#include "call_interfaces.h" #include #include #include #include #include #include #include "call_interfaces.h" #include "call.h" #include "aux.h" #include "log.h" #include "redis.h" #include "sdp.h" #include "bencode.h" #include "str.h" #include "control_tcp.h" #include "control_udp.h" #include "control_ng.h" #include "rtp.h" #include "ice.h" #include "recording.h" #include "rtplib.h" #include "ssrc.h" #include "tcp_listener.h" #include "streambuf.h" #include "main.h" #include "load.h" #include "media_player.h" static pcre *info_re; static pcre_extra *info_ree; static pcre *streams_re; static pcre_extra *streams_ree; int trust_address_def; int dtls_passive_def; INLINE int call_ng_flags_prefix(struct sdp_ng_flags *out, str *s_ori, const char *prefix, void (*cb)(struct sdp_ng_flags *, str *, void *), void *ptr); static void call_ng_flags_str_ht(struct sdp_ng_flags *out, str *s, void *htp); static int call_stream_address_gstring(GString *o, struct packet_stream *ps, enum stream_address_format format) { int len, ret; char buf[64]; /* 64 bytes ought to be enough for anybody */ ret = call_stream_address46(buf, ps, format, &len, NULL, 1); g_string_append_len(o, buf, len); return ret; } static str *streams_print(GQueue *s, int start, int end, const char *prefix, enum stream_address_format format) { GString *o; int i, af, port; GList *l; struct call_media *media; struct packet_stream *ps; o = g_string_new_str(); if (prefix) g_string_append_printf(o, "%s ", prefix); for (i = start; i <= end; i++) { for (l = s->head; l; l = l->next) { media = l->data; if (media->index == i) goto found; } ilog(LOG_WARNING, "Requested media index %i not found", i); goto out; found: if (!media->streams.head) { ilog(LOG_WARNING, "Media has no streams"); goto out; } ps = media->streams.head->data; if (format == SAF_TCP) call_stream_address_gstring(o, ps, format); port = ps->selected_sfd ? ps->selected_sfd->socket.local.port : 0; g_string_append_printf(o, (format == 1) ? "%i " : " %i", port); if (format == SAF_UDP) { af = call_stream_address_gstring(o, ps, format); g_string_append_printf(o, " %c", (af == AF_INET) ? '4' : '6'); } } out: g_string_append(o, "\n"); return g_string_free_str(o); } static int addr_parse_udp(struct stream_params *sp, char **out) { const char *cp; char c; int i; ZERO(*sp); SP_SET(sp, SEND); SP_SET(sp, RECV); sp->protocol = &transport_protocols[PROTO_RTP_AVP]; if (out[RE_UDP_UL_ADDR4] && *out[RE_UDP_UL_ADDR4]) { if (sockaddr_parse_any(&sp->rtp_endpoint.address, out[RE_UDP_UL_ADDR4])) goto fail; } else if (out[RE_UDP_UL_ADDR6] && *out[RE_UDP_UL_ADDR6]) { if (sockaddr_parse_any(&sp->rtp_endpoint.address, out[RE_UDP_UL_ADDR6])) goto fail; } else goto fail; sp->rtp_endpoint.port = atoi(out[RE_UDP_UL_PORT]); if (!sp->rtp_endpoint.port && strcmp(out[RE_UDP_UL_PORT], "0")) goto fail; if (out[RE_UDP_UL_FLAGS] && *out[RE_UDP_UL_FLAGS]) { i = 0; for (cp =out[RE_UDP_UL_FLAGS]; *cp && i < 2; cp++) { c = chrtoupper(*cp); if (c == 'E') str_init(&sp->direction[i++], "external"); else if (c == 'I') str_init(&sp->direction[i++], "internal"); } } if (out[RE_UDP_UL_NUM] && *out[RE_UDP_UL_NUM]) sp->index = atoi(out[RE_UDP_UL_NUM]); if (!sp->index) sp->index = 1; sp->consecutive_ports = 1; sp->rtcp_endpoint = sp->rtp_endpoint; sp->rtcp_endpoint.port++; return 0; fail: return -1; } static str *call_update_lookup_udp(char **out, enum call_opmode opmode, const char* addr, const endpoint_t *sin) { struct call *c; struct call_monologue *monologue; GQueue q = G_QUEUE_INIT; struct stream_params sp; str *ret, callid, viabranch, fromtag, totag = STR_NULL; int i; str_init(&callid, out[RE_UDP_UL_CALLID]); str_init(&viabranch, out[RE_UDP_UL_VIABRANCH]); str_init(&fromtag, out[RE_UDP_UL_FROMTAG]); str_init(&totag, out[RE_UDP_UL_TOTAG]); if (opmode == OP_ANSWER) str_swap(&fromtag, &totag); c = call_get_opmode(&callid, opmode); if (!c) { ilog(LOG_WARNING, "[" STR_FORMAT_M "] Got UDP LOOKUP for unknown call-id", STR_FMT_M(&callid)); return str_sprintf("%s 0 0.0.0.0\n", out[RE_UDP_COOKIE]); } if (!c->created_from && addr) { c->created_from = call_strdup(c, addr); c->created_from_addr = sin->address; } monologue = call_get_mono_dialogue(c, &fromtag, &totag, NULL); if (!monologue) goto ml_fail; if (opmode == OP_OFFER) { monologue->tagtype = FROM_TAG; } else { monologue->tagtype = TO_TAG; } if (addr_parse_udp(&sp, out)) goto addr_fail; g_queue_push_tail(&q, &sp); i = monologue_offer_answer(monologue, &q, NULL); g_queue_clear(&q); if (i) goto unlock_fail; ret = streams_print(&monologue->active_dialogue->medias, sp.index, sp.index, out[RE_UDP_COOKIE], SAF_UDP); rwlock_unlock_w(&c->master_lock); redis_update_onekey(c, rtpe_redis_write); gettimeofday(&(monologue->started), NULL); ilog(LOG_INFO, "Returning to SIP proxy: "STR_FORMAT"", STR_FMT(ret)); goto out; ml_fail: ilog(LOG_ERR, "Invalid dialogue association"); goto unlock_fail; addr_fail: ilog(LOG_ERR, "Failed to parse a media stream: %s%s/%s:%s%s", FMT_M(out[RE_UDP_UL_ADDR4], out[RE_UDP_UL_ADDR6], out[RE_UDP_UL_PORT])); goto unlock_fail; unlock_fail: rwlock_unlock_w(&c->master_lock); ret = str_sprintf("%s E8\n", out[RE_UDP_COOKIE]); out: obj_put(c); return ret; } str *call_update_udp(char **out, const char* addr, const endpoint_t *sin) { return call_update_lookup_udp(out, OP_OFFER, addr, sin); } str *call_lookup_udp(char **out) { return call_update_lookup_udp(out, OP_ANSWER, NULL, NULL); } static int info_parse_func(char **a, void **ret, void *p) { GHashTable *ih = p; g_hash_table_replace(ih, strdup(a[0]), strdup(a[1])); return -1; } static void info_parse(const char *s, GHashTable *ih) { pcre_multi_match(info_re, info_ree, s, 2, info_parse_func, ih, NULL); } static int streams_parse_func(char **a, void **ret, void *p) { struct stream_params *sp; int *i; i = p; sp = g_slice_alloc0(sizeof(*sp)); SP_SET(sp, SEND); SP_SET(sp, RECV); sp->protocol = &transport_protocols[PROTO_RTP_AVP]; if (endpoint_parse_port_any(&sp->rtp_endpoint, a[0], atoi(a[1]))) goto