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rtpengine
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rtpengine/daemon/call_interfaces.c

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#include "call_interfaces.h"
#include <stdio.h>
#include <unistd.h>
#include <glib.h>
#include <stdlib.h>
#include <pcre2.h>
#include <inttypes.h>
#include "call.h"
#include "helpers.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"
#include "dtmf.h"
#include "codec.h"
#include "dtmf.h"
#include "control_ng_flags_parser.h"
static pcre2_code *info_re;
static pcre2_code *streams_re;
bool trust_address_def;
bool dtls_passive_def;
INLINE int call_ng_flags_prefix(sdp_ng_flags *out, str *s_ori, const char *prefix,
void (*cb)(sdp_ng_flags *, str *, helper_arg), helper_arg);
static void call_ng_flags_str_ht(sdp_ng_flags *out, str *s, helper_arg);
static void call_ng_flags_str_q_multi(sdp_ng_flags *out, str *s, helper_arg);
static void call_ng_flags_str_list(sdp_ng_flags *out, bencode_item_t *list,
void (*callback)(sdp_ng_flags *, str *, helper_arg), helper_arg);
static void call_ng_flags_list(sdp_ng_flags *out, bencode_item_t *list,
void (*str_callback)(sdp_ng_flags *, str *, helper_arg),
void (*item_callback)(sdp_ng_flags *, bencode_item_t *, helper_arg),
helper_arg);
static void call_ng_flags_esc_str_list(sdp_ng_flags *out, str *s, helper_arg);
static void ng_stats_ssrc(bencode_item_t *dict, struct ssrc_hash *ht);
static str *str_dup_escape(const str *s);
static void call_set_dtmf_block(call_t *call, struct call_monologue *monologue, sdp_ng_flags *flags);
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, true);
g_string_append_len(o, buf, len);
return ret;
}
static str *streams_print(medias_arr *s, int start, int end, const char *prefix, enum stream_address_format format) {
GString *o;
int i, af, port;
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++) {
if (s->len <= i || (media = s->pdata[i - 1]) == NULL) {
ilog(LOG_WARNING, "Requested media index %i not found", i);
break;
}
if (!media->streams.head) {
ilog(LOG_WARNING, "Media has no streams");
break;
}
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');
}
}
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_UNKNOWN];
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 void updated_created_from(call_t *c, const char *addr, const endpoint_t *sin) {
if (!c->created_from && addr) {
c->created_from = call_strdup(c, addr);
if (sin)
c->created_from_addr = sin->address;
}
}
static str *call_update_lookup_udp(char **out, enum call_opmode opmode, const char* addr,
const endpoint_t *sin)
{
call_t *c;
struct call_monologue *monologues[2]; /* subscriber lists of both monologues */
sdp_streams_q q = TYPED_GQUEUE_INIT;
struct stream_params sp;
str *ret;
int i;
g_auto(sdp_ng_flags) flags;
call_ng_flags_init(&flags, opmode);
str callid = STR_INIT(out[RE_UDP_UL_CALLID]);
str fromtag = STR_INIT(out[RE_UDP_UL_FROMTAG]);
str totag = STR_INIT(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]);
}
updated_created_from(c, addr, sin);
if (call_get_mono_dialogue(monologues, c, &fromtag, &totag, NULL))
goto ml_fail;
struct call_monologue *from_ml = monologues[0];
struct call_monologue *to_ml = monologues[1];
if (opmode == OP_OFFER) {
from_ml->tagtype = FROM_TAG;
} else {
from_ml->tagtype = TO_TAG;
}
if (addr_parse_udp(&sp, out))
goto addr_fail;
t_queue_push_tail(&q, &sp);
i = monologue_offer_answer(monologues, &q, &flags);
t_queue_clear(&q);
if (i)
goto unlock_fail;
ret = streams_print(to_ml->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(&(from_ml->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 bool info_parse_func(char **a, void **ret, void *p) {
if (!a[0] || !a[1])
return false;
GHashTable *ih = p;
g_hash_table_replace(ih, strdup(a[0]), strdup(a[1]));
return false;
}
static void info_parse(const char *s, GHashTable *ih) {
pcre2_multi_match(info_re, s, 3, info_parse_func, ih, NULL);
}
static bool streams_parse_func(char **a, void **ret, void *p) {
if (!a[0] || !a[1])
return false;
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_UNKNOWN];
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 true;
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 false;
}
static void streams_parse(const char *s, sdp_streams_q *q) {
int i;
i = 0;
pcre2_multi_match(streams_re, s, 4, streams_parse_func, &i, &q->q);
}
void call_unlock_release(call_t *c) {
rwlock_unlock_w(&c->master_lock);
obj_put(c);
}
INLINE void call_unlock_release_update(call_t **c) {
if (!*c)
return;
rwlock_unlock_w(&(*c)->master_lock);
redis_update_onekey(*c, rtpe_redis_write);
obj_release(*c);
}
static str *call_request_lookup_tcp(char **out, enum call_opmode opmode) {
call_t *c;
struct call_monologue *monologues[2];
g_auto(sdp_streams_q) s = TYPED_GQUEUE_INIT;
str *ret = NULL;
GHashTable *infohash;
g_auto(sdp_ng_flags) flags;
call_ng_flags_init(&flags, opmode);
str callid = STR_INIT(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 fromtag = STR_INIT(g_hash_table_lookup(infohash, "fromtag"));
if (!fromtag.s) {
ilog(LOG_WARNING, "No from-tag in message");
goto out2;
}
str totag = STR_INIT(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);
}
if (call_get_mono_dialogue(monologues, c, &fromtag, &totag, NULL)) {
ilog(LOG_WARNING, "Invalid dialogue association");
goto out2;
}
if (monologue_offer_answer(monologues, &s, &flags))
goto out2;
ret = streams_print(monologues[1]->medias, 1, s.length, NULL, SAF_TCP);
out2:
call_unlock_release_update(&c);
ilog(LOG_INFO, "Returning to SIP proxy: "STR_FORMAT"", STR_FMT0(ret));
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) {
__C_DBG("got delete for callid '%s' and viabranch '%s'",
out[RE_UDP_DQ_CALLID], out[RE_UDP_DQ_VIABRANCH]);
str callid = STR_INIT(out[RE_UDP_DQ_CALLID]);
str branch = STR_INIT(out[RE_UDP_DQ_VIABRANCH]);
str fromtag = STR_INIT(out[RE_UDP_DQ_FROMTAG]);
str totag = STR_INIT(out[RE_UDP_DQ_TOTAG]);
if (call_delete_branch_by_id(&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) {
g_autoptr(call_t) c = NULL;
str *ret;
struct call_stats stats;
__C_DBG("got query for callid '%s'", out[RE_UDP_DQ_CALLID]);
str callid = STR_INIT(out[RE_UDP_DQ_CALLID]);
str fromtag = STR_INIT(out[RE_UDP_DQ_FROMTAG]);
str totag = STR_INIT(out[RE_UDP_DQ_TOTAG]);
c = call_get_opmode(&callid, OP_QUERY);
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:
ret = str_sprintf("%s E8\n", out[RE_UDP_COOKIE]);
out:
return ret;
}
void call_delete_tcp(char **out) {
str callid = STR_INIT(out[RE_TCP_D_CALLID]);
call_delete_branch_by_id(&callid, NULL, NULL, NULL, NULL, -1);
}
static void call_status_iterator(call_t *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) {
rwlock_lock_r(&rtpe_callhash_lock);
streambuf_printf(s->outbuf, "proxy %u "UINT64F"/%i/%i\n",
t_hash_table_size(rtpe_callhash),
atomic64_get(&rtpe_stats_rate.bytes_user) + atomic64_get(&rtpe_stats_rate.bytes_kernel), 0, 0);
rwlock_unlock_r(&rtpe_callhash_lock);
ITERATE_CALL_LIST_START(CALL_ITERATOR_MAIN, c);
call_status_iterator(c, s);
ITERATE_CALL_LIST_NEXT_END(c);
}
static void call_release_ref(void *p) {
call_t *c = p;
obj_put(c);
}
INLINE void call_bencode_hold_ref(call_t *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(sdp_ng_flags *out, str *s, helper_arg dummy) {
str_hyphenate(s);
/* Accept only certain individual crypto suites */
if (call_ng_flags_prefix(out, s, "only-", call_ng_flags_str_ht, &out->sdes_only))
return;
/* Exclude individual crypto suites */
if (call_ng_flags_prefix(out, s, "no-", call_ng_flags_str_ht, &out->sdes_no))
return;
/* Order individual crypto suites */
if (call_ng_flags_prefix(out, s, "order:", call_ng_flags_str_q_multi, &out->sdes_order))
return;
/* Crypto suite preferences for the offerer */
if (call_ng_flags_prefix(out, s, "offerer_pref:", call_ng_flags_str_q_multi,
&out->sdes_offerer_pref))
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;
case CSH_LOOKUP("lifetime"):
out->sdes_lifetime = 1;
break;
case CSH_LOOKUP("pad"):
out->sdes_pad = 1;
break;
case CSH_LOOKUP("static"):
out->sdes_static = 1;
break;
case CSH_LOOKUP("nonew"):
out->sdes_nonew = 1;
break;
case CSH_LOOKUP("prefer"):
case CSH_LOOKUP("priority"):
out->sdes_prefer = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'SDES' flag encountered: '"STR_FORMAT"'",
STR_FMT(s));
}
}
INLINE void ng_osrtp_option(sdp_ng_flags *out, str *s, helper_arg dummy) {
switch (__csh_lookup(s)) {
case CSH_LOOKUP("accept-rfc"):
case CSH_LOOKUP("accept-RFC"):
out->osrtp_accept_rfc = 1;
break;
case CSH_LOOKUP("accept-legacy"):
out->osrtp_accept_legacy = 1;
break;
case CSH_LOOKUP("accept"):
out->osrtp_accept_rfc = 1;
out->osrtp_accept_legacy = 1;
break;
case CSH_LOOKUP("offer-legacy"):
out->osrtp_offer_legacy = 1;
break;
case CSH_LOOKUP("offer"):
case CSH_LOOKUP("offer-RFC"):
case CSH_LOOKUP("offer-rfc"):
out->osrtp_offer = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'OSRTP' flag encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
static void call_ng_flags_str_pair_ht(sdp_ng_flags *out, str *s, helper_arg arg) {
str *s_copy = str_dup_escape(s);
str token;
if (str_token(&token, s_copy, '>')) {
ilog(LOG_WARN, "SDP manipulations: Ignoring invalid token '" STR_FORMAT "'", STR_FMT(s));
free(s_copy);
return;
}
str_case_value_ht *ht = arg.svt;
if (!t_hash_table_is_set(*ht))
*ht = str_case_value_ht_new();
t_hash_table_replace(*ht, str_dup(&token), s_copy);
}
static void call_ng_flags_item_pair_ht(sdp_ng_flags *out, bencode_item_t *it, helper_arg arg) {
str from;
str to;
if (it->type != BENCODE_LIST
|| !it->child
|| !it->child->sibling
|| !bencode_get_str(it->child, &from)
|| !bencode_get_str(it->child->sibling, &to)
|| from.len == 0
|| to.len == 0)
{
ilog(LOG_WARN, "SDP manipulations: Ignoring invalid contents of string-pair list");
return;
}
str * s_copy_from = str_dup_escape(&from);
str * s_copy_to = str_dup_escape(&to);
str_case_value_ht *ht = arg.svt;
if (!t_hash_table_is_set(*ht))
*ht = str_case_value_ht_new();
t_hash_table_replace(*ht, s_copy_from, s_copy_to);
}
INLINE void ng_sdp_attr_manipulations(sdp_ng_flags *flags, bencode_item_t *value) {
if (!value || value->type != BENCODE_DICTIONARY) {
ilog(LOG_WARN, "SDP manipulations: Wrong type for this type of command.");
return;
}
for (bencode_item_t *it = value->child; it; it = it->sibling)
{
bencode_item_t *command_action = it->sibling ? it->sibling : NULL;
str media_type;
if (!command_action) /* if no action, makes no sense to continue */
continue;
/* detect media type */
if (!bencode_get_str(it, &media_type))
continue;
struct sdp_manipulations *sm = sdp_manipulations_get_by_name(flags, &media_type);
if (!sm) {
ilog(LOG_WARN, "SDP manipulations: unsupported SDP section '" STR_FORMAT "' targeted.",
STR_FMT(&media_type));
continue;
}
for (bencode_item_t *it_c = command_action->child; it_c; it_c = it_c->sibling)
{
bencode_item_t *command_value = it_c->sibling ? it_c->sibling : NULL;
if (!command_value) /* if no value, makes no sense to check further */
continue;
/* detect command type */
str command_type;
if (!bencode_get_str(it_c, &command_type))
continue;
switch (__csh_lookup(&command_type)) {
case CSH_LOOKUP("substitute"):
call_ng_flags_list(NULL, command_value, call_ng_flags_str_pair_ht, call_ng_flags_item_pair_ht,
&sm->subst_commands);
break;
case CSH_LOOKUP("add"):
call_ng_flags_str_list(NULL, command_value, call_ng_flags_esc_str_list, &sm->add_commands);
break;
/* CMD_REM commands */
case CSH_LOOKUP("remove"):
call_ng_flags_str_list(NULL, command_value, call_ng_flags_str_ht, &sm->rem_commands);
