp, &endp->net_end, &endp->bts_end); else rc |= cfg->setup_rtp_processing_cb(endp, &endp->net_end, NULL); if (endp->conn_mode & MGCP_CONN_RECV_ONLY) rc |= cfg->setup_rtp_processing_cb(endp, &endp->bts_end, &endp->net_end); else rc |= cfg->setup_rtp_processing_cb(endp, &endp->bts_end, NULL); return rc; } static void create_transcoder(struct mgcp_endpoint *endp) { int port; int in_endp = ENDPOINT_NUMBER(endp); int out_endp = endp_back_channel(in_endp); if (endp->type != MGCP_RTP_TRANSCODED) return; send_msg(endp, in_endp, endp->trans_bts.local_port, "CRCX", "sendrecv"); send_msg(endp, in_endp, endp->trans_bts.local_port, "MDCX", "sendrecv"); send_msg(endp, out_endp, endp->trans_net.local_port, "CRCX", "sendrecv"); send_msg(endp, out_endp, endp->trans_net.local_port, "MDCX", "sendrecv"); port = rtp_calculate_port(in_endp, endp->cfg->transcoder_remote_base); endp->trans_bts.rtp_port = htons(port); endp->trans_bts.rtcp_port = htons(port + 1); port = rtp_calculate_port(out_endp, endp->cfg->transcoder_remote_base); endp->trans_net.rtp_port = htons(port); endp->trans_net.rtcp_port = htons(port + 1); } static void delete_transcoder(struct mgcp_endpoint *endp) { int in_endp = ENDPOINT_NUMBER(endp); int out_endp = endp_back_channel(in_endp); if (endp->type != MGCP_RTP_TRANSCODED) return; send_dlcx(endp, in_endp); send_dlcx(endp, out_endp); } int mgcp_reset_transcoder(struct mgcp_config *cfg) { if (!cfg->transcoder_ip) return 0; static const char mgcp_reset[] = { "RSIP 1 13@mgw MGCP 1.0\r\n" }; return send_trans(cfg, mgcp_reset, sizeof mgcp_reset -1); } void mgcp_format_stats(struct mgcp_endpoint *endp, char *msg, size_t size) { uint32_t expected, jitter; int ploss; int nchars; mgcp_state_calc_loss(&endp->net_state, &endp->net_end, &expected, &ploss); jitter = mgcp_state_calc_jitter(&endp->net_state); nchars = snprintf(msg, size, "\r\nP: PS=%u, OS=%u, PR=%u, OR=%u, PL=%d, JI=%u", endp->bts_end.packets, endp->bts_end.octets, endp->net_end.packets, endp->net_end.octets, ploss, jitter); if (nchars < 0 || nchars >= size) goto truncate; msg += nchars; size -= nchars; /* Error Counter */ nchars = snprintf(msg, size, "\r\nX-Osmo-CP: EC TIS=%u, TOS=%u, TIR=%u, TOR=%u", endp->net_state.in_stream.err_ts_counter, endp->net_state.out_stream.err_ts_counter, endp->bts_state.in_stream.err_ts_counter, endp->bts_state.out_stream.err_ts_counter); if (nchars < 0 || nchars >= size) goto truncate; msg += nchars; size -= nchars; if (endp->osmux.state == OSMUX_STATE_ENABLED) { snprintf(msg, size, "\r\nX-Osmux-ST: CR=%u, BR=%u", endp->osmux.stats.chunks, endp->osmux.stats.octets); } truncate: msg[size - 1] = '\0'; } int mgcp_parse_stats(struct msgb *msg, uint32_t *ps, uint32_t *os, uint32_t *pr, uint32_t *_or, int *loss, uint32_t *jitter) { char *line, *save; int rc; /* initialize with bad values */ *ps = *os = *pr = *_or = *jitter = UINT_MAX; *loss = INT_MAX; line = strtok_r((char *) msg->l2h, "\r\n", &save); if (!line) return -1; /* this can only parse the message that is created above... */ for_each_non_empty_line(line, save) { switch (line[0]) { case 'P': rc = sscanf(line, "P: PS=%u, OS=%u, PR=%u, OR=%u, PL=%d, JI=%u", ps, os, pr, _or, loss, jitter); return rc == 6 ? 0 : -1; } } return -1; }