fail; sp->index = ++(*i); sp->consecutive_ports = 1; sp->rtcp_endpoint = sp->rtp_endpoint; sp->rtcp_endpoint.port++; if (!sp->rtp_endpoint.port && strcmp(a[1], "0")) goto fail; *ret = sp; return 0; fail: ilog(LOG_WARNING, "Failed to parse a media stream: %s%s:%s%s", FMT_M(a[0], a[1])); g_slice_free1(sizeof(*sp), sp); return -1; } static void streams_parse(const char *s, GQueue *q) { int i; i = 0; pcre_multi_match(streams_re, streams_ree, s, 3, streams_parse_func, &i, q); } /* XXX move these somewhere else */ static void rtp_pt_free(void *p) { g_slice_free1(sizeof(struct rtp_payload_type), p); } static void sp_free(void *p) { struct stream_params *s = p; g_queue_clear_full(&s->rtp_payload_types, rtp_pt_free); ice_candidates_free(&s->ice_candidates); crypto_params_sdes_queue_clear(&s->sdes_params); g_slice_free1(sizeof(*s), s); } static void streams_free(GQueue *q) { g_queue_clear_full(q, sp_free); } static str *call_request_lookup_tcp(char **out, enum call_opmode opmode) { struct call *c; struct call_monologue *monologue; GQueue s = G_QUEUE_INIT; str *ret = NULL, callid, fromtag, totag = STR_NULL; GHashTable *infohash; str_init(&callid, out[RE_TCP_RL_CALLID]); infohash = g_hash_table_new_full(g_str_hash, g_str_equal, free, free); c = call_get_opmode(&callid, opmode); if (!c) { ilog(LOG_WARNING, "[" STR_FORMAT_M "] Got LOOKUP for unknown call-id", STR_FMT_M(&callid)); goto out; } info_parse(out[RE_TCP_RL_INFO], infohash); streams_parse(out[RE_TCP_RL_STREAMS], &s); str_init(&fromtag, g_hash_table_lookup(infohash, "fromtag")); if (!fromtag.s) { ilog(LOG_WARNING, "No from-tag in message"); goto out2; } str_init(&totag, g_hash_table_lookup(infohash, "totag")); if (opmode == OP_ANSWER) { if (!totag.s) { ilog(LOG_WARNING, "No to-tag in message"); goto out2; } str_swap(&fromtag, &totag); } monologue = call_get_mono_dialogue(c, &fromtag, &totag, NULL); if (!monologue) { ilog(LOG_WARNING, "Invalid dialogue association"); goto out2; } if (monologue_offer_answer(monologue, &s, NULL)) goto out2; ret = streams_print(&monologue->active_dialogue->medias, 1, s.length, NULL, SAF_TCP); out2: rwlock_unlock_w(&c->master_lock); streams_free(&s); redis_update_onekey(c, rtpe_redis_write); ilog(LOG_INFO, "Returning to SIP proxy: "STR_FORMAT"", STR_FMT0(ret)); obj_put(c); out: g_hash_table_destroy(infohash); return ret; } str *call_request_tcp(char **out) { return call_request_lookup_tcp(out, OP_OFFER); } str *call_lookup_tcp(char **out) { return call_request_lookup_tcp(out, OP_ANSWER); } str *call_delete_udp(char **out) { str callid, branch, fromtag, totag; __C_DBG("got delete for callid '%s' and viabranch '%s'", out[RE_UDP_DQ_CALLID], out[RE_UDP_DQ_VIABRANCH]); str_init(&callid, out[RE_UDP_DQ_CALLID]); str_init(&branch, out[RE_UDP_DQ_VIABRANCH]); str_init(&fromtag, out[RE_UDP_DQ_FROMTAG]); str_init(&totag, out[RE_UDP_DQ_TOTAG]); if (call_delete_branch(&callid, &branch, &fromtag, &totag, NULL, -1)) return str_sprintf("%s E8\n", out[RE_UDP_COOKIE]); return str_sprintf("%s 0\n", out[RE_UDP_COOKIE]); } str *call_query_udp(char **out) { struct call *c; str *ret, callid, fromtag, totag; struct call_stats stats; __C_DBG("got query for callid '%s'", out[RE_UDP_DQ_CALLID]); str_init(&callid, out[RE_UDP_DQ_CALLID]); str_init(&fromtag, out[RE_UDP_DQ_FROMTAG]); str_init(&totag, out[RE_UDP_DQ_TOTAG]); c = call_get_opmode(&callid, OP_OTHER); if (!c) { ilog(LOG_INFO, "[" STR_FORMAT_M "] Call-ID to query not found", STR_FMT_M(&callid)); goto err; } ng_call_stats(c, &fromtag, &totag, NULL, &stats); rwlock_unlock_w(&c->master_lock); rwlock_lock_r(&rtpe_config.config_lock); ret = str_sprintf("%s %lld "UINT64F" "UINT64F" "UINT64F" "UINT64F"\n", out[RE_UDP_COOKIE], (long long int) rtpe_config.silent_timeout - (rtpe_now.tv_sec - stats.last_packet), atomic64_get_na(&stats.totals[0].packets), atomic64_get_na(&stats.totals[1].packets), atomic64_get_na(&stats.totals[2].packets), atomic64_get_na(&stats.totals[3].packets)); rwlock_unlock_r(&rtpe_config.config_lock); goto out; err: if (c) rwlock_unlock_w(&c->master_lock); ret = str_sprintf("%s E8\n", out[RE_UDP_COOKIE]); goto out; out: if (c) obj_put(c); return ret; } void call_delete_tcp(char **out) { str callid; str_init(&callid, out[RE_TCP_D_CALLID]); call_delete_branch(&callid, NULL, NULL, NULL, NULL, -1); } static void call_status_iterator(struct call *c, struct streambuf_stream *s) { // GList *l; // struct callstream *cs; // struct peer *p; // struct streamrelay *r1, *r2; // struct streamrelay *rx1, *rx2; // char addr1[64], addr2[64], addr3[64]; // mutex_lock(&c->master_lock); streambuf_printf(s->outbuf, "session "STR_FORMAT" - - - - %lli\n", STR_FMT(&c->callid), timeval_diff(&rtpe_now, &c->created) / 1000000); /* XXX restore function */ // mutex_unlock(&c->master_lock); } void calls_status_tcp(struct streambuf_stream *s) { GQueue q = G_QUEUE_INIT; struct call *c; call_get_all_calls(&q); streambuf_printf(s->outbuf, "proxy %u "UINT64F"/%i/%i\n", g_queue_get_length(&q), atomic64_get(&rtpe_stats.bytes), 0, 0); while (q.head) { c = g_queue_pop_head(&q); call_status_iterator(c, s); obj_put(c); } } static void call_release_ref(void *p) { struct call *c = p; obj_put(c); } INLINE void call_bencode_hold_ref(struct call *c, bencode_item_t *bi) { /* We cannot guarantee that the "call" structures are still around at the time * when the bencode reply is finally read and sent out. Since we use scatter/gather * to avoid duplication of strings and stuff, we reserve a reference to the call * structs and have it released when the bencode buffer is destroyed. This is * necessary every time the bencode response may reference strings contained * within the call structs. */ bencode_buffer_destroy_add(bi->buffer, call_release_ref, obj_get(c)); } INLINE void str_hyphenate(str *s_ori) { str s; s = *s_ori; while (s.len) { if (!str_chr_str(&s, &s, ' ')) break; *s.s = '-'; str_shift(&s, 1); } } INLINE char *bencode_get_alt(bencode_item_t *i, const char *one, const char *two, str *out) { char *o; if ((o = bencode_dictionary_get_str(i, one, out))) return o; return bencode_dictionary_get_str(i, two, out); } INLINE void ng_sdes_option(struct sdp_ng_flags *out, str *s, void *dummy) { if (call_ng_flags_prefix(out, s, "no-", call_ng_flags_str_ht, &out->sdes_no)) return; switch (__csh_lookup(s)) { case CSH_LOOKUP("no"): case CSH_LOOKUP("off"): case CSH_LOOKUP("disabled"): case CSH_LOOKUP("disable"): out->sdes_off = 1; break; case CSH_LOOKUP("unencrypted_srtp"): case CSH_LOOKUP("UNENCRYPTED_SRTP"): out->sdes_unencrypted_srtp = 1; break; case CSH_LOOKUP("unencrypted_srtcp"): case CSH_LOOKUP("UNENCRYPTED_SRTCP"): out->sdes_unencrypted_srtcp = 1; break; case CSH_LOOKUP("unauthenticated_srtp"): case CSH_LOOKUP("UNAUTHENTICATED_SRTP"): out->sdes_unauthenticated_srtp = 1; break; case CSH_LOOKUP("encrypted_srtp"): case CSH_LOOKUP("ENCRYPTED_SRTP"): out->sdes_encrypted_srtp = 1; break; case CSH_LOOKUP("encrypted_srtcp"): case CSH_LOOKUP("ENCRYPTED_SRTCP"): out->sdes_encrypted_srtcp = 1; break; case CSH_LOOKUP("authenticated_srtp"): case CSH_LOOKUP("AUTHENTICATED_SRTP"): out->sdes_authenticated_srtp = 1; break; default: ilog(LOG_WARN, "Unknown 'SDES' flag encountered: '"STR_FORMAT"'", STR_FMT(s)); } } static void call_ng_flags_list(struct sdp_ng_flags *out, bencode_item_t *input, const char *key, void (*callback)(struct sdp_ng_flags *, str *, void *), void *parm) { bencode_item_t *list, *it; str s; if ((list = bencode_dictionary_get_expect(input, key, BENCODE_LIST))) { for (it = list->child; it; it = it->sibling) { if (!bencode_get_str(it, &s)) continue; callback(out, &s, parm); } } } static void call_ng_flags_rtcp_mux(struct sdp_ng_flags *out, str *s, void *dummy) { switch (__csh_lookup(s)) { case CSH_LOOKUP("offer"): out->rtcp_mux_offer = 1; break; case CSH_LOOKUP("require"): out->rtcp_mux_require = 1; break; case CSH_LOOKUP("demux"): out->rtcp_mux_demux = 1; break; case CSH_LOOKUP("accept"): out->rtcp_mux_accept = 1; break; case CSH_LOOKUP("reject"): out->rtcp_mux_reject = 1; break; default: ilog(LOG_WARN, "Unknown 'rtcp-mux' flag encountered: '" STR_FORMAT "'", STR_FMT(s)); } } static void call_ng_flags_replace(struct sdp_ng_flags *out, str *s, void *dummy) { str_hyphenate(s); if (!str_cmp(s, "origin")) out->replace_origin = 1; else if (!str_cmp(s, "session-connection")) out->replace_sess_conn = 1; else ilog(LOG_WARN, "Unknown 'replace' flag encountered: '" STR_FORMAT "'", STR_FMT(s)); } static void call_ng_flags_supports(struct sdp_ng_flags *out, str *s, void *dummy) { if (!str_cmp(s, "load limit")) out->supports_load_limit = 1; } static void call_ng_flags_codec_list(struct sdp_ng_flags *out, str *s, void *qp) { str *s_copy = str_slice_dup(s); g_queue_push_tail((GQueue *) qp, s_copy); } static void call_ng_flags_str_ht(struct sdp_ng_flags *out, str *s, void *htp) { str *s_copy = str_slice_dup(s); GHashTable **ht = htp; if (!*ht) *ht = g_hash_table_new_full(str_hash, str_equal, str_slice_free, NULL); g_hash_table_replace(*ht, s_copy, s_copy); } #ifdef WITH_TRANSCODING static void call_ng_flags_str_ht_split(struct sdp_ng_flags *out, str *s, void *htp) { GHashTable **ht = htp; if (!*ht) *ht = g_hash_table_new_full(str_hash, str_equal, str_slice_free, str_slice_free); str splitter = *s; while (1) { g_hash_table_replace(*ht, str_slice_dup(&splitter), str_slice_dup(s)); char *c = memrchr(splitter.s, '/', splitter.len); if (!c) break; splitter.len = c - splitter.s; } } #endif // helper to alias values from other dictionaries into the "flags" dictionary INLINE int call_ng_flags_prefix(struct sdp_ng_flags *out, str *s_ori, const char *prefix, void (*cb)(struct sdp_ng_flags *, str *, void *), void *ptr) { size_t len = strlen(prefix); str s = *s_ori; if (len > 0) if (str_shift_cmp(&s, prefix)) return 0; cb(out, &s, ptr); return 1; } static void call_ng_flags_flags(struct sdp_ng_flags *out, str *s, void *dummy) { str_hyphenate(s); switch (__csh_lookup(s)) { case CSH_LOOKUP("trust-address"): out->trust_address = 1; break; case CSH_LOOKUP("SIP-source-address"): out->trust_address = 0; break; case CSH_LOOKUP("asymmetric"): out->asymmetric = 1; break; case CSH_LOOKUP("no-redis-update"): out->no_redis_update = 1; break; case CSH_LOOKUP("unidirectional"): out->unidirectional = 1; break; case CSH_LOOKUP("strict-source"): out->strict_source = 1; break; case CSH_LOOKUP("media-handover"): out->media_handover = 1; break; case CSH_LOOKUP("reset"): out->reset = 1; break; case CSH_LOOKUP("all"): out->all = 1; break; case CSH_LOOKUP("fragment"): out->fragment = 1; break; case CSH_LOOKUP("port-latching"): out->port_latching = 1; break; case CSH_LOOKUP("generate-mid"): out->generate_mid = 1; break; case CSH_LOOKUP("record-call"): out->record_call = 1; break; case CSH_LOOKUP("no-rtcp-attribute"): out->no_rtcp_attr = 1; break; case CSH_LOOKUP("full-rtcp-attribute"): out->full_rtcp_attr = 1; break; case CSH_LOOKUP("loop-protect"): out->loop_protect = 1; break; case CSH_LOOKUP("original-sendrecv"): out->original_sendrecv = 1; break; case CSH_LOOKUP("always-transcode"): out->always_transcode = 1; break; case CSH_LOOKUP("asymmetric-codecs"): out->asymmetric_codecs = 1; break; case CSH_LOOKUP("pad-crypto"): out->pad_crypto = 1; break; default: // handle values aliases from other dictionaries if (call_ng_flags_prefix(out, s, "SDES-no-", call_ng_flags_str_ht, &out->sdes_no)) return; if (call_ng_flags_prefix(out, s, "SDES-", ng_sdes_option, NULL)) return; if (out->opmode == OP_OFFER) { if (call_ng_flags_prefix(out, s, "codec-strip-", call_ng_flags_str_ht, &out->codec_strip)) return; if (call_ng_flags_prefix(out, s, "codec-offer-", call_ng_flags_codec_list, &out->codec_offer)) return; #ifdef WITH_TRANSCODING if (call_ng_flags_prefix(out, s, "transcode-", call_ng_flags_codec_list, &out->codec_transcode)) return; if (call_ng_flags_prefix(out, s, "codec-transcode-", call_ng_flags_codec_list, &out->codec_transcode)) return; if (call_ng_flags_prefix(out, s, "codec-mask-", call_ng_flags_str_ht, &out->codec_mask)) return; if (call_ng_flags_prefix(out, s, "codec-set-", call_ng_flags_str_ht_split, &out->codec_set)) return; #endif } ilog(LOG_WARN, "Unknown flag encountered: '" STR_FORMAT "'", STR_FMT(s)); } } static void call_ng_process_flags(struct sdp_ng_flags *out, bencode_item_t *input, enum call_opmode opmode) { bencode_item_t *list, *it, *dict; int diridx; str s; ZERO(*out); out->opmode = opmode; out->trust_address = trust_address_def; out->dtls_passive = dtls_passive_def; call_ng_flags_list(out, input, "flags", call_ng_flags_flags, NULL); call_ng_flags_list(out, input, "replace", call_ng_flags_replace, NULL); call_ng_flags_list(out, input, "supports", call_ng_flags_supports, NULL); bencode_dictionary_get_str(input, "call-id", &out->call_id); bencode_dictionary_get_str(input, "from-tag", &out->from_tag); bencode_dictionary_get_str(input, "to-tag", &out->to_tag); bencode_dictionary_get_str(input, "via-branch", &out->via_branch); bencode_dictionary_get_str(input, "label", &out->label); bencode_dictionary_get_str(input, "address", &out->address); diridx = 0; if ((list = bencode_dictionary_get_expect(input, "direction", BENCODE_LIST))) { for (it = list->child; it && diridx < 2; it = it->sibling) bencode_get_str(it, &out->direction[diridx++]); } list = bencode_dictionary_get_expect(input, "received from", BENCODE_LIST); if (!list) list = bencode_dictionary_get_expect(input, "received-from", BENCODE_LIST); if (list && (it = list->child)) { bencode_get_str(it, &out->received_from_family); bencode_get_str(it->sibling, &out->received_from_address); } if (bencode_dictionary_get_str(input, "ICE", &s)) { switch (__csh_lookup(&s)) { case CSH_LOOKUP("remove"): out->ice_remove = 1; break; case CSH_LOOKUP("force"): out->ice_force = 1; break; case CSH_LOOKUP("force_relay"): case CSH_LOOKUP("force-relay"): case CSH_LOOKUP("force relay"): out->ice_force_relay = 1; break; default: ilog(LOG_WARN, "Unknown 'ICE' flag encountered: '"STR_FORMAT"'", STR_FMT(&s)); } } if (bencode_dictionary_get_str(input, "DTLS", &s)) { switch (__csh_lookup(&s)) { case CSH_LOOKUP("passive"): out->dtls_passive = 1; break; case CSH_LOOKUP("no"): case CSH_LOOKUP("off"): case CSH_LOOKUP("disabled"): case CSH_LOOKUP("disable"): out->dtls_off = 1; break; default: ilog(LOG_WARN, "Unknown 'DTLS' flag encountered: '"STR_FORMAT"'", STR_FMT(&s)); } } call_ng_flags_list(out, input, "rtcp-mux", call_ng_flags_rtcp_mux, NULL); call_ng_flags_list(out, input, "SDES", ng_sdes_option, NULL); bencode_get_alt(input, "transport-protocol", "transport protocol", &out->transport_protocol_str); out->transport_protocol = transport_protocol(&out->transport_protocol_str); bencode_get_alt(input, "media-address", "media address", &out->media_address); if (bencode_get_alt(input, "address-family", "address family", &out->address_family_str)) out->address_family = get_socket_family_rfc(&out->address_family_str); out->tos = bencode_dictionary_get_int_str(input, "TOS", 256); bencode_get_alt(input, "record-call", "record call", &out->record_call_str); bencode_dictionary_get_str(input, "metadata", &out->metadata); if (opmode == OP_OFFER) { out->ptime = bencode_dictionary_get_int_str(input, "ptime", 0); out->rev_ptime = bencode_dictionary_get_int_str(input, "ptime-reverse", 0); if (out->rev_ptime == 0) out->rev_ptime = bencode_dictionary_get_int_str(input, "ptime reverse", 0); } if (bencode_dictionary_get_str(input, "xmlrpc-callback", &s)) { if (sockaddr_parse_any_str(&out->xmlrpc_callback, &s)) ilog(LOG_WARN, "Failed to parse 'xmlrpc-callback' address '" STR_FORMAT "'", STR_FMT(&s)); } if (opmode == OP_OFFER && (dict = bencode_dictionary_get_expect(input, "codec", BENCODE_DICTIONARY))) { call_ng_flags_list(out, dict, "strip", call_ng_flags_str_ht, &out->codec_strip); call_ng_flags_list(out, dict, "offer", call_ng_flags_codec_list, &out->codec_offer); #ifdef WITH_TRANSCODING call_ng_flags_list(out, dict, "transcode", call_ng_flags_codec_list, &out->codec_transcode); call_ng_flags_list(out, dict, "mask", call_ng_flags_str_ht, &out->codec_mask); call_ng_flags_list(out, dict, "set", call_ng_flags_str_ht_split, &out->codec_set); #endif } } static void call_ng_free_flags(struct sdp_ng_flags *flags) { if (flags->codec_strip) g_hash_table_destroy(flags->codec_strip); if (flags->codec_mask) g_hash_table_destroy(flags->codec_mask); if (flags->codec_set) g_hash_table_destroy(flags->codec_set); if (flags->sdes_no) g_hash_table_destroy(flags->sdes_no); g_queue_clear_full(&flags->codec_offer, str_slice_free); g_queue_clear_full(&flags->codec_transcode, str_slice_free); } static enum load_limit_reasons call_offer_session_limit(void) { enum load_limit_reasons ret = LOAD_LIMIT_NONE; rwlock_lock_r(&rtpe_config.config_lock); if (rtpe_config.max_sessions>=0) { rwlock_lock_r(&rtpe_callhash_lock); if (g_hash_table_size(rtpe_callhash) - atomic64_get(&rtpe_stats.foreign_sessions) >= rtpe_config.max_sessions) { /* foreign calls can't get rejected * total_rejected_sess applies only to "own" sessions */ atomic64_inc(&rtpe_totalstats.total_rejected_sess); atomic64_inc(&rtpe_totalstats_interval.total_rejected_sess); ilog(LOG_ERROR, "Parallel session limit reached (%i)",rtpe_config.max_sessions); ret = LOAD_LIMIT_MAX_SESSIONS; } rwlock_unlock_r(&rtpe_callhash_lock); } if (ret == LOAD_LIMIT_NONE && rtpe_config.load_limit) { int loadavg = g_atomic_int_get(&load_average); if (loadavg >= rtpe_config.load_limit) { ilog(LOG_WARN, "Load limit exceeded (%.2f > %.2f)", (double) loadavg / 100.0, (double) rtpe_config.load_limit / 100.0); ret = LOAD_LIMIT_LOAD; } } if (ret == LOAD_LIMIT_NONE && rtpe_config.cpu_limit) { int cpu = g_atomic_int_get(&cpu_usage); if (cpu >= rtpe_config.cpu_limit) { ilog(LOG_WARN, "CPU usage limit exceeded (%.1f%% > %.1f%%)", (double) cpu / 100.0, (double) rtpe_config.cpu_limit / 100.0); ret = LOAD_LIMIT_CPU; } } if (ret == LOAD_LIMIT_NONE && rtpe_config.bw_limit) { uint64_t bw = atomic64_get(&rtpe_stats.bytes); if (bw >= rtpe_config.bw_limit) { ilog(LOG_WARN, "Bandwidth limit exceeded (%" PRIu64 " > %" PRIu64 ")", bw, rtpe_config.bw_limit); ret = LOAD_LIMIT_BW; } } rwlock_unlock_r(&rtpe_config.config_lock); return ret; } static const char *call_offer_answer_ng(bencode_item_t *input, bencode_item_t *output, enum call_opmode opmode, const char* addr, const endpoint_t *sin) { str sdp; const char *errstr; GQueue parsed = G_QUEUE_INIT; GQueue streams = G_QUEUE_INIT; struct call *call; struct call_monologue *monologue; int ret; struct sdp_ng_flags flags; struct sdp_chopper *chopper; if (!bencode_dictionary_get_str(input, "sdp", &sdp)) return "No SDP body in message"; call_ng_process_flags(&flags, input, opmode); if (!flags.call_id.s) return "No call-id in message"; if (!flags.from_tag.s) return "No from-tag in message"; if (opmode == OP_ANSWER) { if (!flags.to_tag.s) return "No to-tag in message"; str_swap(&flags.to_tag, &flags.from_tag); } if (opmode == OP_OFFER) { enum load_limit_reasons limit = call_offer_session_limit(); if (limit != LOAD_LIMIT_NONE) { if (!flags.supports_load_limit) errstr = "Parallel session limit reached"; // legacy protocol else errstr = magic_load_limit_strings[limit]; goto out; } } errstr = "Failed to parse SDP"; if (sdp_parse(&sdp, &parsed, &flags)) goto out; if (flags.loop_protect && sdp_is_duplicate(&parsed)) { ilog(LOG_INFO, "Ignoring message as SDP has already been processed by us"); bencode_dictionary_add_str(output, "sdp", &sdp); errstr = NULL; goto out; } errstr = "Incomplete SDP specification"; if (sdp_streams(&parsed, &streams, &flags)) goto out; /* OP_ANSWER; OP_OFFER && !IS_FOREIGN_CALL */ call = call_get(&flags.call_id); /* Failover scenario because of timeout on offer response: siprouter tries * to establish session with another rtpengine2 even though rtpengine1 * might have persisted part of the session. rtpengine2 deletes previous * call in memory and recreates an OWN call in redis */ // SDP fragments for trickle ICE must always operate on an existing call if (opmode == OP_OFFER && !flags.fragment) { if (call) { if (IS_FOREIGN_CALL(call)) { /* destroy call and create new one */ rwlock_unlock_w(&call->master_lock); call_destroy(call); obj_put(call); call = call_get_or_create(&flags.call_id, CT_OWN_CALL); } } else { /* call == NULL, should create call */ call = call_get_or_create(&flags.call_id, CT_OWN_CALL); } } errstr = "Unknown call-id"; if (!call) goto out; if (!call->created_from && addr) { call->created_from = call_strdup(call, addr); call->created_from_addr = sin->address; } if (flags.xmlrpc_callback.family) call->xmlrpc_callback = flags.xmlrpc_callback; /* At least the random ICE strings are contained within the call struct, so we * need to hold a ref until we're done sending the reply */ call_bencode_hold_ref(call, output); monologue = call_get_mono_dialogue(call, &flags.from_tag, &flags.to_tag, flags.via_branch.s ? &flags.via_branch : NULL); errstr = "Invalid dialogue association"; if (!monologue) { rwlock_unlock_w(&call->master_lock); obj_put(call); goto out; } if (opmode == OP_OFFER) { monologue->tagtype = FROM_TAG; } else { monologue->tagtype = TO_TAG; } chopper = sdp_chopper_new(&sdp); bencode_buffer_destroy_add(output->buffer, (free_func_t) sdp_chopper_destroy, chopper); detect_setup_recording(call, &flags.record_call_str, &flags.metadata); if (flags.record_call) { call->recording_on = 1; recording_start(call, NULL, &flags.metadata); } ret = monologue_offer_answer(monologue, &streams, &flags); if (!ret) { // SDP fragments for trickle ICE are consumed with no replacement returned if (!flags.fragment) ret = sdp_replace(chopper, &parsed, monologue->active_dialogue, &flags); } struct recording *recording = call->recording; if (recording != NULL) { meta_write_sdp_before(recording, &sdp, monologue, opmode); meta_write_sdp_after(recording, chopper->output, monologue, opmode); recording_response(recording, output); } rwlock_unlock_w(&call->master_lock); if (!flags.no_redis_update) { redis_update_onekey(call, rtpe_redis_write); } else { ilog(LOG_DEBUG, "Not updating Redis due to present no-redis-update flag"); } obj_put(call); gettimeofday(&(monologue->started), NULL); errstr = "Error rewriting SDP"; if (ret == ERROR_NO_FREE_PORTS || ret == ERROR_NO_FREE_LOGS) { ilog(LOG_ERR, "Destroying call"); errstr = "Ran out of ports"; call_destroy(call); } if (ret) goto out; if (chopper->output->len) bencode_dictionary_add_string_len(output, "sdp", chopper->output->str, chopper->output->len); errstr = NULL; out: sdp_free(&parsed); streams_free(&streams); call_ng_free_flags(&flags); return errstr; } const char *call_offer_ng(bencode_item_t *input, bencode_item_t *output, const char* addr, const endpoint_t *sin) { return call_offer_answer_ng(input, output, OP_OFFER, addr, sin); } const char *call_answer_ng(bencode_item_t *input, bencode_item_t *output) { return call_offer_answer_ng(input, output, OP_ANSWER, NULL, NULL); } const char *call_delete_ng(bencode_item_t *input, bencode_item_t *output) { str fromtag, totag, viabranch, callid; bencode_item_t *flags, *it; int fatal = 0, delete_delay; if (!bencode_dictionary_get_str(input, "call-id", &callid)) return "No call-id in message"; bencode_dictionary_get_str(input, "from-tag", &fromtag); bencode_dictionary_get_str(input, "to-tag", &totag); bencode_dictionary_get_str(input, "via-branch", &viabranch); flags = bencode_dictionary_get_expect(input, "flags", BENCODE_LIST); if (flags) { for (it = flags->child; it; it = it->sibling) { if (!bencode_strcmp(it, "fatal")) fatal = 1; } } delete_delay = bencode_dictionary_get_int_str(input, "delete-delay", -1); if (delete_delay == -1) { delete_delay = bencode_dictionary_get_int_str(input, "delete delay", -1); if (delete_delay == -1) { /* legacy support */ str s; bencode_dictionary_get_str(input, "delete-delay", &s); if (s.s) delete_delay = str_to_i(&s, -1); } } if (call_delete_branch(&callid, &viabranch, &fromtag, &totag, output, delete_delay)) { if (fatal) return "Call-ID not found or tags didn't match"; bencode_dictionary_add_string(output, "warning", "Call-ID not found or tags didn't match"); } return NULL; } static void ng_stats(bencode_item_t *d, const struct stats *s, struct stats *totals) { bencode_dictionary_add_integer(d, "packets", atomic64_get(&s->packets)); bencode_dictionary_add_integer(d, "bytes", atomic64_get(&s->bytes)); bencode_dictionary_add_integer(d, "errors", atomic64_get(&s->errors)); if (!totals) return; atomic64_add_na(&totals->packets, atomic64_get(&s->packets)); atomic64_add_na(&totals->bytes, atomic64_get(&s->bytes)); atomic64_add_na(&totals->errors, atomic64_get(&s->errors)); } static void ng_stats_endpoint(bencode_item_t *dict, const endpoint_t *ep) { if (!ep->address.family) return; bencode_dictionary_add_string(dict, "family", ep->address.family->name); bencode_dictionary_add_string_dup(dict, "address", sockaddr_print_buf(&ep->address)); bencode_dictionary_add_integer(dict, "port", ep->port); } #define BF_PS(k, f) if (PS_ISSET(ps, f)) bencode_list_add_string(flags, k) static void ng_stats_stream(bencode_item_t *list, const struct packet_stream *ps, struct call_stats *totals) { bencode_item_t *dict = NULL, *flags; struct stats *s; if (!list) goto stats; dict = bencode_list_add_dictionary(list); if (ps->selected_sfd) bencode_dictionary_add_integer(dict, "local port", ps->selected_sfd->socket.local.port); ng_stats_endpoint(bencode_dictionary_add_dictionary(dict, "endpoint"), &ps->endpoint); ng_stats_endpoint(bencode_dictionary_add_dictionary(dict, "advertised endpoint"), &ps->advertised_endpoint); if (ps->crypto.params.crypto_suite) bencode_dictionary_add_string(dict, "crypto suite", ps->crypto.params.crypto_suite->name); bencode_dictionary_add_integer(dict, "last packet", atomic64_get(&ps->last_packet)); flags = bencode_dictionary_add_list(dict, "flags"); BF_PS("RTP", RTP); BF_PS("RTCP", RTCP); BF_PS("fallback RTCP", FALLBACK_RTCP); BF_PS("filled", FILLED); BF_PS("confirmed", CONFIRMED); BF_PS("kernelized", KERNELIZED); BF_PS("no kernel support", NO_KERNEL_SUPPORT); BF_PS("DTLS fingerprint verified", FINGERPRINT_VERIFIED); BF_PS("strict source address", STRICT_SOURCE); BF_PS("media handover", MEDIA_HANDOVER); BF_PS("ICE", ICE); if (ps->ssrc_in) bencode_dictionary_add_integer(dict, "SSRC", ps->ssrc_in->parent->h.ssrc); stats: if (totals->last_packet < atomic64_get(&ps->last_packet)) totals->last_packet = atomic64_get(&ps->last_packet); /* XXX distinguish between input and output */ s = &totals->totals[0]; if (!PS_ISSET(ps, RTP)) s = &totals->totals[1]; ng_stats(bencode_dictionary_add_dictionary(dict, "stats"), &ps->stats, s); } #define BF_M(k, f) if (MEDIA_ISSET(m, f)) bencode_list_add_string(flags, k) static void ng_stats_media(bencode_item_t *list, const struct call_media *m, struct call_stats *totals) { bencode_item_t *dict, *streams = NULL, *flags; GList *l; struct packet_stream *ps; if (!list) goto stats; dict = bencode_list_add_dictionary(list); bencode_dictionary_add_integer(dict, "index", m->index); bencode_dictionary_add_str(dict, "type", &m->type); if (m->protocol) bencode_dictionary_add_string(dict, "protocol", m->protocol->name); streams = bencode_dictionary_add_list(dict, "streams"); flags = bencode_dictionary_add_list(dict, "flags"); BF_M("initialized", INITIALIZED); BF_M("asymmetric", ASYMMETRIC); BF_M("send", SEND); BF_M("recv", RECV); BF_M("rtcp-mux", RTCP_MUX); BF_M("DTLS-SRTP", DTLS); BF_M("DTLS role active", SETUP_ACTIVE); BF_M("DTLS role passive", SETUP_PASSIVE); BF_M("SDES", SDES); BF_M("passthrough", PASSTHRU); BF_M("ICE", ICE); BF_M("trickle ICE", TRICKLE_ICE); BF_M("ICE controlling", ICE_CONTROLLING); BF_M("ICE-lite", ICE_LITE); BF_M("unidirectional", UNIDIRECTIONAL); BF_M("loop check", LOOP_CHECK); BF_M("transcoding", TRANSCODE); stats: for (l = m->streams.head; l; l = l->next) { ps = l->data; ng_stats_stream(streams, ps, totals); } } static void ng_stats_monologue(bencode_item_t *dict, const struct call_monologue *ml, struct call_stats *totals) { bencode_item_t *sub, *medias = NULL; GList *l; struct call_media *m; if (!ml) return; if (!dict) goto stats; sub = bencode_dictionary_add_dictionary(dict, ml->tag.s ? : ""); bencode_dictionary_add_str(sub, "tag", &ml->tag); if (ml->viabranch.s) bencode_dictionary_add_str(sub, "via-branch", &ml->viabranch); if (ml->label.s) bencode_dictionary_add_str(sub, "label", &ml->label); bencode_dictionary_add_integer(sub, "created", ml->created); if (ml->active_dialogue) bencode_dictionary_add_str(sub, "in dialogue with", &ml->active_dialogue->tag); medias = bencode_dictionary_add_list(sub, "medias"); stats: for (l = ml->medias.head; l; l = l->next) { m = l->data; ng_stats_media(medias, m, totals); } } static void ng_stats_ssrc_mos_entry_common(bencode_item_t *subent, struct ssrc_stats_block *sb, unsigned int div) { bencode_dictionary_add_integer(subent, "MOS", sb->mos / div); bencode_dictionary_add_integer(subent, "round-trip time", sb->rtt / div); bencode_dictionary_add_integer(subent, "jitter", sb->jitter / div); bencode_dictionary_add_integer(subent, "packet loss", sb->packetloss / div); } static void ng_stats_ssrc_mos_entry(bencode_item_t *subent, struct ssrc_stats_block *sb) { ng_stats_ssrc_mos_entry_common(subent, sb, 1); bencode_dictionary_add_integer(subent, "reported at", sb->reported.tv_sec); } static void ng_stats_ssrc_mos_entry_dict(bencode_item_t *ent, const char *label, struct ssrc_stats_block *sb) { bencode_item_t *subent = bencode_dictionary_add_dictionary(ent, label); ng_stats_ssrc_mos_entry(subent, sb); } static void ng_stats_ssrc_mos_entry_dict_avg(bencode_item_t *ent, const char *label, struct ssrc_stats_block *sb, unsigned int div) { bencode_item_t *subent = bencode_dictionary_add_dictionary(ent, label); ng_stats_ssrc_mos_entry_common(subent, sb, div); bencode_dictionary_add_integer(subent, "samples", div); } static