break;
default:
ilog(LOG_WARN, "SDP manipulations: Unknown SDP manipulation command type.");
continue;
}
}
}
}
INLINE void ng_el_option(sdp_ng_flags *out, str *s, helper_arg dummy) {
switch (__csh_lookup(s)) {
case CSH_LOOKUP("off"):
out->el_option = EL_OFF;
break;
case CSH_LOOKUP("immediate"):
out->el_option = EL_IMMEDIATE;
break;
case CSH_LOOKUP("delayed"):
out->el_option = EL_DELAYED;
break;
case CSH_LOOKUP("heuristic"):
out->el_option = EL_HEURISTIC;
break;
default:
ilog(LOG_WARN, "Unknown 'endpoint-learning' flag encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
#ifdef WITH_TRANSCODING
INLINE void ng_t38_option(sdp_ng_flags *out, str *s, helper_arg dummy) {
str_hyphenate(s);
switch (__csh_lookup(s)) {
case CSH_LOOKUP("decode"):
out->t38_decode = 1;
break;
case CSH_LOOKUP("force"):
out->t38_force = 1;
break;
case CSH_LOOKUP("stop"):
out->t38_stop = 1;
break;
case CSH_LOOKUP("no-ecm"):
case CSH_LOOKUP("no-ECM"):
out->t38_no_ecm = 1;
break;
case CSH_LOOKUP("no-V17"):
case CSH_LOOKUP("no-V.17"):
case CSH_LOOKUP("no-v17"):
case CSH_LOOKUP("no-v.17"):
out->t38_no_v17 = 1;
break;
case CSH_LOOKUP("no-V.27ter"):
case CSH_LOOKUP("no-V27ter"):
case CSH_LOOKUP("no-v.27ter"):
case CSH_LOOKUP("no-v27ter"):
out->t38_no_v27ter = 1;
break;
case CSH_LOOKUP("no-V29"):
case CSH_LOOKUP("no-V.29"):
case CSH_LOOKUP("no-v29"):
case CSH_LOOKUP("no-v.29"):
out->t38_no_v29 = 1;
break;
case CSH_LOOKUP("no-V34"):
case CSH_LOOKUP("no-V.34"):
case CSH_LOOKUP("no-v34"):
case CSH_LOOKUP("no-v.34"):
out->t38_no_v34 = 1;
break;
case CSH_LOOKUP("no-IAF"):
case CSH_LOOKUP("no-iaf"):
out->t38_no_iaf = 1;
break;
case CSH_LOOKUP("FEC"):
case CSH_LOOKUP("fec"):
out->t38_fec = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'T.38' flag encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
#endif
static void call_ng_flags_list(sdp_ng_flags *out, bencode_item_t *list,
void (*str_callback)(sdp_ng_flags *, str *, helper_arg),
void (*item_callback)(sdp_ng_flags *, bencode_item_t *, helper_arg),
helper_arg arg)
{
str s;
if (list->type != BENCODE_LIST) {
if (bencode_get_str(list, &s)) {
str token;
while (str_token_sep(&token, &s, ',') == 0)
str_callback(out, &token, arg);
}
else
ilog(LOG_DEBUG, "Ignoring non-list non-string value");
return;
}
for (bencode_item_t *it = list->child; it; it = it->sibling) {
if (bencode_get_str(it, &s))
str_callback(out, &s, arg);
else if (item_callback)
item_callback(out, it, arg);
else
ilog(LOG_DEBUG, "Ignoring non-string value in list");
}
}
static void call_ng_flags_str_list(sdp_ng_flags *out, bencode_item_t *list,
void (*callback)(sdp_ng_flags *, str *, helper_arg), helper_arg arg)
{
call_ng_flags_list(out, list, callback, NULL, arg);
}
static void call_ng_flags_rtcp_mux(sdp_ng_flags *out, str *s, helper_arg dummy) {
switch (__csh_lookup(s)) {
case CSH_LOOKUP("accept"):
out->rtcp_mux_accept = 1;
break;
case CSH_LOOKUP("demux"):
out->rtcp_mux_demux = 1;
break;
case CSH_LOOKUP("offer"):
out->rtcp_mux_offer = 1;
break;
case CSH_LOOKUP("reject"):
out->rtcp_mux_reject = 1;
break;
case CSH_LOOKUP("require"):
out->rtcp_mux_require = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'rtcp-mux' flag encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
static void call_ng_flags_replace(sdp_ng_flags *out, str *s, helper_arg arg) {
str_hyphenate(s);
switch (__csh_lookup(s)) {
case CSH_LOOKUP("force-increment-sdp-ver"):
out->force_inc_sdp_ver = 1;
out->replace_sdp_version = 1;
break;
case CSH_LOOKUP("origin"):
out->replace_origin = 1;
break;
case CSH_LOOKUP("sdp-version"):
case CSH_LOOKUP("SDP-version"):
out->replace_sdp_version = 1;
break;
case CSH_LOOKUP("session-connection"):
out->replace_sess_conn = 1;
break;
case CSH_LOOKUP("session-name"):
out->replace_sess_name = 1;
break;
case CSH_LOOKUP("username"):
out->replace_username = 1;
break;
case CSH_LOOKUP("zero-address"):
out->replace_zero_address = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'replace' flag encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
static void call_ng_flags_supports(sdp_ng_flags *out, str *s, helper_arg dummy) {
if (!str_cmp(s, "load limit"))
out->supports_load_limit = 1;
else
ilog(LOG_INFO | LOG_FLAG_LIMIT, "Optional feature '" STR_FORMAT "' not supported",
STR_FMT(s));
}
static str *str_dup_escape(const str *s) {
str *ret = str_dup(s);
int i;
while ((i = str_str(ret, "--")) >= 0) {
ret->s[i] = '=';
memmove(&ret->s[i + 1], &ret->s[i + 2], ret->len - i - 2);
ret->len--;
}
while ((i = str_str(ret, "..")) >= 0) {
ret->s[i] = ' ';
memmove(&ret->s[i + 1], &ret->s[i + 2], ret->len - i - 2);
ret->len--;
}
return ret;
}
static void call_ng_flags_esc_str_list(sdp_ng_flags *out, str *s, helper_arg arg) {
str *s_copy = str_dup_escape(s);
t_queue_push_tail(arg.q, s_copy);
}
/**
* Stores flag's value in the given GhashTable.
*/
static void call_ng_flags_str_ht(sdp_ng_flags *out, str *s, helper_arg arg) {
str *s_copy = str_dup_escape(s);
str_case_ht *ht = arg.sct;
if (!t_hash_table_is_set(*ht))
*ht = str_case_ht_new();
t_hash_table_replace(*ht, s_copy, s_copy);
}
/**
* Parses one-row flags separated by 'delimiter'.
* Stores parsed flag's values then in the given GQueue.
*/
static void call_ng_flags_str_q_multi(sdp_ng_flags *out, str *s, helper_arg arg) {
str *s_copy = str_dup_escape(s);
str token;
str_q *q = arg.q;
if (s_copy->len == 0)
ilog(LOG_DEBUG, "Hm, nothing to parse.");
while (str_token_sep(&token, s_copy, ';') == 0)
{
str * ret = str_dup(&token);
t_queue_push_tail(q, ret);
}
free(s_copy);
}
#ifdef WITH_TRANSCODING
static void call_ng_flags_str_ht_split(sdp_ng_flags *out, str *s, helper_arg arg) {
str_case_value_ht *ht = arg.svt;
if (!t_hash_table_is_set(*ht))
*ht = str_case_value_ht_new();
str splitter = *s;
while (1) {
t_hash_table_replace(*ht, str_dup_escape(&splitter), str_dup_escape(s));
char *c = memrchr(splitter.s, '/', splitter.len);
if (!c)
break;
splitter.len = c - splitter.s;
}
}
#endif
struct sdp_attr_helper {
void (*fn)(sdp_ng_flags *out, str *s, helper_arg);
size_t offset;
};
static const struct sdp_attr_helper sdp_attr_helper_add = {
.fn = call_ng_flags_esc_str_list,
.offset = G_STRUCT_OFFSET(struct sdp_manipulations, add_commands),
};
static const struct sdp_attr_helper sdp_attr_helper_remove = {
.fn = call_ng_flags_str_ht,
.offset = G_STRUCT_OFFSET(struct sdp_manipulations, rem_commands),
};
static const struct sdp_attr_helper sdp_attr_helper_substitute = {
.fn = call_ng_flags_str_pair_ht,
.offset = G_STRUCT_OFFSET(struct sdp_manipulations, subst_commands),
};
static void call_ng_flags_sdp_attr_helper(sdp_ng_flags *out, str *s, helper_arg arg) {
// get media type
str token;
if (str_token(&token, s, '-'))
return;
struct sdp_manipulations *sm = sdp_manipulations_get_by_name(out, &token);
if (!sm) {
ilog(LOG_WARN, "SDP manipulations: unsupported SDP section '" STR_FORMAT "' targeted.",
STR_FMT(&token));
return;
}
const struct sdp_attr_helper *h = arg.attr_helper;
h->fn(out, s, &G_STRUCT_MEMBER(void *, sm, h->offset));
}
// helper to alias values from other dictionaries into the "flags" dictionary
INLINE int call_ng_flags_prefix(sdp_ng_flags *out, str *s_ori, const char *prefix,
void (*cb)(sdp_ng_flags *, str *, helper_arg), helper_arg arg)
{
size_t len = strlen(prefix);
str s = *s_ori;
if (len > 0)
if (str_shift_cmp(&s, prefix))
return 0;
cb(out, &s, arg);
return 1;
}
void call_ng_flags_flags(sdp_ng_flags *out, str *s, helper_arg dummy) {
str_hyphenate(s);
switch (__csh_lookup(s)) {
case CSH_LOOKUP("all"):
out->all = ALL_ALL;
break;
case CSH_LOOKUP("allow-asymmetric-codecs"):
case CSH_LOOKUP("allow-asymmetric-codec"):
out->allow_asymmetric_codecs = 1;
break;
case CSH_LOOKUP("allow-transcoding"):
out->allow_transcoding = 1;
break;
case CSH_LOOKUP("always-transcode"):;
static const str str_all = STR_CONST_INIT("all");
call_ng_flags_esc_str_list(out, (str *) &str_all, &out->codec_accept);
break;
case CSH_LOOKUP("asymmetric"):
out->asymmetric = 1;
break;
case CSH_LOOKUP("asymmetric-codecs"):
ilog(LOG_INFO, "Ignoring obsolete flag `asymmetric-codecs`");
break;
case CSH_LOOKUP("audio-player"):
case CSH_LOOKUP("player"):
out->audio_player = AP_TRANSCODING;
break;
case CSH_LOOKUP("block-dtmf"):
case CSH_LOOKUP("block-DTMF"):
out->block_dtmf = 1;
break;
case CSH_LOOKUP("block-egress"):
out->block_egress = 1;
break;
case CSH_LOOKUP("block-short"):
case CSH_LOOKUP("block-shorts"):
case CSH_LOOKUP("block-short-packets"):
out->block_short = 1;
break;
case CSH_LOOKUP("debug"):
case CSH_LOOKUP("debugging"):
out->debug = 1;
break;
case CSH_LOOKUP("detect-DTMF"):
case CSH_LOOKUP("detect-dtmf"):
out->detect_dtmf = 1;
break;
case CSH_LOOKUP("directional"):
out->directional = 1;
break;
case CSH_LOOKUP("discard-recording"):
out->discard_recording = 1;
break;
case CSH_LOOKUP("early-media"):
out->early_media = 1;
break;
case CSH_LOOKUP("egress"):
out->egress = 1;
break;
case CSH_LOOKUP("exclude-recording"):
out->exclude_recording = 1;
break;
case CSH_LOOKUP("fragment"):
out->fragment = 1;
break;
case CSH_LOOKUP("full-rtcp-attribute"):
case CSH_LOOKUP("full-RTCP-attribute"):
out->full_rtcp_attr = 1;
break;
case CSH_LOOKUP("generate-mid"):
out->generate_mid = 1;
break;
case CSH_LOOKUP("generate-RTCP"):
case CSH_LOOKUP("generate-rtcp"):
out->generate_rtcp = 1;
break;
case CSH_LOOKUP("ICE-reject"):
case CSH_LOOKUP("ice-reject"):
case CSH_LOOKUP("reject-ice"):
case CSH_LOOKUP("reject-ICE"):
out->ice_reject = 1;
break;
case CSH_LOOKUP("inactive"):
out->inactive = 1;
break;
case CSH_LOOKUP("inject-DTMF"):
case CSH_LOOKUP("inject-dtmf"):
out->inject_dtmf = 1;
break;
case CSH_LOOKUP("loop-protect"):
out->loop_protect = 1;
break;
case CSH_LOOKUP("media-handover"):
out->media_handover = 1;
break;
case CSH_LOOKUP("mirror-RTCP"):
case CSH_LOOKUP("mirror-rtcp"):
case CSH_LOOKUP("RTCP-mirror"):
case CSH_LOOKUP("rtcp-mirror"):
out->rtcp_mirror = 1;
break;
case CSH_LOOKUP("NAT-wait"):
case CSH_LOOKUP("nat-wait"):
out->nat_wait = 1;
break;
case CSH_LOOKUP("no-codec-renegotiation"):
case CSH_LOOKUP("reuse-codecs"):
out->reuse_codec = 1;
break;
case CSH_LOOKUP("no-passthrough"):
out->passthrough_off = 1;
break;
case CSH_LOOKUP("no-player"):
case CSH_LOOKUP("no-audio-player"):
out->audio_player = AP_OFF;
break;
case CSH_LOOKUP("no-port-latching"):
out->no_port_latching = 1;
break;
case CSH_LOOKUP("no-redis-update"):
out->no_redis_update = 1;
break;
case CSH_LOOKUP("no-rtcp-attribute"):
case CSH_LOOKUP("no-RTCP-attribute"):
out->no_rtcp_attr = 1;
break;
case CSH_LOOKUP("no-jitter-buffer"):
out->disable_jb = 1;
break;
case CSH_LOOKUP("original-sendrecv"):
out->original_sendrecv = 1;
break;
case CSH_LOOKUP("pad-crypto"):
out->sdes_pad = 1;
break;
case CSH_LOOKUP("passthrough"):
out->passthrough_on = 1;
break;
case CSH_LOOKUP("pierce-NAT"):
case CSH_LOOKUP("pierce-nat"):
out->pierce_nat = 1;
break;
case CSH_LOOKUP("port-latching"):
out->port_latching = 1;
break;
case CSH_LOOKUP("record-call"):
out->record_call = 1;
break;
case CSH_LOOKUP("recording-vsc"):
case CSH_LOOKUP("recording-VSC"):
out->recording_vsc = 1;
break;
case CSH_LOOKUP("recording-announcement"):
out->recording_announcement = 1;
break;
case CSH_LOOKUP("reorder-codecs"):
ilog(LOG_INFO, "Ignoring obsolete flag `reorder-codecs`");
break;
case CSH_LOOKUP("reset"):
out->reset = 1;
break;
case CSH_LOOKUP("single-codec"):
out->single_codec = 1;
break;
case CSH_LOOKUP("SIP-source-address"):
case CSH_LOOKUP("sip-source-address"):
out->trust_address = 0;
break;
case CSH_LOOKUP("SIPREC"):
case CSH_LOOKUP("siprec"):
out->siprec = 1;
break;
case CSH_LOOKUP("skip-recording-db"):
case CSH_LOOKUP("skip-recording-database"):
out->skip_recording_db = 1;
break;
case CSH_LOOKUP("static-codec"):
case CSH_LOOKUP("static-codecs"):
out->static_codecs = 1;
break;
case CSH_LOOKUP("strict-source"):
out->strict_source = 1;
break;
case CSH_LOOKUP("strip-extmap"):
out->strip_extmap = 1;
break;
case CSH_LOOKUP("symmetric-codecs"):
ilog(LOG_INFO, "Ignoring obsolete flag `symmetric-codecs`");
break;
case CSH_LOOKUP("trickle-ICE"):
case CSH_LOOKUP("trickle-ice"):
out->trickle_ice = 1;
break;
case CSH_LOOKUP("trust-address"):
out->trust_address = 1;
break;
case CSH_LOOKUP("unidirectional"):
out->unidirectional = 1;
break;
default:
/* handle values aliases from other dictionaries */
if (call_ng_flags_prefix(out, s, "endpoint-learning-", ng_el_option, NULL))
return;
if (call_ng_flags_prefix(out, s, "from-tags-", call_ng_flags_esc_str_list,
&out->from_tags))
return;
/* OSRTP */
if (call_ng_flags_prefix(out, s, "OSRTP-", ng_osrtp_option, NULL))
return;
/* replacing SDP body parts */
if (call_ng_flags_prefix(out, s, "replace-", call_ng_flags_replace, NULL))
return;
/* rtcp-mux */
if (call_ng_flags_prefix(out, s, "rtcp-mux-", call_ng_flags_rtcp_mux, NULL))
return;
/* codec manipulations */
{
if (call_ng_flags_prefix(out, s, "codec-except-", call_ng_flags_str_ht,
&out->codec_except))
return;
if (call_ng_flags_prefix(out, s, "codec-offer-", call_ng_flags_esc_str_list,
&out->codec_offer))
return;
if (call_ng_flags_prefix(out, s, "codec-strip-", call_ng_flags_esc_str_list,
&out->codec_strip))
return;
}
/* SDES */
{
if (call_ng_flags_prefix(out, s, "SDES-", ng_sdes_option, NULL))
return;
if (call_ng_flags_prefix(out, s, "SDES-offerer_pref:", call_ng_flags_str_q_multi,
&out->sdes_offerer_pref))
return;
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-only-", call_ng_flags_str_ht, &out->sdes_only))
return;
if (call_ng_flags_prefix(out, s, "SDES-order:", call_ng_flags_str_q_multi, &out->sdes_order))
return;
}
/* SDP attributes manipulations */
{
if (call_ng_flags_prefix(out, s, "sdp-attr-add-", call_ng_flags_sdp_attr_helper, &sdp_attr_helper_add))
return;
if (call_ng_flags_prefix(out, s, "sdp-attr-remove-", call_ng_flags_sdp_attr_helper, &sdp_attr_helper_remove))
return;
if (call_ng_flags_prefix(out, s, "sdp-attr-substitute-", call_ng_flags_sdp_attr_helper, &sdp_attr_helper_substitute))
return;
}
#ifdef WITH_TRANSCODING
/* transcoding */
{
if (out->opmode == OP_OFFER || out->opmode == OP_REQUEST || out->opmode == OP_PUBLISH) {
if (call_ng_flags_prefix(out, s, "transcode-", call_ng_flags_esc_str_list,
&out->codec_transcode))
return;
if (call_ng_flags_prefix(out, s, "codec-transcode-", call_ng_flags_esc_str_list,
&out->codec_transcode))
return;
if (call_ng_flags_prefix(out, s, "codec-mask-", call_ng_flags_esc_str_list,
&out->codec_mask))
return;
if (call_ng_flags_prefix(out, s, "T38-", ng_t38_option, NULL))
return;
if (call_ng_flags_prefix(out, s, "T.38-", ng_t38_option, NULL))
return;
}
if (call_ng_flags_prefix(out, s, "codec-accept-", call_ng_flags_esc_str_list,
&out->codec_accept))
return;
if (call_ng_flags_prefix(out, s, "codec-consume-", call_ng_flags_esc_str_list,
&out->codec_consume))
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));
}
}
void call_ng_flags_init(sdp_ng_flags *out, enum call_opmode opmode) {
ZERO(*out);
out->opmode = opmode;
out->trust_address = trust_address_def;
out->dtls_passive = dtls_passive_def;
out->dtls_reverse_passive = dtls_passive_def;
out->el_option = rtpe_config.endpoint_learning;
out->tos = 256;
out->delay_buffer = -1;
out->volume = 9999;
out->digit = -1;
out->frequencies = g_array_new(false, false, sizeof(int));
}
static void call_ng_dict_iter(sdp_ng_flags *out, bencode_item_t *input,
enum call_opmode opmode,
void (*callback)(sdp_ng_flags *, str *key, bencode_item_t *value, enum call_opmode _opmode))
{
if (input->type != BENCODE_DICTIONARY)
return;
bencode_item_t *value = NULL;
for (bencode_item_t *key = input->child; key; key = value->sibling) {
value = key->sibling;
if (!value)
break;
str k;
if (!bencode_get_str(key, &k))
continue;
callback(out, &k, value, opmode);
}
}
void call_ng_direction_flag(sdp_ng_flags *out, bencode_item_t *value)
{
if (value->type != BENCODE_LIST)
return;
int diridx = 0;
for (bencode_item_t *cit = value->child; cit && diridx < 2; cit = cit->sibling)
bencode_get_str(cit, &out->direction[diridx++]);
}
void call_ng_codec_flags(sdp_ng_flags *out, str *key, bencode_item_t *value,
enum call_opmode opmode)
{
switch (__csh_lookup(key)) {
case CSH_LOOKUP("except"):
call_ng_flags_str_list(out, value, call_ng_flags_str_ht, &out->codec_except);
return;
case CSH_LOOKUP("offer"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->codec_offer);
return;
case CSH_LOOKUP("strip"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->codec_strip);
return;
}
#ifdef WITH_TRANSCODING
if (out->opmode == OP_OFFER || out->opmode == OP_REQUEST || out->opmode == OP_PUBLISH) {
switch (__csh_lookup(key)) {
case CSH_LOOKUP("accept"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->codec_accept);
return;
case CSH_LOOKUP("consume"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->codec_consume);
return;
case CSH_LOOKUP("mask"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->codec_mask);
return;
case CSH_LOOKUP("set"):
call_ng_flags_str_list(out, value, call_ng_flags_str_ht_split, &out->codec_set);
return;
case CSH_LOOKUP("transcode"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list,
&out->codec_transcode);
return;
}
}
else {
// silence warnings
switch (__csh_lookup(key)) {
case CSH_LOOKUP("accept"):
case CSH_LOOKUP("consume"):
case CSH_LOOKUP("mask"):
case CSH_LOOKUP("set"):
case CSH_LOOKUP("transcode"):
return;
}
}
#endif
ilog(LOG_WARN, "Unknown 'codec' operation encountered: '" STR_FORMAT "'", STR_FMT(key));
}
#ifdef WITH_TRANSCODING
static void call_ng_parse_block_mode(str *s, enum block_dtmf_mode *output) {
switch (__csh_lookup(s)) {
case CSH_LOOKUP("drop"):
*output = BLOCK_DTMF_DROP;
break;
case CSH_LOOKUP("DTMF"):
case CSH_LOOKUP("dtmf"):
*output = BLOCK_DTMF_DTMF;
break;
case CSH_LOOKUP("off"):
*output = BLOCK_DTMF_OFF;
break;
case CSH_LOOKUP("random"):
*output = BLOCK_DTMF_RANDOM;
break;
case CSH_LOOKUP("silence"):
*output = BLOCK_DTMF_SILENCE;
break;
case CSH_LOOKUP("tone"):
*output = BLOCK_DTMF_TONE;
break;
case CSH_LOOKUP("zero"):
*output = BLOCK_DTMF_ZERO;
break;
default:
ilog(LOG_WARN, "Unknown DTMF block mode encountered: '" STR_FORMAT "'",
STR_FMT(s));
}
}
#endif
static void call_ng_flags_freqs(sdp_ng_flags *out, bencode_item_t *value) {
unsigned int val;
switch (value->type) {
case BENCODE_INTEGER:;
val = value->value;
g_array_append_val(out->frequencies, val);
break;
case BENCODE_LIST:
for (bencode_item_t *it = value->child; it; it = it->sibling)
call_ng_flags_freqs(out, it);
break;
case BENCODE_STRING:;
str s, token;
bencode_get_str(value, &s);
while (str_token_sep(&token, &s, ',') == 0) {
val = str_to_i(&token, 0);
g_array_append_val(out->frequencies, val);
}
break;
default:
ilog(LOG_WARN, "Invalid content type in `frequencies` list");
}
}
void call_ng_main_flags(sdp_ng_flags *out, str *key, bencode_item_t *value,
enum call_opmode opmode)
{
str s = STR_NULL;
bencode_item_t *it;
bencode_get_str(value, &s);
switch (__csh_lookup(key)) {
case CSH_LOOKUP("address"):
out->address = s;
break;
case CSH_LOOKUP("address family"):
case CSH_LOOKUP("address-family"):
if (bencode_get_str(value, &out->address_family_str))
out->address_family = get_socket_family_rfc(&out->address_family_str);
break;
case CSH_LOOKUP("all"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("all"):
out->all = ALL_ALL;
break;
case CSH_LOOKUP("none"):
out->all = ALL_NONE;
break;
case CSH_LOOKUP("offer-answer"):
out->all = ALL_OFFER_ANSWER;
break;
case CSH_LOOKUP("not-offer-answer"):
case CSH_LOOKUP("non-offer-answer"):
case CSH_LOOKUP("except-offer-answer"):
out->all = ALL_NON_OFFER_ANSWER;
break;
case CSH_LOOKUP("flows"):
out->all = ALL_FLOWS;
break;
default:
ilog(LOG_WARN, "Unknown 'all' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("audio-player"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("default"):
out->audio_player = AP_DEFAULT;
break;
case CSH_LOOKUP("on"):
case CSH_LOOKUP("yes"):
case CSH_LOOKUP("enable"):
case CSH_LOOKUP("enabled"):
case CSH_LOOKUP("transcode"):
case CSH_LOOKUP("transcoding"):
out->audio_player = AP_TRANSCODING;
break;
case CSH_LOOKUP("no"):
case CSH_LOOKUP("off"):
case CSH_LOOKUP("disable"):
case CSH_LOOKUP("disabled"):
out->audio_player = AP_OFF;
break;
case CSH_LOOKUP("force"):
case CSH_LOOKUP("forced"):
case CSH_LOOKUP("always"):
case CSH_LOOKUP("everything"):
out->audio_player = AP_FORCE;
break;
default:
ilog(LOG_WARN, "Unknown 'audio-player' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("blob"):
out->blob = s;
break;
case CSH_LOOKUP("call-id"):
case CSH_LOOKUP("call-ID"):
case CSH_LOOKUP("call id"):
case CSH_LOOKUP("call ID"):
out->call_id = s;
break;
case CSH_LOOKUP("code"):
case CSH_LOOKUP("digit"):
out->digit = bencode_get_integer_str(value, out->digit);
if (s.len == 1)
out->digit = s.s[0];
break;
case CSH_LOOKUP("codec"):
call_ng_dict_iter(out, value, opmode, call_ng_codec_flags);
break;
case CSH_LOOKUP("command"):
break;
case CSH_LOOKUP("db-id"):
out->db_id = bencode_get_integer_str(value, out->db_id);
break;
case CSH_LOOKUP("direction"):
call_ng_direction_flag(out, value);
break;
case CSH_LOOKUP("drop-traffic"):
case CSH_LOOKUP("drop traffic"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("start"):
out->drop_traffic_start = 1;
break;
case CSH_LOOKUP("stop"):
out->drop_traffic_stop = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'drop-traffic' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("DTLS"):
case CSH_LOOKUP("dtls"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("passive"):
out->dtls_passive = 1;
break;
case CSH_LOOKUP("active"):
out->dtls_passive = 0;
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));
}
break;
case CSH_LOOKUP("DTLS fingerprint"):
case CSH_LOOKUP("DTLS-fingerprint"):
case CSH_LOOKUP("dtls fingerprint"):
case CSH_LOOKUP("dtls-fingerprint"):
out->dtls_fingerprint = s;
break;
case CSH_LOOKUP("DTLS-reverse"):
case CSH_LOOKUP("dtls-reverse"):
case CSH_LOOKUP("DTLS reverse"):
case CSH_LOOKUP("dtls reverse"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("passive"):
out->dtls_reverse_passive = 1;
break;
case CSH_LOOKUP("active"):
out->dtls_reverse_passive = 0;
break;
default:
ilog(LOG_WARN, "Unknown 'DTLS-reverse' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("DTMF-delay"):
case CSH_LOOKUP("DTMF delay"):
case CSH_LOOKUP("dtmf-delay"):
case CSH_LOOKUP("dtmf delay"):
out->dtmf_delay = bencode_get_integer_str(value, out->dtmf_delay);
break;
case CSH_LOOKUP("dtmf-log-dest"):
case CSH_LOOKUP("DTMF-log-dest"):
case CSH_LOOKUP("dtmf-log-destination"):
case CSH_LOOKUP("DTMF-log-destination"):
if (endpoint_parse_any_str(&out->dtmf_log_dest, &s))
ilog(LOG_WARN, "Failed to parse 'dtmf-log-dest' address '" STR_FORMAT "'",
STR_FMT(&s));
break;
case CSH_LOOKUP("duration"):
out->duration = bencode_get_integer_str(value, out->duration);
break;
#ifdef WITH_TRANSCODING
case CSH_LOOKUP("DTMF-security"):
case CSH_LOOKUP("dtmf-security"):
case CSH_LOOKUP("DTMF security"):
case CSH_LOOKUP("dtmf security"):
call_ng_parse_block_mode(&s, &out->block_dtmf_mode);
break;
case CSH_LOOKUP("DTMF-security-trigger"):
case CSH_LOOKUP("dtmf-security-trigger"):
case CSH_LOOKUP("DTMF security trigger"):