void ng_stats_ssrc(bencode_item_t *dict, struct ssrc_hash *ht) { GList *ll = g_hash_table_get_values(ht->ht); for (GList *l = ll; l; l = l->next) { struct ssrc_entry_call *se = l->data; char *tmp = bencode_buffer_alloc(dict->buffer, 12); snprintf(tmp, 12, "%" PRIu32, se->h.ssrc); bencode_item_t *ent = bencode_dictionary_add_dictionary(dict, tmp); if (!se->stats_blocks.length || !se->lowest_mos || !se->highest_mos) continue; ng_stats_ssrc_mos_entry_dict_avg(ent, "average MOS", &se->average_mos, se->stats_blocks.length); ng_stats_ssrc_mos_entry_dict(ent, "lowest MOS", se->lowest_mos); ng_stats_ssrc_mos_entry_dict(ent, "highest MOS", se->highest_mos); bencode_item_t *progdict = bencode_dictionary_add_dictionary(ent, "MOS progression"); // aim for about 10 entries to the list GList *listent = se->stats_blocks.head; struct ssrc_stats_block *sb = listent->data; int interval = ((struct ssrc_stats_block *) se->stats_blocks.tail->data)->reported.tv_sec - sb->reported.tv_sec; interval /= 10; bencode_dictionary_add_integer(progdict, "interval", interval); time_t next_step = sb->reported.tv_sec; bencode_item_t *entlist = bencode_dictionary_add_list(progdict, "entries"); for (; listent; listent = listent->next) { sb = listent->data; if (sb->reported.tv_sec < next_step) continue; next_step += interval; bencode_item_t *ent = bencode_list_add_dictionary(entlist); ng_stats_ssrc_mos_entry(ent, sb); } } g_list_free(ll); } /* call must be locked */ void ng_call_stats(struct call *call, const str *fromtag, const str *totag, bencode_item_t *output, struct call_stats *totals) { bencode_item_t *tags = NULL, *dict; const str *match_tag; GList *l; struct call_monologue *ml; struct call_stats t_b; if (!totals) totals = &t_b; ZERO(*totals); if (!output) goto stats; call_bencode_hold_ref(call, output); bencode_dictionary_add_integer(output, "created", call->created.tv_sec); bencode_dictionary_add_integer(output, "created_us", call->created.tv_usec); bencode_dictionary_add_integer(output, "last signal", call->last_signal); ng_stats_ssrc(bencode_dictionary_add_dictionary(output, "SSRC"), call->ssrc_hash); tags = bencode_dictionary_add_dictionary(output, "tags"); stats: match_tag = (totag && totag->s && totag->len) ? totag : fromtag; if (!match_tag || !match_tag->len) { for (l = call->monologues.head; l; l = l->next) { ml = l->data; ng_stats_monologue(tags, ml, totals); } } else { ml = g_hash_table_lookup(call->tags, match_tag); if (ml) { ng_stats_monologue(tags, ml, totals); ng_stats_monologue(tags, ml->active_dialogue, totals); } } if (!output) return; dict = bencode_dictionary_add_dictionary(output, "totals"); ng_stats(bencode_dictionary_add_dictionary(dict, "RTP"), &totals->totals[0], NULL); ng_stats(bencode_dictionary_add_dictionary(dict, "RTCP"), &totals->totals[1], NULL); } static void ng_list_calls(bencode_item_t *output, long long int limit) { GHashTableIter iter; gpointer key, value; rwlock_lock_r(&rtpe_callhash_lock); g_hash_table_iter_init (&iter, rtpe_callhash); while (limit-- && g_hash_table_iter_next (&iter, &key, &value)) { bencode_list_add_str_dup(output, key); } rwlock_unlock_r(&rtpe_callhash_lock); } const char *call_query_ng(bencode_item_t *input, bencode_item_t *output) { str callid, fromtag, totag; struct call *call; if (!bencode_dictionary_get_str(input, "call-id", &callid)) return "No call-id in message"; call = call_get_opmode(&callid, OP_OTHER); if (!call) return "Unknown call-id"; bencode_dictionary_get_str(input, "from-tag", &fromtag); bencode_dictionary_get_str(input, "to-tag", &totag); ng_call_stats(call, &fromtag, &totag, output, NULL); rwlock_unlock_w(&call->master_lock); obj_put(call); return NULL; } const char *call_list_ng(bencode_item_t *input, bencode_item_t *output) { bencode_item_t *calls = NULL; long long int limit; limit = bencode_dictionary_get_int_str(input, "limit", 32); if (limit < 0) { return "invalid limit, must be >= 0"; } calls = bencode_dictionary_add_list(output, "calls"); ng_list_calls(calls, limit); return NULL; } const char *call_start_recording_ng(bencode_item_t *input, bencode_item_t *output) { str callid; struct call *call; str metadata; if (!bencode_dictionary_get_str(input, "call-id", &callid)) return "No call-id in message"; bencode_dictionary_get_str(input, "metadata", &metadata); call = call_get_opmode(&callid, OP_OTHER); if (!call) return "Unknown call-id"; call->recording_on = 1; recording_start(call, NULL, &metadata); rwlock_unlock_w(&call->master_lock); obj_put(call); return NULL; } const char *call_stop_recording_ng(bencode_item_t *input, bencode_item_t *output) { str callid; struct call *call; if (!bencode_dictionary_get_str(input, "call-id", &callid)) return "No call-id in message"; call = call_get_opmode(&callid, OP_OTHER); if (!call) return "Unknown call-id"; call->recording_on = 0; recording_stop(call); rwlock_unlock_w(&call->master_lock); obj_put(call); return NULL; } static const char *media_block_match(struct call **call, struct call_monologue **monologue, struct sdp_ng_flags *flags, bencode_item_t *input) { struct sdp_ng_flags flags_store; if (!flags) flags = &flags_store; *call = NULL; *monologue = NULL; call_ng_process_flags(flags, input, OP_OTHER); if (!flags->call_id.s) return "No call-id in message"; *call = call_get_opmode(&flags->call_id, OP_OTHER); if (!*call) return "Unknown call-id"; // directional? if (flags->label.s) { *monologue = g_hash_table_lookup((*call)->labels, &flags->label); if (!