case CSH_LOOKUP("dtmf security trigger"):
call_ng_parse_block_mode(&s, &out->block_dtmf_mode_trigger);
break;
case CSH_LOOKUP("DTMF-security-trigger-end"):
case CSH_LOOKUP("dtmf-security-trigger-end"):
case CSH_LOOKUP("DTMF security trigger end"):
case CSH_LOOKUP("dtmf security trigger end"):
call_ng_parse_block_mode(&s, &out->block_dtmf_mode_trigger_end);
break;
case CSH_LOOKUP("delay-buffer"):
case CSH_LOOKUP("delay buffer"):
out->delay_buffer = bencode_get_integer_str(value, out->delay_buffer);
break;
#endif
case CSH_LOOKUP("endpoint-learning"):
case CSH_LOOKUP("endpoint learning"):
call_ng_flags_str_list(out, value, ng_el_option, NULL);
break;
case CSH_LOOKUP("file"):
out->file = s;
break;
case CSH_LOOKUP("frequency"):
case CSH_LOOKUP("frequencies"):
call_ng_flags_freqs(out, value);
break;
case CSH_LOOKUP("from-label"):
case CSH_LOOKUP("label"):
out->label = s;
break;
case CSH_LOOKUP("from-tag"):
out->from_tag = s;
break;
case CSH_LOOKUP("from-tags"):
call_ng_flags_str_list(out, value, call_ng_flags_esc_str_list, &out->from_tags);
break;
case CSH_LOOKUP("flags"):
call_ng_flags_str_list(out, value, call_ng_flags_flags, NULL);
break;
case CSH_LOOKUP("generate RTCP"):
case CSH_LOOKUP("generate-RTCP"):
case CSH_LOOKUP("generate rtcp"):
case CSH_LOOKUP("generate-rtcp"):
if (!str_cmp(&s, "on"))
out->generate_rtcp = 1;
else if (!str_cmp(&s, "off"))
out->generate_rtcp_off = 1;
break;
case CSH_LOOKUP("ICE"):
case CSH_LOOKUP("ice"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("remove"):
out->ice_option = ICE_REMOVE;
break;
case CSH_LOOKUP("force"):
out->ice_option = ICE_FORCE;
break;
case CSH_LOOKUP("default"):
out->ice_option = ICE_DEFAULT;
break;
case CSH_LOOKUP("optional"):
out->ice_option = ICE_OPTIONAL;
break;
case CSH_LOOKUP("force_relay"):
case CSH_LOOKUP("force-relay"):
case CSH_LOOKUP("force relay"):
out->ice_option = ICE_FORCE_RELAY;
break;
default:
ilog(LOG_WARN, "Unknown 'ICE' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("ICE-lite"):
case CSH_LOOKUP("ice-lite"):
case CSH_LOOKUP("ICE lite"):
case CSH_LOOKUP("ice lite"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("off"):
case CSH_LOOKUP("none"):
case CSH_LOOKUP("no"):
out->ice_lite_option = ICE_LITE_OFF;
break;
case CSH_LOOKUP("forward"):
case CSH_LOOKUP("offer"):
case CSH_LOOKUP("fwd"):
case CSH_LOOKUP("fw"):
out->ice_lite_option = ICE_LITE_FWD;
break;
case CSH_LOOKUP("backward"):
case CSH_LOOKUP("backwards"):
case CSH_LOOKUP("reverse"):
case CSH_LOOKUP("answer"):
case CSH_LOOKUP("back"):
case CSH_LOOKUP("bkw"):
case CSH_LOOKUP("bk"):
out->ice_lite_option = ICE_LITE_BKW;
break;
case CSH_LOOKUP("both"):
out->ice_lite_option = ICE_LITE_BOTH;
break;
default:
ilog(LOG_WARN, "Unknown 'ICE-lite' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("interface"):
out->interface = s;
break;
case CSH_LOOKUP("media address"):
case CSH_LOOKUP("media-address"):
out->media_address = s;
break;
case CSH_LOOKUP("media echo"):
case CSH_LOOKUP("media-echo"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("blackhole"):
case CSH_LOOKUP("sinkhole"):
out->media_echo = MEO_BLACKHOLE;
break;
case CSH_LOOKUP("forward"):
case CSH_LOOKUP("fwd"):
case CSH_LOOKUP("fw"):
out->media_echo = MEO_FWD;
break;
case CSH_LOOKUP("backward"):
case CSH_LOOKUP("backwards"):
case CSH_LOOKUP("reverse"):
case CSH_LOOKUP("back"):
case CSH_LOOKUP("bkw"):
case CSH_LOOKUP("bk"):
out->media_echo = MEO_BKW;
break;
case CSH_LOOKUP("both"):
out->media_echo = MEO_BOTH;
break;
default:
ilog(LOG_WARN, "Unknown 'media-echo' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("metadata"):
out->metadata = s;
break;
case CSH_LOOKUP("OSRTP"):
case CSH_LOOKUP("osrtp"):
call_ng_flags_str_list(out, value, ng_osrtp_option, NULL);
break;
case CSH_LOOKUP("output-destination"):
case CSH_LOOKUP("output-dest"):
case CSH_LOOKUP("output-file"):
case CSH_LOOKUP("recording-destination"):
case CSH_LOOKUP("recording-dest"):
case CSH_LOOKUP("recording-file"):
case CSH_LOOKUP("output destination"):
case CSH_LOOKUP("output dest"):
case CSH_LOOKUP("output file"):
case CSH_LOOKUP("recording destination"):
case CSH_LOOKUP("recording dest"):
case CSH_LOOKUP("recording file"):
out->recording_file = s;
break;
case CSH_LOOKUP("passthrough"):
case CSH_LOOKUP("passthru"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("on"):
case CSH_LOOKUP("yes"):
case CSH_LOOKUP("enable"):
case CSH_LOOKUP("enabled"):
out->passthrough_on = 1;
break;
case CSH_LOOKUP("no"):
case CSH_LOOKUP("off"):
case CSH_LOOKUP("disable"):
case CSH_LOOKUP("disabled"):
out->passthrough_off = 1;
break;
default:
ilog(LOG_WARN, "Unknown 'passthrough' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("pause"):
out->pause = bencode_get_integer_str(value, out->pause);
break;
case CSH_LOOKUP("player"):
case CSH_LOOKUP("ptime"):
if (out->opmode == OP_OFFER)
out->ptime = bencode_get_integer_str(value, 0);
break;
case CSH_LOOKUP("ptime-reverse"):
case CSH_LOOKUP("ptime reverse"):
case CSH_LOOKUP("reverse ptime"):
case CSH_LOOKUP("reverse-ptime"):
if (out->opmode == OP_OFFER)
out->rev_ptime = bencode_get_integer_str(value, 0);
break;
case CSH_LOOKUP("received from"):
case CSH_LOOKUP("received-from"):
if (value->type != BENCODE_LIST)
break;
if ((it = value->child)) {
bencode_get_str(it, &out->received_from_family);
bencode_get_str(it->sibling, &out->received_from_address);
}
break;
case CSH_LOOKUP("record call"):
case CSH_LOOKUP("record-call"):
out->record_call_str = s;
break;
case CSH_LOOKUP("recording path"):
case CSH_LOOKUP("recording dir"):
case CSH_LOOKUP("recording directory"):
case CSH_LOOKUP("recording folder"):
case CSH_LOOKUP("output path"):
case CSH_LOOKUP("output dir"):
case CSH_LOOKUP("output directory"):
case CSH_LOOKUP("output folder"):
case CSH_LOOKUP("recording-path"):
case CSH_LOOKUP("recording-dir"):
case CSH_LOOKUP("recording-directory"):
case CSH_LOOKUP("recording-folder"):
case CSH_LOOKUP("output-path"):
case CSH_LOOKUP("output-dir"):
case CSH_LOOKUP("output-directory"):
case CSH_LOOKUP("output-folder"):
out->recording_path = s;
break;
case CSH_LOOKUP("recording pattern"):
case CSH_LOOKUP("recording-pattern"):
case CSH_LOOKUP("output pattern"):
case CSH_LOOKUP("output-pattern"):
out->recording_pattern = s;
break;
case CSH_LOOKUP("repeat-times"):
out->repeat_times = bencode_get_integer_str(value, out->repeat_times);
break;
case CSH_LOOKUP("replace"):
call_ng_flags_str_list(out, value, call_ng_flags_replace, NULL);
break;
case CSH_LOOKUP("rtcp-mux"):
case CSH_LOOKUP("RTCP-mux"):
call_ng_flags_str_list(out, value, call_ng_flags_rtcp_mux, NULL);
break;
case CSH_LOOKUP("rtpp-flags"):
case CSH_LOOKUP("rtpp_flags"):;
/* s - list of rtpp flags */
parse_rtpp_flags(&s, value->buffer, opmode, out);
break;
case CSH_LOOKUP("SDES"):
case CSH_LOOKUP("sdes"):
call_ng_flags_str_list(out, value, ng_sdes_option, NULL);
break;
case CSH_LOOKUP("SDP"):
case CSH_LOOKUP("sdp"):
out->sdp = s;
break;
case CSH_LOOKUP("sdp-attr"):
case CSH_LOOKUP("SDP-attr"):
if (value->type != BENCODE_DICTIONARY)
break;
ng_sdp_attr_manipulations(out, value);
break;
case CSH_LOOKUP("set-label"):
out->set_label = s;
break;
case CSH_LOOKUP("sip-message-type"):
case CSH_LOOKUP("sip_message_type"):
switch (__csh_lookup(&s)) {
case CSH_LOOKUP("sip-request"):
case CSH_LOOKUP("sip_request"):
out->message_type = SIP_REQUEST;
break;
case CSH_LOOKUP("sip-reply"):
case CSH_LOOKUP("sip_reply"):
out->message_type = SIP_REPLY;
break;
default:
ilog(LOG_WARN, "Unknown 'sip-message-type' flag encountered: '" STR_FORMAT "'",
STR_FMT(&s));
}
break;
case CSH_LOOKUP("start-pos"):
out->start_pos = bencode_get_integer_str(value, out->start_pos);
break;
case CSH_LOOKUP("supports"):
call_ng_flags_str_list(out, value, call_ng_flags_supports, NULL);
break;
#ifdef WITH_TRANSCODING
case CSH_LOOKUP("T38"):
case CSH_LOOKUP("T.38"):
case CSH_LOOKUP("t38"):
case CSH_LOOKUP("t.38"):
call_ng_flags_str_list(out, value, ng_t38_option, NULL);
break;
#endif
case CSH_LOOKUP("to-label"):
out->to_label = s;
break;
case CSH_LOOKUP("to-tag"):
out->to_tag = s;
break;
case CSH_LOOKUP("TOS"):
case CSH_LOOKUP("tos"):
out->tos = bencode_get_integer_str(value, out->tos);
break;
case CSH_LOOKUP("transport protocol"):
case CSH_LOOKUP("transport-protocol"):
if (!str_cmp(&s, "accept"))
out->protocol_accept = 1;
else
out->transport_protocol = transport_protocol(&s);
break;
case CSH_LOOKUP("trigger"):
out->trigger = s;
break;
case CSH_LOOKUP("trigger-end"):
case CSH_LOOKUP("trigger end"):
case CSH_LOOKUP("end trigger"):
case CSH_LOOKUP("end-trigger"):
out->trigger_end = s;
break;
case CSH_LOOKUP("trigger-end-time"):
case CSH_LOOKUP("trigger end time"):
case CSH_LOOKUP("end-trigger-time"):
case CSH_LOOKUP("end trigger time"):
out->trigger_end_ms = bencode_get_integer_str(value, out->trigger_end_ms);
break;
case CSH_LOOKUP("trigger-end-digits"):
case CSH_LOOKUP("trigger end digits"):
case CSH_LOOKUP("end-trigger-digits"):
case CSH_LOOKUP("end trigger digits"):
out->trigger_end_digits = bencode_get_integer_str(value, out->trigger_end_digits);
break;
case CSH_LOOKUP("via-branch"):
out->via_branch = s;
break;
case CSH_LOOKUP("volume"):
out->volume = bencode_get_integer_str(value, out->volume);
break;
case CSH_LOOKUP("vsc-pause-rec"):
case CSH_LOOKUP("VSC-pause-rec"):
case CSH_LOOKUP("vsc-pause-recording"):
case CSH_LOOKUP("VSC-pause-recording"):
out->vsc_pause_rec = s;
break;
case CSH_LOOKUP("vsc-pause-resume-rec"):
case CSH_LOOKUP("VSC-pause-resume-rec"):
case CSH_LOOKUP("vsc-pause-resume-recording"):
case CSH_LOOKUP("VSC-pause-resume-recording"):
out->vsc_pause_resume_rec = s;
break;
case CSH_LOOKUP("vsc-start-pause-resume-rec"):
case CSH_LOOKUP("VSC-start-pause-resume-rec"):
case CSH_LOOKUP("vsc-start-pause-resume-recording"):
case CSH_LOOKUP("VSC-start-pause-resume-recording"):
out->vsc_start_pause_resume_rec = s;
break;
case CSH_LOOKUP("vsc-start-rec"):
case CSH_LOOKUP("VSC-start-rec"):
case CSH_LOOKUP("vsc-start-recording"):
case CSH_LOOKUP("VSC-start-recording"):
out->vsc_start_rec = s;
break;
case CSH_LOOKUP("vsc-start-stop-rec"):
case CSH_LOOKUP("VSC-start-stop-rec"):
case CSH_LOOKUP("vsc-start-stop-recording"):
case CSH_LOOKUP("VSC-start-stop-recording"):
out->vsc_start_stop_rec = s;
break;
case CSH_LOOKUP("vsc-stop-rec"):
case CSH_LOOKUP("VSC-stop-rec"):
case CSH_LOOKUP("vsc-stop-recording"):
case CSH_LOOKUP("VSC-stop-recording"):
out->vsc_stop_rec = s;
break;
case CSH_LOOKUP("xmlrpc-callback"):
case CSH_LOOKUP("XMLRPC-callback"):
if (sockaddr_parse_any_str(&out->xmlrpc_callback, &s))
ilog(LOG_WARN, "Failed to parse 'xmlrpc-callback' address '" STR_FORMAT "'",
STR_FMT(&s));
break;
default:
ilog(LOG_WARN, "Unknown dictionary key encountered: '" STR_FORMAT "'", STR_FMT(key));
}
}
static void call_ng_process_flags(sdp_ng_flags *out, bencode_item_t *input, enum call_opmode opmode) {
call_ng_flags_init(out, opmode);
call_ng_dict_iter(out, input, opmode, call_ng_main_flags);
}
static void ng_sdp_attr_manipulations_free(struct sdp_manipulations * array[__MT_MAX]) {
for (int i = 0; i < __MT_MAX; i++) {
struct sdp_manipulations *sdp_manipulations = array[i];
if (!sdp_manipulations)
continue;
str_case_ht_destroy_ptr(&sdp_manipulations->rem_commands);
str_case_value_ht_destroy_ptr(&sdp_manipulations->subst_commands);
t_queue_clear_full(&sdp_manipulations->add_commands, str_free);
g_slice_free1(sizeof(*sdp_manipulations), sdp_manipulations);
array[i] = NULL;
}
}
void call_ng_free_flags(sdp_ng_flags *flags) {
str_case_ht_destroy_ptr(&flags->codec_except);
str_case_value_ht_destroy_ptr(&flags->codec_set);
str_case_ht_destroy_ptr(&flags->sdes_no);
str_case_ht_destroy_ptr(&flags->sdes_only);
if (flags->frequencies)
g_array_free(flags->frequencies, true);
t_queue_clear_full(&flags->from_tags, str_free);
t_queue_clear_full(&flags->codec_offer, str_free);
t_queue_clear_full(&flags->codec_transcode, str_free);
t_queue_clear_full(&flags->codec_strip, str_free);
t_queue_clear_full(&flags->codec_accept, str_free);
t_queue_clear_full(&flags->codec_consume, str_free);
t_queue_clear_full(&flags->codec_mask, str_free);
t_queue_clear_full(&flags->sdes_order, str_free);
t_queue_clear_full(&flags->sdes_offerer_pref, str_free);
t_queue_clear_full(&flags->session_attributes, sdp_attr_free);
ng_sdp_attr_manipulations_free(flags->sdp_manipulations);
}
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 (t_hash_table_size(rtpe_callhash) -
atomic64_get(&rtpe_stats_gauge.foreign_sessions) >= rtpe_config.max_sessions)
{
/* foreign calls can't get rejected
* total_rejected_sess applies only to "own" sessions */
RTPE_STATS_INC(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_rate.bytes_user) +
atomic64_get(&rtpe_stats_rate.bytes_kernel);
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;
}
void save_last_sdp(struct call_monologue *ml, str *sdp, sdp_sessions_q *parsed, sdp_streams_q *streams) {
str_free_dup(&ml->last_in_sdp);
ml->last_in_sdp = *sdp;
*sdp = STR_NULL;
sdp_sessions_clear(&ml->last_in_sdp_parsed);
ml->last_in_sdp_parsed = *parsed;
t_queue_init(parsed);
sdp_streams_clear(&ml->last_in_sdp_streams);
ml->last_in_sdp_streams = *streams;
t_queue_init(streams);
}
static const char *call_offer_answer_ng(ng_buffer *ngbuf, bencode_item_t *input,
bencode_item_t *output, enum call_opmode opmode, const char* addr,
const endpoint_t *sin)
{
const char *errstr;
g_auto(str) sdp = STR_NULL;
g_auto(sdp_sessions_q) parsed = TYPED_GQUEUE_INIT;
g_auto(sdp_streams_q) streams = TYPED_GQUEUE_INIT;
g_autoptr(call_t) call = NULL;
struct call_monologue * monologues[2];
int ret;
g_auto(sdp_ng_flags) flags;
struct sdp_chopper *chopper;
call_ng_process_flags(&flags, input, opmode);
if (!flags.sdp.s)
return "No SDP body in message";
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);
}
str_init_dup_str(&sdp, &flags.sdp);
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", &flags.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);
// SDP fragments for trickle ICE must always operate on an existing call
if (opmode == OP_OFFER && trickle_ice_update(ngbuf, call, &flags, &streams)) {
errstr = NULL;
// SDP fragments for trickle ICE are consumed with no replacement returned
goto out;
}
if (opmode == OP_OFFER && !call) {
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;
}
call = call_get_or_create(&flags.call_id, false);
}
errstr = "Unknown call-id";
if (!call)
goto out;
if (flags.debug)
CALL_SET(call, DEBUG);
if (rtpe_config.active_switchover && IS_FOREIGN_CALL(call))
call_make_own_foreign(call, false);
updated_created_from(call, addr, sin);
if (flags.xmlrpc_callback.family)
call->xmlrpc_callback = flags.xmlrpc_callback;
if (flags.dtmf_log_dest.address.family)
call->dtmf_log_dest = flags.dtmf_log_dest;
/* 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);
errstr = "Invalid dialogue association";
if (call_get_mono_dialogue(monologues, call, &flags.from_tag, &flags.to_tag,
flags.via_branch.s ? &flags.via_branch : NULL)) {
goto out;
}
struct call_monologue *from_ml = monologues[0];
struct call_monologue *to_ml = monologues[1];
if (opmode == OP_OFFER) {
from_ml->tagtype = FROM_TAG;
} else {
from_ml->tagtype = TO_TAG;
}
chopper = sdp_chopper_new(&sdp);
bencode_buffer_destroy_add(output->buffer, (free_func_t) sdp_chopper_destroy, chopper);
if (flags.drop_traffic_start) {
CALL_SET(call, DROP_TRAFFIC);
}
else if (flags.drop_traffic_stop) {
CALL_CLEAR(call, DROP_TRAFFIC);
}
if (flags.block_dtmf)
call_set_dtmf_block(call, monologues[0], &flags);
ret = monologue_offer_answer(monologues, &streams, &flags);
if (!ret)
ret = sdp_replace(chopper, &parsed, to_ml, &flags);
if (!ret)
save_last_sdp(from_ml, &sdp, &parsed, &streams);
update_metadata_monologue(from_ml, &flags);
detect_setup_recording(call, &flags);
struct recording *recording = call->recording;
if (recording != NULL) {
meta_write_sdp_before(recording, &sdp, from_ml, opmode);
meta_write_sdp_after(recording, chopper->output,
from_ml, opmode);
recording_response(recording, output);
}
dequeue_sdp_fragments(from_ml);
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");
}
gettimeofday(&(from_ml->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);
}
obj_release(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:
return errstr;
}
const char *call_offer_ng(ng_buffer *ngbuf, bencode_item_t *input, bencode_item_t *output,
const char* addr,
const endpoint_t *sin)
{
return call_offer_answer_ng(ngbuf, input, output, OP_OFFER, addr, sin);
}
const char *call_answer_ng(ng_buffer *ngbuf, bencode_item_t *input, bencode_item_t *output) {
return call_offer_answer_ng(ngbuf, 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;
bool fatal = false;
bool discard = false;
int 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 = true;
else if (!bencode_strcmp(it, "discard-recording"))
discard = true;
}
}
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);
}
}
call_t *c = call_get(&callid);
if (!c)
goto err;
if (discard)
recording_discard(c);
if (call_delete_branch(c, &viabranch, &fromtag, &totag, output, delete_delay))
goto err;
return NULL;
err:
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 stream_stats *s, struct stream_stats *totals) {
bencode_dictionary_add_integer(d, "packets", atomic64_get_na(&s->packets));
bencode_dictionary_add_integer(d, "bytes", atomic64_get_na(&s->bytes));
bencode_dictionary_add_integer(d, "errors", atomic64_get_na(&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);
}
static void ng_stats_stream_ssrc(bencode_item_t *dict, struct ssrc_ctx *const ssrcs[RTPE_NUM_SSRC_TRACKING],
const char *label)
{
bencode_item_t *list = bencode_dictionary_add_list(dict, label);
for (int i = 0; i < RTPE_NUM_SSRC_TRACKING; i++) {
struct ssrc_ctx *c = ssrcs[i];
if (!c)
break;
bencode_item_t *ssrc = bencode_list_add_dictionary(list);
bencode_dictionary_add_integer(ssrc, "SSRC", ssrcs[i]->parent->h.ssrc);
bencode_dictionary_add_integer(ssrc, "bytes", atomic64_get_na(&c->stats->bytes));
bencode_dictionary_add_integer(ssrc, "packets", atomic64_get_na(&c->stats->packets));
bencode_dictionary_add_integer(ssrc, "last RTP timestamp", atomic_get_na(&c->stats->timestamp));
bencode_dictionary_add_integer(ssrc, "last RTP seq", atomic_get_na(&c->stats->ext_seq));
}
}
#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 stream_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);
bencode_dictionary_add_string_dup(dict, "local address",
sockaddr_print_buf(&ps->selected_sfd->socket.local.address));
bencode_dictionary_add_string(dict, "family", ps->selected_sfd->socket.local.address.family->name);
}
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", packet_stream_last_packet(ps));
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);
ng_stats_stream_ssrc(dict, ps->ssrc_in, "ingress SSRCs");
ng_stats_stream_ssrc(dict, ps->ssrc_out, "egress SSRCs");
stats:
if (totals->last_packet < packet_stream_last_packet(ps))
totals->last_packet = packet_stream_last_packet(ps);
/* 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_in, s);
ng_stats(bencode_dictionary_add_dictionary(dict, "stats_out"), ps->stats_out, NULL);
}
#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;
struct packet_stream *ps;
const rtp_payload_type *rtp_pt = NULL;
if (!list)
goto stats;
rtp_pt = __rtp_stats_codec((struct call_media *)m);
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);
if (rtp_pt)
bencode_dictionary_add_str_dup(dict, "codec", &rtp_pt->encoding_with_params);
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 peer", ICE_LITE_PEER);
BF_M("ICE-lite self", ICE_LITE_SELF);
BF_M("unidirectional", UNIDIRECTIONAL);
BF_M("loop check", LOOP_CHECK);
BF_M("generator/sink", GENERATOR);
BF_M("ptime-override", PTIME_OVERRIDE);
BF_M("RTCP feedback", RTCP_FB);
BF_M("RTCP generator", RTCP_GEN);
BF_M("echo", ECHO);
BF_M("blackhole", BLACKHOLE);
BF_M("SDES reordered", REORDER_FORCED);
BF_M("audio player", AUDIO_PLAYER);
BF_M("legacy OSRTP", LEGACY_OSRTP);
BF_M("reverse legacy OSRTP", LEGACY_OSRTP_REV);
BF_M("transcoding", TRANSCODING);
BF_M("block egress", BLOCK_EGRESS);
stats:
for (auto_iter(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 *ssrc)
{
bencode_item_t *sub, *medias = NULL;
struct call_media *m;
g_auto(GQueue) mls_subscriptions = G_QUEUE_INIT; /* to avoid duplications */
g_auto(GQueue) mls_subscribers = G_QUEUE_INIT; /* to avoid duplications */
if (!ml)
return;
if (!dict)
goto stats;
if (ml->tag.len)
sub = bencode_dictionary_add_dictionary(dict, ml->tag.s);
else {
char *buf = bencode_buffer_alloc(dict->buffer, 32);
snprintf(buf, 32, "<untagged %u>", ml->unique_id);
sub = bencode_dictionary_add_dictionary(dict, buf);
}
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);
bencode_item_t *b_subscriptions = bencode_dictionary_add_list(sub, "subscriptions");
bencode_item_t *b_subscribers = bencode_dictionary_add_list(sub, "subscribers");
for (int i = 0; i < ml->medias->len; i++)
{
struct call_media * media = ml->medias->pdata[i];
if (!media)
continue;
for (__auto_type subscription = media->media_subscriptions.head;
subscription;
subscription = subscription->next)
{
struct media_subscription * ms = subscription->data;
if (!g_queue_find(&mls_subscriptions, ms->monologue)) {
bencode_item_t *sub1 = bencode_list_add_dictionary(b_subscriptions);
bencode_dictionary_add_str(sub1, "tag", &ms->monologue->tag);
bencode_dictionary_add_string(sub1, "type", ms->attrs.offer_answer ? "offer/answer" : "pub/sub");
g_queue_push_tail(&mls_subscriptions, ms->monologue);
}
}
for (__auto_type subscriber = media->media_subscribers.head;
subscriber;
subscriber = subscriber->next)
{
struct media_subscription * ms = subscriber->data;
if (!g_queue_find(&mls_subscribers, ms->monologue)) {
bencode_item_t *sub1 = bencode_list_add_dictionary(b_subscribers);
bencode_dictionary_add_str(sub1, "tag", &ms->monologue->tag);
bencode_dictionary_add_string(sub1, "type", ms->attrs.offer_answer ? "offer/answer" : "pub/sub");
g_queue_push_tail(&mls_subscribers, ms->monologue);
}
}
}
ng_stats_ssrc(ssrc, ml->ssrc_hash);
medias = bencode_dictionary_add_list(sub, "medias");
bencode_item_t *list = bencode_dictionary_add_list(sub, "VSC");
for (unsigned int i = 0; i < ml->num_dtmf_triggers; i++) {
const struct dtmf_trigger_state *state = &ml->dtmf_trigger_state[i];
if (state->trigger.len == 0)
continue;
bencode_item_t *vsc = bencode_list_add_dictionary(list);
const char *type = dtmf_trigger_types[state->type];
if (type)
bencode_dictionary_add_string(vsc, "type", type);
bencode_dictionary_add_str(vsc, "trigger", &state->trigger);
bencode_dictionary_add_integer(vsc, "active", !state->inactive);
}
if (ml->call->recording) {
bencode_item_t *rec = bencode_dictionary_add_dictionary(sub, "recording");
bencode_dictionary_add_integer(rec, "excluded", !!ML_ISSET(ml, NO_RECORDING));
bencode_dictionary_add_integer(rec, "forwarding", !!ML_ISSET(ml, REC_FORWARDING));
}
stats:
for (unsigned int i = 0; i < ml->medias->len; i++) {
m = ml->medias->pdata[i];
if (!m)
continue;
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, "round-trip time leg", sb->rtt_leg / 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);