*monologue) return "No monologue matching the given label"; } else if (flags->address.s) { sockaddr_t addr; if (sockaddr_parse_any_str(&addr, &flags->address)) return "Failed to parse network address"; // walk our structures to find a matching stream for (GList *l = (*call)->monologues.head; l; l = l->next) { *monologue = l->data; for (GList *k = (*monologue)->medias.head; k; k = k->next) { struct call_media *media = k->data; if (!media->streams.head) continue; struct packet_stream *ps = media->streams.head->data; if (!sockaddr_eq(&addr, &ps->advertised_endpoint.address)) continue; ilog(LOG_DEBUG, "Matched address %s%s%s to tag '" STR_FORMAT_M "'", FMT_M(sockaddr_print_buf(&addr)), STR_FMT_M(&(*monologue)->tag)); goto found; } } return "Failed to match address to any tag"; found: ; } else if (flags->from_tag.s) { *monologue = call_get_mono_dialogue(*call, &flags->from_tag, NULL, NULL); if (!*monologue) return "From-tag given, but no such tag exists"; } return NULL; } // XXX these are all identical - unify and use a flags int and/or callback const char *call_start_forwarding_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Start forwarding for single party (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->rec_forwarding = 1; } else { ilog(LOG_INFO, "Start forwarding (entire call)"); call->rec_forwarding = 1; } recording_start(call, NULL, &flags.metadata); errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return errstr; } const char *call_stop_forwarding_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Stop forwarding for single party (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->rec_forwarding = 0; } else { ilog(LOG_INFO, "Stop forwarding (entire call)"); call->rec_forwarding = 0; if (flags.all) { for (GList *l = call->monologues.head; l; l = l->next) { monologue = l->data; monologue->rec_forwarding = 0; } } } recording_stop(call); errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return NULL; } const char *call_block_dtmf_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Blocking directional DTMF (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->block_dtmf = 1; } else { ilog(LOG_INFO, "Blocking DTMF (entire call)"); call->block_dtmf = 1; } errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return errstr; } const char *call_unblock_dtmf_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Unblocking directional DTMF (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->block_dtmf = 0; } else { ilog(LOG_INFO, "Unblocking DTMF (entire call)"); call->block_dtmf = 0; if (flags.all) { for (GList *l = call->monologues.head; l; l = l->next) { monologue = l->data; monologue->block_dtmf = 0; } } } errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return NULL; } const char *call_block_media_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Blocking directional media (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->block_media = 1; __monologue_unkernelize(monologue); } else { ilog(LOG_INFO, "Blocking media (entire call)"); call->block_media = 1; __call_unkernelize(call); } errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return errstr; } const char *call_unblock_media_ng(bencode_item_t *input, bencode_item_t *output) { struct call *call; struct call_monologue *monologue; const char *errstr = NULL; struct sdp_ng_flags flags; errstr = media_block_match(&call, &monologue, &flags, input); if (errstr) goto out; if (monologue) { ilog(LOG_INFO, "Unblocking directional media (tag '" STR_FORMAT_M "')", STR_FMT_M(&monologue->tag)); monologue->block_media = 0; __monologue_unkernelize(monologue); } else { ilog(LOG_INFO, "Unblocking media (entire call)"); call->block_media = 0; if (flags.all) { for (GList *l = call->monologues.head; l; l = l->next) { monologue = l->data; monologue->block_media = 0; } } __call_unkernelize(call); } errstr = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return NULL; } #ifdef WITH_TRANSCODING static const char *play_media_select_party(struct call **call, struct call_monologue **monologue, bencode_item_t *input) { const char *err = media_block_match(call, monologue, NULL, input); if (err) return err; if (!*monologue) return "No participant party specified"; return NULL; } #endif const char *call_play_media_ng(bencode_item_t *input, bencode_item_t *output) { #ifdef WITH_TRANSCODING str str; struct call *call; struct call_monologue *monologue; const char *err = NULL; long long db_id; err = play_media_select_party(&call, &monologue, input); if (err) goto out; if (!monologue->player) monologue->player = media_player_new(monologue); err = "No media file specified"; if (bencode_dictionary_get_str(input, "file", &str)) { err = "Failed to start media playback from file"; if (media_player_play_file(monologue->player, &str)) goto out; } else if (bencode_dictionary_get_str(input, "blob", &str)) { err = "Failed to start media playback from blob"; if (media_player_play_blob(monologue->player, &str)) goto out; } else if ((db_id = bencode_dictionary_get_int_str(input, "db-id", 0)) > 0) { err = "Failed to start media playback from database"; if (media_player_play_db(monologue->player, db_id)) goto out; } else goto out; if (monologue->player->duration) bencode_dictionary_add_integer(output, "duration", monologue->player->duration); err = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return err; #else return "unsupported"; #endif } const char *call_stop_media_ng(bencode_item_t *input, bencode_item_t *output) { #ifdef WITH_TRANSCODING struct call *call; struct call_monologue *monologue; const char *err = NULL; err = play_media_select_party(&call, &monologue, input); if (err) goto out; if (!monologue->player) return "Not currently playing media"; media_player_stop(monologue->player); err = NULL; out: if (call) { rwlock_unlock_w(&call->master_lock); obj_put(call); } return err; #else return "unsupported"; #endif } int call_interfaces_init() { const char *errptr; int erroff; info_re = pcre_compile("^([^:,]+)(?::(.*?))?(?:$|,)", PCRE_DOLLAR_ENDONLY | PCRE_DOTALL, &errptr, &erroff, NULL); if (!info_re) return -1; info_ree = pcre_study(info_re, 0, &errptr); streams_re = pcre_compile("^([\\d.]+):(\\d+)(?::(.*?))?(?:$|,)", PCRE_DOLLAR_ENDONLY | PCRE_DOTALL, &errptr, &erroff, NULL); if (!streams_re) return -1; streams_ree = pcre_study(streams_re, 0, &errptr); return 0; }