if (bencode_dictionary_get(dict, tmp))
continue;
if (!se->stats_blocks.length || !se->lowest_mos || !se->highest_mos)
continue;
bencode_item_t *ent = bencode_dictionary_add_dictionary(dict, tmp);
bencode_dictionary_add_integer(ent, "cumulative loss", se->packets_lost);
int mos_samples = se->stats_blocks.length - se->no_mos_count;
if (mos_samples < 1) mos_samples = 1;
ng_stats_ssrc_mos_entry_dict_avg(ent, "average MOS", &se->average_mos, mos_samples);
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 *cent = bencode_list_add_dictionary(entlist);
ng_stats_ssrc_mos_entry(cent, sb);
}
}
g_list_free(ll);
}
/* call must be locked */
void ng_call_stats(call_t *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;
struct call_monologue *ml;
struct call_stats t_b;
bencode_item_t *ssrc = NULL;
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);
ssrc = bencode_dictionary_add_dictionary(output, "SSRC");
tags = bencode_dictionary_add_dictionary(output, "tags");
stats:
match_tag = (totag && totag->s && totag->len) ? totag : fromtag;
if (!match_tag || !match_tag->len) {
for (__auto_type l = call->monologues.head; l; l = l->next) {
ml = l->data;
ng_stats_monologue(tags, ml, totals, ssrc);
}
}
else {
ml = call_get_monologue(call, match_tag);
if (ml) {
ng_stats_monologue(tags, ml, totals, ssrc);
g_auto(GQueue) mls = G_QUEUE_INIT; /* to avoid duplications */
for (int i = 0; i < ml->medias->len; i++)
{
struct call_media * media = ml->medias->pdata[i];
if (!media)
continue;
for (__auto_type subscription = media->media_subscriptions.head;
subscription;
subscription = subscription->next)
{
struct media_subscription * ms = subscription->data;
if (!g_queue_find(&mls, ms->monologue)) {
ng_stats_monologue(tags, ms->monologue, totals, ssrc);
g_queue_push_tail(&mls, ms->monologue);
}
}
}
}
}
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);
if (call->recording) {
bencode_item_t *rec = bencode_dictionary_add_dictionary(output, "recording");
bencode_dictionary_add_integer(rec, "call recording", !!CALL_ISSET(call, RECORDING_ON));
bencode_dictionary_add_integer(rec, "forwarding", !!CALL_ISSET(call, REC_FORWARDING));
}
}
static void ng_list_calls(bencode_item_t *output, long long int limit) {
rtpe_calls_ht_iter iter;
rwlock_lock_r(&rtpe_callhash_lock);
t_hash_table_iter_init (&iter, rtpe_callhash);
str *key;
while (limit-- && t_hash_table_iter_next (&iter, &key, NULL)) {
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;
call_t *call;
if (!bencode_dictionary_get_str(input, "call-id", &callid))
return "No call-id in message";
call = call_get_opmode(&callid, OP_QUERY);
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;
}
static const char *call_recording_common_ng(bencode_item_t *input, bencode_item_t *output,
enum call_opmode opmode,
void (*fn)(bencode_item_t *input, call_t *call))
{
g_auto(sdp_ng_flags) flags;
g_autoptr(call_t) call = NULL;
call_ng_process_flags(&flags, input, opmode);
if (!bencode_dictionary_get_str(input, "call-id", &flags.call_id))
return "No call-id in message";
call = call_get_opmode(&flags.call_id, opmode);
if (!call)
return "Unknown call-id";
struct call_monologue *ml = NULL;
if (bencode_dictionary_get_str(input, "from-tag", &flags.from_tag)) {
if (flags.from_tag.s) {
ml = call_get_monologue(call, &flags.from_tag);
if (!ml)
ilog(LOG_WARN, "Given from-tag " STR_FORMAT_M " not found",
STR_FMT_M(&flags.from_tag));
}
}
if (ml)
update_metadata_monologue(ml, &flags);
else
update_metadata_call(call, &flags);
fn(input, call);
return NULL;
}
static void start_recording_fn(bencode_item_t *input, call_t *call) {
recording_start(call);
}
const char *call_start_recording_ng(bencode_item_t *input, bencode_item_t *output) {
return call_recording_common_ng(input, output, OP_START_RECORDING, start_recording_fn);
}
static void pause_recording_fn(bencode_item_t *input, call_t *call) {
recording_pause(call);
}
const char *call_pause_recording_ng(bencode_item_t *input, bencode_item_t *output) {
return call_recording_common_ng(input, output, OP_PAUSE_RECORDING, pause_recording_fn);
}
static void stop_recording_fn(bencode_item_t *input, call_t *call) {
// support alternative usage for "pause" call: either `pause=yes` ...
str pause;
if (bencode_dictionary_get_str(input, "pause", &pause)) {
if (!str_cmp(&pause, "yes") || !str_cmp(&pause, "on") || !str_cmp(&pause, "true")) {
pause_recording_fn(input, call);
return;
}
}
// ... or `flags=[pause]`
bencode_item_t *item = bencode_dictionary_get(input, "flags");
if (item && item->type == BENCODE_LIST && item->child) {
for (bencode_item_t *child = item->child; child; child = child->sibling) {
if (bencode_strcmp(child, "pause") == 0) {
pause_recording_fn(input, call);
return;
}
if (bencode_strcmp(child, "discard-recording") == 0) {
recording_discard(call);
return;
}
}
}
recording_stop(call);
}
const char *call_stop_recording_ng(bencode_item_t *input, bencode_item_t *output) {
return call_recording_common_ng(input, output, OP_STOP_RECORDING, stop_recording_fn);
}
static const char *media_block_match1(call_t *call, struct call_monologue **monologue,
sdp_ng_flags *flags, enum call_opmode opmode)
{
if (flags->label.s) {
*monologue = t_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 (__auto_type l = call->monologues.head; l; l = l->next) {
*monologue = l->data;
for (unsigned int k = 0; k < (*monologue)->medias->len; k++) {
struct call_media *media = (*monologue)->medias->pdata[k];
if (!media)
continue;
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:
;
}
/* ignore from-tag, if directional is not set */
else if (flags->from_tag.s &&
(!IS_OP_DIRECTIONAL(opmode) ||
(IS_OP_DIRECTIONAL(opmode) && flags->directional))) {
*monologue = call_get_monologue(call, &flags->from_tag);
if (!*monologue)
return "From-tag given, but no such tag exists";
}
if (*monologue)
__monologue_unconfirm(*monologue, "media blocking signalling event");
return NULL;
}
static const char *media_block_match(call_t **call, struct call_monologue **monologue,
sdp_ng_flags *flags, bencode_item_t *input, enum call_opmode opmode)
{
*call = NULL;
*monologue = NULL;
call_ng_process_flags(flags, input, opmode);
if (!flags->call_id.s)
return "No call-id in message";
*call = call_get_opmode(&flags->call_id, opmode);
if (!*call)
return "Unknown call-ID";
// directional?
if (flags->all == ALL_ALL) // explicitly non-directional, so skip the rest
return NULL;
const char *err = media_block_match1(*call, monologue, flags, opmode);
if (err)
return err;
// for generic ops, handle set-label here if given
if (IS_OP_OTHER(opmode) && flags->set_label.len && *monologue) {
call_str_cpy(*call, &(*monologue)->label, &flags->set_label);
t_hash_table_replace((*call)->labels, &(*monologue)->label, *monologue);
}
return NULL;
}
void add_media_to_sub_list(subscription_q *q, struct call_media *media, struct call_monologue *ml) {
struct media_subscription *ms = g_slice_alloc0(sizeof(*ms));
ms->media = media;
ms->monologue = ml;
t_queue_push_tail(q, ms);
}
static const char *media_block_match_mult(call_t **call, subscription_q *medias,
sdp_ng_flags *flags, bencode_item_t *input, enum call_opmode opmode)
{
call_ng_process_flags(flags, input, opmode);
if (!flags->call_id.s)
return "No call-id in message";
*call = call_get_opmode(&flags->call_id, opmode);
if (!*call)
return "Unknown call-ID";
if (flags->all == ALL_ALL) {
for (__auto_type l = (*call)->medias.head; l; l = l->next) {
struct call_media *media = l->data;
if (!media || (media->monologue->tagtype != FROM_TAG &&
media->monologue->tagtype != TO_TAG))
{
continue;
}
add_media_to_sub_list(medias, media, media->monologue);
}
return NULL;
}
/* is a single ml given? */
struct call_monologue *ml = NULL;
const char *err = media_block_match1(*call, &ml, flags, opmode);
if (err)
return err;
if (ml) {
for (int i = 0; i < ml->medias->len; i++)
{
struct call_media * media = ml->medias->pdata[i];
if (!media)
continue;
add_media_to_sub_list(medias, media, ml);
}
return NULL;
}
/* handle from-tag list */
for (__auto_type l = flags->from_tags.head; l; l = l->next) {
str *s = l->data;
struct call_monologue *mlf = call_get_monologue(*call, s);
if (!mlf) {
ilog(LOG_WARN, "Given from-tag " STR_FORMAT_M " not found", STR_FMT_M(s));
} else {
for (int i = 0; i < mlf->medias->len; i++)
{
struct call_media * media = mlf->medias->pdata[i];
if (!media)
continue;
add_media_to_sub_list(medias, media, mlf);
}
}
}
if (!medias->length)
return "No medias found (no monologues matched)";
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) {
g_autoptr(call_t) call = NULL;
struct call_monologue *monologue;
const char *errstr = NULL;
g_auto(sdp_ng_flags) flags;
errstr = media_block_match(&call, &monologue, &flags, input, OP_START_FORWARDING);
if (errstr)
return errstr;
if (monologue) {
ilog(LOG_INFO, "Start forwarding for single party (tag '" STR_FORMAT_M "')",
STR_FMT_M(&monologue->tag));
ML_SET(monologue, REC_FORWARDING);
}
else {
ilog(LOG_INFO, "Start forwarding (entire call)");
CALL_SET(call, REC_FORWARDING);
}
if (monologue)
update_metadata_monologue(monologue, &flags);
else
update_metadata_call(call, &flags);
recording_start_daemon(call);
return NULL;
}
const char *call_stop_forwarding_ng(bencode_item_t *input, bencode_item_t *output) {
g_autoptr(call_t) call = NULL;
struct call_monologue *monologue;
const char *errstr = NULL;
g_auto(sdp_ng_flags) flags;
errstr = media_block_match(&call, &monologue, &flags, input, OP_STOP_FORWARDING);
if (errstr)
return errstr;
if (monologue) {
ilog(LOG_INFO, "Stop forwarding for single party (tag '" STR_FORMAT_M "')",
STR_FMT_M(&monologue->tag));
ML_CLEAR(monologue, REC_FORWARDING);
}
else {
ilog(LOG_INFO, "Stop forwarding (entire call)");
CALL_CLEAR(call, REC_FORWARDING);
if (flags.all == ALL_ALL) {
for (__auto_type l = call->monologues.head; l; l = l->next) {
monologue = l->data;
ML_CLEAR(monologue, REC_FORWARDING);
}
}
}
if (monologue)
update_metadata_monologue(monologue, &flags);
else
update_metadata_call(call, &flags);
recording_stop_daemon(call);
return NULL;
}
static void call_monologue_set_block_mode(struct call_monologue *ml, sdp_ng_flags *flags) {
if (flags->delay_buffer >= 0) {
for (unsigned int i = 0; i < ml->medias->len; i++) {
struct call_media *media = ml->medias->pdata[i];
if (!media)
continue;
media->buffer_delay = flags->delay_buffer;
}
}
bf_set_clear(&ml->ml_flags, ML_FLAG_DETECT_DTMF, flags->detect_dtmf);
if (flags->volume >= 0 && flags->volume <= 63)
ml->tone_vol = flags->volume;
else if (flags->volume < 0 && flags->volume >= -63)
ml->tone_vol = -1 * flags->volume;
if (flags->frequencies && flags->frequencies->len > 0) {
if (ml->tone_freqs)
g_array_free(ml->tone_freqs, true);
ml->tone_freqs = flags->frequencies;
flags->frequencies = NULL;
}
if (flags->block_dtmf_mode == BLOCK_DTMF_ZERO)
ml->dtmf_digit = '0';
else {
char digit = dtmf_code_to_char(flags->digit);
if (digit)
ml->dtmf_digit = digit;
else if (dtmf_code_from_char(flags->digit) != -1)
ml->dtmf_digit = flags->digit;
}
dtmf_trigger_set(ml, DTMF_TRIGGER_BLOCK, &flags->trigger, false);
dtmf_trigger_set(ml, DTMF_TRIGGER_UNBLOCK, &flags->trigger_end, false);
ml->block_dtmf_trigger = flags->block_dtmf_mode_trigger;
ml->dtmf_trigger_digits = flags->trigger_end_digits;
ml->block_dtmf_trigger_end_ms = flags->trigger_end_ms;
ml->dtmf_delay = flags->dtmf_delay;
codec_update_all_handlers(ml);
}
static void call_set_dtmf_block(call_t *call, struct call_monologue *monologue, sdp_ng_flags *flags) {
enum block_dtmf_mode mode = BLOCK_DTMF_DROP;
// special case default: if there's a trigger, default block mode is none
if (flags->block_dtmf_mode_trigger || flags->trigger.len)
mode = BLOCK_DTMF_OFF;
if (flags->block_dtmf_mode)
mode = flags->block_dtmf_mode;
if (monologue) {
ilog(LOG_INFO, "Blocking directional DTMF (tag '" STR_FORMAT_M "')",
STR_FMT_M(&monologue->tag));
monologue->block_dtmf = mode;
}
else {
ilog(LOG_INFO, "Blocking DTMF (entire call)");
call->block_dtmf = mode;
}
if (is_dtmf_replace_mode(mode) || flags->delay_buffer >= 0 || flags->trigger.len) {
if (monologue)
call_monologue_set_block_mode(monologue, flags);
else {
for (__auto_type l = call->monologues.head; l; l = l->next) {
struct call_monologue *ml = l->data;
call_monologue_set_block_mode(ml, flags);
}
}
}
}
const char *call_block_dtmf_ng(bencode_item_t *input, bencode_item_t *output) {
g_autoptr(call_t) call = NULL;
struct call_monologue *monologue;
const char *errstr = NULL;
g_auto(sdp_ng_flags) flags;
errstr = media_block_match(&call, &monologue, &flags, input, OP_BLOCK_DTMF);
if (errstr)
return errstr;
call_set_dtmf_block(call, monologue, &flags);
return NULL;
}
const char *call_unblock_dtmf_ng(bencode_item_t *input, bencode_item_t *output) {
g_autoptr(call_t) call = NULL;
struct call_monologue *monologue;
const char *errstr = NULL;
g_auto(sdp_ng_flags) flags;
errstr = media_block_match(&call, &monologue, &flags, input, OP_UNBLOCK_DTMF);
if (errstr)
return errstr;
if (monologue) {
ilog(LOG_INFO, "Unblocking directional DTMF (tag '" STR_FORMAT_M "')",
STR_FMT_M(&monologue->tag));
enum block_dtmf_mode prev_mode = monologue->block_dtmf;
monologue->block_dtmf = BLOCK_DTMF_OFF;
if (is_dtmf_replace_mode(prev_mode) || flags.delay_buffer >= 0) {
if (flags.delay_buffer >= 0) {
for (unsigned int i = 0; i < monologue->medias->len; i++) {
struct call_media *media = monologue->medias->pdata[i];
if (!media)
continue;
media->buffer_delay = flags.delay_buffer;
}
}
bf_set_clear(&monologue->ml_flags, ML_FLAG_DETECT_DTMF, flags.detect_dtmf);
codec_update_all_handlers(monologue);
}
}
else {
ilog(LOG_INFO, "Unblocking DTMF (entire call)");
enum block_dtmf_mode prev_mode = call->block_dtmf;
call->block_dtmf = BLOCK_DTMF_OFF;
if (flags.all == ALL_ALL || is_dtmf_replace_mode(prev_mode) || flags.delay_buffer >= 0) {
for (__auto_type l = call->monologues.head; l; l = l->next) {
monologue = l->data;
enum block_dtmf_mode prev_ml_mode = BLOCK_DTMF_OFF;
if (flags.all == ALL_ALL) {
prev_ml_mode = monologue->block_dtmf;
monologue->block_dtmf = BLOCK_DTMF_OFF;
}
if (flags.delay_buffer >= 0) {
for (unsigned int i = 0; i < monologue->medias->len; i++) {
struct call_media *media = monologue->medias->pdata[i];
if (!media)
continue;
media->buffer_delay = flags.delay_buffer;
}
}
bf_set_clear(&monologue->ml_flags, ML_FLAG_DETECT_DTMF, flags.detect_dtmf);
if (is_dtmf_replace_mode(prev_ml_mode) || is_dtmf_replace_mode(prev_mode)
|| flags.delay_buffer >= 0)
codec_update_all_handlers(monologue);
}
}
}
return NULL;
}
static const char *call_block_silence_media(bencode_item_t *input, bool on_off, const char *ucase_verb,
const char *lcase_verb,
unsigned int call_flag, unsigned int ml_flag, size_t attr_offset)
{
g_autoptr(call_t) call = NULL;
struct call_monologue *monologue;
const char *errstr = NULL;
g_auto(sdp_ng_flags) flags;
bool found_subscriptions = false;
errstr = media_block_match(&call, &monologue, &flags, input, OP_BLOCK_SILENCE_MEDIA);
if (errstr)
return errstr;
/* from-monologue is given */
if (monologue) {
/* potential sinks (medias) towards from-monologue,
* not particularly subscribed */
bool sinks = false;
/* to-monologue is given */
if (flags.to_tag.len || flags.to_label.len) {
struct call_monologue *sink_ml = NULL;
/* to-monologue is given, check using to-tag */
if (flags.to_tag.len) {
sink_ml = t_hash_table_lookup(call->tags, &flags.to_tag);
if (!sink_ml) {
ilog(LOG_WARN, "Media flow '" STR_FORMAT_M "' -> '" STR_FORMAT_M "' doesn't "
"exist for media %s (to-tag not found)",
STR_FMT_M(&monologue->tag), STR_FMT_M(&flags.to_tag),
lcase_verb);
return "Media flow not found (to-tag not found)";
}
/* to-monologue is given, check using to-label */
} else {
sink_ml = t_hash_table_lookup(call->labels, &flags.to_label);
if (!sink_ml) {
ilog(LOG_WARN, "Media flow '" STR_FORMAT_M "' -> label '" STR_FORMAT "' doesn't "
"exist for media %s (to-label not found)",
STR_FMT_M(&monologue->tag), STR_FMT(&flags.to_label),
lcase_verb);
return "Media flow not found (to-label not found)";
}
}
/* now check if any sink ml media is susbcribed to any of monologue medias */
for (int i = 0; i < sink_ml->medias->len; i++)
{
struct call_media * sink_md = monologue->medias->pdata[i];
if (!sink_md)
continue;
for (int j = 0; j < monologue->medias->len; j++)
{
struct call_media * ml_media = monologue->medias->pdata[j];
if (!ml_media)
continue;
subscription_list * ll = t_hash_table_lookup(ml_media->media_subscriptions_ht, sink_md);
if (ll) {
found_subscriptions = true;
G_STRUCT_MEMBER(bool, &ll->data->attrs, attr_offset) = on_off;
ilog(LOG_INFO, "%s directional media flow: "
"monologue tag '" STR_FORMAT_M "' -> '" STR_FORMAT_M "' / "
"media index '%d' -> '%d'",
ucase_verb,
STR_FMT_M(&monologue->tag), STR_FMT_M(&ll->data->monologue->tag),
ml_media->index, ll->data->media->index);
}
}
sinks = true;
}
/* one of the "all" flags is given, to-subscriptions */
} else if (flags.all == ALL_OFFER_ANSWER || flags.all == ALL_NON_OFFER_ANSWER
|| flags.all == ALL_FLOWS)
{
for (int i = 0; i < monologue->medias->len; i++)
{
struct call_media * ml_media = monologue->medias->pdata[i];
if (!ml_media)
continue;
for (__auto_type sub = ml_media->media_subscribers.head; sub; sub = sub->next)
{
struct media_subscription * ms = sub->data;
struct call_media * sub_md = ms->media;
if (!sub_md ||
(flags.all == ALL_OFFER_ANSWER && !ms->attrs.offer_answer) ||
(flags.all == ALL_NON_OFFER_ANSWER && ms->attrs.offer_answer))
{
continue;
}
ilog(LOG_INFO, "%s directional media flow: "
"monologue tag '" STR_FORMAT_M "' -> '" STR_FORMAT_M "' / "
"media index '%d' -> '%d'",
ucase_verb,
STR_FMT_M(&monologue->tag), STR_FMT_M(&sub_md->monologue->tag),
ml_media->index, sub_md->index);
found_subscriptions = true;
G_STRUCT_MEMBER(bool, &ms->attrs, attr_offset) = on_off;
sinks = true;
}
}
/* having an empty sinks list is an error, as "all" would be nothing */
if (!sinks) {
ilog(LOG_WARN, "No eligible media subscriptions found for '" STR_FORMAT_M "' "
"for media %s",
STR_FMT_M(&monologue->tag),
lcase_verb);
return "No eligible media subscriptions found";
}
}
/* media sinks */
if (sinks) {
if (!found_subscriptions) {
/* no one of sink medias is subscribed to monologue medias */
ilog(LOG_WARN, "Media flow '" STR_FORMAT_M "' -> '" STR_FORMAT_M "' doesn't "
"exist for media %s (to-tag not subscribed)",
STR_FMT_M(&monologue->tag),
STR_FMT_M(&flags.to_tag),
lcase_verb);
return "Media flow not found (to-tag not subscribed)";
}
update_init_subscribers(monologue, OP_BLOCK_SILENCE_MEDIA);
} else {
/* it seems no to-monologue is given and no "all" flag is given as well.
* In this case the from-monologue itself is flagged,
* and not any of the media flows (subscription objects) */
ilog(LOG_INFO, "%s directional media (tag '" STR_FORMAT_M "')",
ucase_verb,
STR_FMT_M(&monologue->tag));
bf_set_clear(&monologue->ml_flags, ml_flag, on_off);
}
__monologue_unconfirm(monologue, "media silencing signalling event");
} else {
bf_set_clear(&call->call_flags, call_flag, on_off);
if (!on_off) {
ilog(LOG_INFO, "%s media (entire call and participants)", ucase_verb);
if (flags.all == ALL_ALL) {
for (__auto_type l = call->monologues.head; l; l = l->next) {
monologue = l->data;
bf_set_clear(&monologue->ml_flags, ml_flag, on_off);
}
}
} else {
ilog(LOG_INFO, "%s media (entire call)", ucase_verb);
}
__call_unkernelize(call, "media silencing signalling event");
}
return NULL;
}
#define CALL_BLOCK_SILENCE_MEDIA(input, on_off, ucase_verb, lcase_verb, member_name, flag) \
call_block_silence_media(input, on_off, ucase_verb, lcase_verb, \
CALL_FLAG_ ## flag, \
ML_FLAG_ ## flag, \
G_STRUCT_OFFSET(struct sink_attrs, member_name))
const char *call_block_media_ng(bencode_item_t *input, bencode_item_t *output) {
return CALL_BLOCK_SILENCE_MEDIA(input, true, "Blocking", "blocking", block_media, BLOCK_MEDIA);
}
const char *call_unblock_media_ng(bencode_item_t *input, bencode_item_t *output) {
return CALL_BLOCK_SILENCE_MEDIA(input, false, "Unblocking", "unblocking", block_media, BLOCK_MEDIA);
}
const char *call_silence_media_ng(bencode_item_t *input, bencode_item_t *output) {
return CALL_BLOCK_SILENCE_MEDIA(input, true, "Silencing", "silencing", silence_media, SILENCE_MEDIA);
}
const char *call_unsilence_media_ng(bencode_item_t *input, bencode_item_t *output) {
return CALL_BLOCK_SILENCE_MEDIA(input, false, "Unsilencing", "unsilencing", silence_media, SILENCE_MEDIA);
}
#ifdef WITH_TRANSCODING
static const char *play_media_select_party(call_t **call, monologues_q *monologues,
bencode_item_t *input, sdp_ng_flags *flags)
{
struct call_monologue *monologue;
t_queue_init(monologues);
const char *err = media_block_match(call, &monologue, flags, input, OP_PLAY_MEDIA);
if (err)
return err;
if (flags->all == ALL_ALL)
t_queue_append(monologues, &(*call)->monologues);
else if (!monologue)
return "No participant party specified";
else
t_queue_push_tail(monologues, monologue);
return NULL;
}
#endif
const char *call_play_media_ng(bencode_item_t *input, bencode_item_t *output) {
#ifdef WITH_TRANSCODING
g_autoptr(call_t) call = NULL;
g_auto(monologues_q) monologues;
const char *err = NULL;
g_auto(sdp_ng_flags) flags;
err = play_media_select_party(&call, &monologues, input, &flags);
if (err)
return err;
flags.opmode = OP_PLAY_MEDIA;
for (__auto_type l = monologues.head; l; l = l->next) {
struct call_monologue *monologue = l->data;
// if mixing is enabled, codec handlers of all sources must be updated
codec_update_all_source_handlers(monologue, &flags);
// this starts the audio player if needed
update_init_subscribers(monologue, OP_PLAY_MEDIA);
// media_player_new() now knows that audio player is in use
// TODO: player options can have changed if already exists
media_player_new(&monologue->player, monologue);
media_player_opts_t opts = MPO(
.repeat = flags.repeat_times,
.start_pos = flags.start_pos,
.block_egress = !!flags.block_egress,
);
if (flags.file.len) {
if (!media_player_play_file(monologue->player, &flags.file, opts))
return "Failed to start media playback from file";
}
else if (flags.blob.len) {
if (!media_player_play_blob(monologue->player, &flags.blob, opts))
return "Failed to start media playback from blob";
}
else if (flags.db_id > 0) {
if (!media_player_play_db(monologue->player, flags.db_id, opts))
return "Failed to start media playback from database";
}
else
return "No media file specified";
if (l == monologues.head && monologue->player->coder.duration)
bencode_dictionary_add_integer(output, "duration", monologue->player->coder.duration);
}
return NULL;
#else
return "unsupported";
#endif
}
const char *call_stop_media_ng(bencode_item_t *input, bencode_item_t *output) {
#ifdef WITH_TRANSCODING
g_autoptr(call_t) call = NULL;
g_auto(monologues_q) monologues;
const char *err = NULL;
long long last_frame_pos = 0;
g_auto(sdp_ng_flags) flags;
err = play_media_select_party(&call, &monologues, input, &flags);
if (err)
return err;
for (__auto_type l = monologues.head; l; l = l->next) {
struct call_monologue *monologue = l->data;
if (!monologue->player)
return "Not currently playing media";
last_frame_pos = media_player_stop(monologue->player);
// restore to non-mixing if needed
codec_update_all_source_handlers(monologue, NULL);
update_init_subscribers(monologue, OP_STOP_MEDIA);
}
bencode_dictionary_add_integer(output, "last-frame-pos", last_frame_pos);
return NULL;
#else
return "unsupported";
#endif
}
const char *call_play_dtmf_ng(bencode_item_t *input, bencode_item_t *output) {
#ifdef WITH_TRANSCODING
g_autoptr(call_t) call = NULL;
g_auto(monologues_q) monologues;
const char *err = NULL;
g_auto(sdp_ng_flags) flags;
err = play_media_select_party(&call, &monologues, input, &flags);
if (err)
return err;
// validate input parameters
if (!flags.duration)
flags.duration = 250;
if (flags.duration < 100) {
flags.duration = 100;
ilog(LOG_WARN, "Invalid duration (%lli ms) specified, using 100 ms instead", flags.duration);
}
else if (flags.duration > 5000) {
flags.duration = 5000;
ilog(LOG_WARN, "Invalid duration (%lli ms) specified, using 5000 ms instead", flags.duration);
}
if (!flags.pause)
flags.pause = 100;
if (flags.pause < 100) {
flags.pause = 100;
ilog(LOG_WARN, "Invalid pause (%lli ms) specified, using 100 ms instead", flags.pause);
}
else if (flags.pause > 5000) {
flags.pause = 5000;
ilog(LOG_WARN, "Invalid pause (%lli ms) specified, using 5000 ms instead", flags.pause);
}
int code;
if (dtmf_code_to_char(flags.digit))
code = flags.digit; // already a code
else
code = dtmf_code_from_char(flags.digit); // convert digit to code
if (code < 0)
return "Out of range 'code' specified";
else if (code > 15)
return "Out of range 'code' specified";
if (flags.volume > 0)
flags.volume *= -1;
for (__auto_type l = monologues.head; l; l = l->next) {
struct call_monologue *monologue = l->data;
// find a usable output media
struct call_media *media;
for (unsigned int i = 0; i < monologue->medias->len; i++) {
media = monologue->medias->pdata[i];
if (!media)
continue;
if (media->type_id != MT_AUDIO)
continue;
goto found;
}
return "Monologue has no media capable of DTMF injection";
// XXX fall back to generating a secondary stream
found:
ML_SET(monologue, DTMF_INJECTION_ACTIVE);
dialogue_unconfirm(monologue, "DTMF playback");
for (unsigned int i = 0; i < monologue->medias->len; i++)
{
struct call_media *ml_media = monologue->medias->pdata[i];
if (!ml_media)
continue;
struct call_media * ms_media_sink = NULL;
for (__auto_type ll = ml_media->media_subscribers.head; ll; ll = ll->next)
{
struct media_subscription * ms = ll->data;
ms_media_sink = ms->media;
if (!ms_media_sink || ms_media_sink->type_id != MT_AUDIO)
continue;
goto found_sink;
}
return "There is no sink media capable of DTMF playback";
found_sink:
err = dtmf_inject(media, code, flags.volume, flags.duration, flags.pause, ms_media_sink);
if (err)
return err;
}
}
return NULL;
#else
return "unsupported";
#endif
}
const char *call_publish_ng(ng_buffer *ngbuf, bencode_item_t *input, bencode_item_t *output,
const char *addr,
const endpoint_t *sin)
{
g_auto(sdp_ng_flags) flags;
g_auto(sdp_sessions_q) parsed = TYPED_GQUEUE_INIT;
g_auto(sdp_streams_q) streams = TYPED_GQUEUE_INIT;
g_auto(str) sdp_in = STR_NULL;
g_auto(str) sdp_out = STR_NULL;
g_autoptr(call_t) call = NULL;
call_ng_process_flags(&flags, input, OP_PUBLISH);
if (!flags.sdp.s)
return "No SDP body in message";
if (!flags.call_id.s)
return "No call-id in message";
if (!flags.from_tag.s)
return "No from-tag in message";
str_init_dup_str(&sdp_in, &flags.sdp);
if (sdp_parse(&sdp_in, &parsed, &flags))
return "Failed to parse SDP";
if (sdp_streams(&parsed, &streams, &flags))
return "Incomplete SDP specification";
call = call_get_or_create(&flags.call_id, false);
if (trickle_ice_update(ngbuf, call, &flags, &streams))
return NULL;
updated_created_from(call, addr, sin);
struct call_monologue *ml = call_get_or_create_monologue(call, &flags.from_tag);
int ret = monologue_publish(ml, &streams, &flags);
if (ret)
ilog(LOG_ERR, "Publish error"); // XXX close call? handle errors?
ret = sdp_create(&sdp_out, ml, &flags);
if (!ret) {
save_last_sdp(ml, &sdp_in, &parsed, &streams);
bencode_buffer_destroy_add(output->buffer, g_free, sdp_out.s);
bencode_dictionary_add_str(output, "sdp", &sdp_out);
sdp_out = STR_NULL; // ownership passed to output
}
if (ret)
return "Failed to create SDP";
dequeue_sdp_fragments(ml);
call_unlock_release_update(&call);
return NULL;
}
const char *call_subscribe_request_ng(bencode_item_t *input, bencode_item_t *output) {
const char *err = NULL;
g_auto(sdp_ng_flags) flags;
char rand_buf[65];
g_autoptr(call_t) call = NULL;
g_auto(subscription_q) srms = TYPED_GQUEUE_INIT;
g_auto(str) sdp_out = STR_NULL;
/* get source monologue */
err = media_block_match_mult(&call, &srms, &flags, input, OP_REQUEST);
if (err)
return err;
if (flags.sdp.len)
ilog(LOG_INFO, "Subscribe-request with SDP received - ignoring SDP");
if (!srms.length)
return "No call participants specified (no medias found)";
/* special case with just one source: we can use the original SDP
* TODO: deprecate it, since initially added for monologue subscriptions.
*/
struct call_monologue *sdp_ml = NULL;
if (srms.length == 1) {
struct media_subscription *ms = srms.head->data;
sdp_ml = ms->monologue;
if (!sdp_ml->last_in_sdp.len || !sdp_ml->last_in_sdp_parsed.length)
sdp_ml = NULL;
}
/* the `label=` option was possibly used above to select the from-tag --
* switch it out with `to-label=` or `set-label=` for monologue_subscribe_request
* below which sets the label based on `label` for a newly created monologue */
flags.label = flags.to_label;
if (flags.set_label.len) // set-label takes priority
flags.label = flags.set_label;
/* get destination monologue */
if (!flags.to_tag.len) {
/* generate one */
flags.to_tag = STR_CONST_INIT(rand_buf);
rand_hex_str(flags.to_tag.s, flags.to_tag.len / 2);
}
struct call_monologue *dest_ml = call_get_or_create_monologue(call, &flags.to_tag);
/* rewrite SDP, or create new? */
struct sdp_chopper *chopper = NULL;
if (sdp_ml) {
chopper = sdp_chopper_new(&sdp_ml->last_in_sdp);
bencode_buffer_destroy_add(output->buffer, (free_func_t) sdp_chopper_destroy, chopper);
}
int ret = monologue_subscribe_request(&srms, dest_ml, &flags);
if (ret)
return "Failed to request subscription";
if (chopper && sdp_ml) {
ret = sdp_replace(chopper, &sdp_ml->last_in_sdp_parsed, dest_ml, &flags);
if (ret)
return "Failed to rewrite SDP";
} else {
/* create new SDP */
ret = sdp_create(&sdp_out, dest_ml, &flags);
}
/* place return output SDP */
if (chopper) {
if (chopper->output->len)
bencode_dictionary_add_string_len(output, "sdp", chopper->output->str,
chopper->output->len);
} else if (sdp_out.len) {
bencode_buffer_destroy_add(output->buffer, g_free, sdp_out.s);
bencode_dictionary_add_str(output, "sdp", &sdp_out);
sdp_out = STR_NULL; /* ownership passed to output */
}
/* add single response ml tag if there's just one, but always add a list
* TODO: deprecate it, since initially added for monologue subscriptions.
*/
if (srms.length == 1) {
struct media_subscription *ms = srms.head->data;
struct call_monologue *source_ml = ms->monologue;
bencode_dictionary_add_str_dup(output, "from-tag", &source_ml->tag);
}
bencode_item_t *tag_medias = NULL, *media_labels = NULL;
if (flags.siprec) {
tag_medias = bencode_dictionary_add_list(output, "tag-medias");
media_labels = bencode_dictionary_add_dictionary(output, "media-labels");
}
bencode_item_t *from_list = bencode_dictionary_add_list(output, "from-tags");
for (__auto_type l = srms.head; l; l = l->next) {
struct media_subscription *ms = l->data;
struct call_monologue *source_ml = ms->monologue;
bencode_list_add_str_dup(from_list, &source_ml->tag);
if (tag_medias) {
bencode_item_t *tag_label = bencode_list_add_dictionary(tag_medias);
bencode_dictionary_add_str(tag_label, "tag", &source_ml->tag);
if (source_ml->label.len)
bencode_dictionary_add_str(tag_label, "label", &source_ml->label);
bencode_item_t *medias = bencode_dictionary_add_list(tag_label, "medias");
for (unsigned int i = 0; i < source_ml->medias->len; i++) {
struct call_media *media = source_ml->medias->pdata[i];
if (!media)
continue;
bencode_item_t *med_ent = bencode_list_add_dictionary(medias);
bencode_dictionary_add_integer(med_ent, "index", media->index);
bencode_dictionary_add_str(med_ent, "type", &media->type);
bencode_dictionary_add_str(med_ent, "label", &media->label);
bencode_dictionary_add_string(med_ent, "mode", sdp_get_sendrecv(media));
if (media_labels) {
bencode_item_t *label =
bencode_dictionary_add_dictionary(media_labels, media->label.s);
bencode_dictionary_add_str(label, "tag", &source_ml->tag);
bencode_dictionary_add_integer(label, "index", media->index);
bencode_dictionary_add_str(label, "type", &media->type);
if (source_ml->label.len)
bencode_dictionary_add_str(label, "label", &source_ml->label);
bencode_dictionary_add_string(label, "mode", sdp_get_sendrecv(media));
}
}
}
}
bencode_dictionary_add_str_dup(output, "to-tag", &dest_ml->tag);
dequeue_sdp_fragments(dest_ml);
call_unlock_release_update(&call);
return NULL;
}
const char *call_subscribe_answer_ng(ng_buffer *ngbuf, bencode_item_t *input, bencode_item_t *output) {
g_auto(sdp_ng_flags) flags;
g_auto(sdp_sessions_q) parsed = TYPED_GQUEUE_INIT;
g_auto(sdp_streams_q) streams = TYPED_GQUEUE_INIT;
g_autoptr(call_t) call = NULL;
call_ng_process_flags(&flags, input, OP_REQ_ANSWER);
if (!flags.call_id.s)
return "No call-id in message";
call = call_get_opmode(&flags.call_id, OP_REQ_ANSWER);
if (!call)
return "Unknown call-ID";
if (trickle_ice_update(ngbuf, call, &flags, &streams))
return NULL;
if (!flags.to_tag.s)
return "No to-tag in message";
if (!flags.sdp.len)
return "No SDP body in message";
// get destination monologue
struct call_monologue *dest_ml = call_get_monologue(call, &flags.to_tag);
if (!dest_ml)
return "To-tag not found";
if (sdp_parse(&flags.sdp, &parsed, &flags))
return "Failed to parse SDP";
if (sdp_streams(&parsed, &streams, &flags))
return "Incomplete SDP specification";
int ret = monologue_subscribe_answer(dest_ml, &flags, &streams);
if (ret)
return "Failed to process subscription answer";
call_unlock_release_update(&call);
return NULL;
}
const char *call_unsubscribe_ng(bencode_item_t *input, bencode_item_t *output) {
g_auto(sdp_ng_flags) flags;
g_autoptr(call_t) call = NULL;
call_ng_process_flags(&flags, input, OP_REQ_ANSWER);
if (!flags.call_id.s)
return "No call-id in message";
call = call_get_opmode(&flags.call_id, OP_REQ_ANSWER);
if (!call)
return "Unknown call-ID";
if (!flags.to_tag.s)
return "No to-tag in message";
// get destination monologue
struct call_monologue *dest_ml = call_get_or_create_monologue(call, &flags.to_tag);
if (!dest_ml)
return "To-tag not found";
int ret = monologue_unsubscribe(dest_ml, &flags);
if (ret)
return "Failed to unsubscribe";
call_unlock_release_update(&call);
return NULL;
}
void call_interfaces_free(void) {
if (info_re) {
pcre2_code_free(info_re);
info_re = NULL;
}
if (streams_re) {
pcre2_code_free(streams_re);
streams_re= NULL;
}
}
int call_interfaces_init(void) {
int errcode;
PCRE2_SIZE erroff;
info_re = pcre2_compile((PCRE2_SPTR8) "^([^:,]+)(?::(.*?))?(?:$|,)", PCRE2_ZERO_TERMINATED,
PCRE2_DOLLAR_ENDONLY | PCRE2_DOTALL, &errcode, &erroff, NULL);
if (!info_re)
return -1;
streams_re = pcre2_compile((PCRE2_SPTR8) "^([\\d.]+):(\\d+)(?::(.*?))?(?:$|,)", PCRE2_ZERO_TERMINATED,
PCRE2_DOLLAR_ENDONLY | PCRE2_DOTALL, &errcode, &erroff, NULL);
if (!streams_re)
return -1;
return 0;
}
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