asterisk/res/res_rtp_multicast.c

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2023-05-25 18:45:57 +00:00
/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2009, Digium, Inc.
*
* Joshua Colp <jcolp@digium.com>
* Andreas 'MacBrody' Brodmann <andreas.brodmann@gmail.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*!
* \file
*
* \brief Multicast RTP Engine
*
* \author Joshua Colp <jcolp@digium.com>
* \author Andreas 'MacBrody' Brodmann <andreas.brodmann@gmail.com>
*
* \ingroup rtp_engines
*/
/*** MODULEINFO
<support_level>core</support_level>
***/
#include "asterisk.h"
#include <sys/time.h>
#include <signal.h>
#include <fcntl.h>
#include <math.h>
#include "asterisk/pbx.h"
#include "asterisk/frame.h"
#include "asterisk/channel.h"
#include "asterisk/acl.h"
#include "asterisk/config.h"
#include "asterisk/lock.h"
#include "asterisk/utils.h"
#include "asterisk/cli.h"
#include "asterisk/manager.h"
#include "asterisk/unaligned.h"
#include "asterisk/module.h"
#include "asterisk/rtp_engine.h"
#include "asterisk/format_cache.h"
#include "asterisk/multicast_rtp.h"
#include "asterisk/app.h"
#include "asterisk/smoother.h"
/*! Command value used for Linksys paging to indicate we are starting */
#define LINKSYS_MCAST_STARTCMD 6
/*! Command value used for Linksys paging to indicate we are stopping */
#define LINKSYS_MCAST_STOPCMD 7
/*! \brief Type of paging to do */
enum multicast_type {
/*! Type has not been set yet */
MULTICAST_TYPE_UNSPECIFIED = 0,
/*! Simple multicast enabled client/receiver paging like Snom and Barix uses */
MULTICAST_TYPE_BASIC,
/*! More advanced Linksys type paging which requires a start and stop packet */
MULTICAST_TYPE_LINKSYS,
};
/*! \brief Structure for a Linksys control packet */
struct multicast_control_packet {
/*! Unique identifier for the control packet */
uint32_t unique_id;
/*! Actual command in the control packet */
uint32_t command;
/*! IP address for the RTP */
uint32_t ip;
/*! Port for the RTP */
uint32_t port;
};
/*! \brief Structure for a multicast paging instance */
struct multicast_rtp {
/*! TYpe of multicast paging this instance is doing */
enum multicast_type type;
/*! Socket used for sending the audio on */
int socket;
/*! Synchronization source value, used when creating/sending the RTP packet */
unsigned int ssrc;
/*! Sequence number, used when creating/sending the RTP packet */
uint16_t seqno;
unsigned int lastts;
struct timeval txcore;
struct ast_smoother *smoother;
};
#define MAX_TIMESTAMP_SKEW 640
enum {
OPT_CODEC = (1 << 0),
OPT_LOOP = (1 << 1),
OPT_TTL = (1 << 2),
OPT_IF = (1 << 3),
};
enum {
OPT_ARG_CODEC = 0,
OPT_ARG_LOOP,
OPT_ARG_TTL,
OPT_ARG_IF,
OPT_ARG_ARRAY_SIZE,
};
AST_APP_OPTIONS(multicast_rtp_options, BEGIN_OPTIONS
/*! Set the codec to be used for multicast RTP */
AST_APP_OPTION_ARG('c', OPT_CODEC, OPT_ARG_CODEC),
/*! Set whether multicast RTP is looped back to the sender */
AST_APP_OPTION_ARG('l', OPT_LOOP, OPT_ARG_LOOP),
/*! Set the hop count for multicast RTP */
AST_APP_OPTION_ARG('t', OPT_TTL, OPT_ARG_TTL),
/*! Set the interface from which multicast RTP is sent */
AST_APP_OPTION_ARG('i', OPT_IF, OPT_ARG_IF),
END_OPTIONS );
struct ast_multicast_rtp_options {
char *type;
char *options;
struct ast_format *fmt;
struct ast_flags opts;
char *opt_args[OPT_ARG_ARRAY_SIZE];
/*! The type and options are stored in this buffer */
char buf[0];
};
struct ast_multicast_rtp_options *ast_multicast_rtp_create_options(const char *type,
const char *options)
{
struct ast_multicast_rtp_options *mcast_options;
char *pos;
mcast_options = ast_calloc(1, sizeof(*mcast_options)
+ strlen(type)
+ strlen(S_OR(options, "")) + 2);
if (!mcast_options) {
return NULL;
}
pos = mcast_options->buf;
/* Safe */
strcpy(pos, type);
mcast_options->type = pos;
pos += strlen(type) + 1;
if (!ast_strlen_zero(options)) {
strcpy(pos, options); /* Safe */
}
mcast_options->options = pos;
if (ast_app_parse_options(multicast_rtp_options, &mcast_options->opts,
mcast_options->opt_args, mcast_options->options)) {
ast_log(LOG_WARNING, "Error parsing multicast RTP options\n");
ast_multicast_rtp_free_options(mcast_options);
return NULL;
}
return mcast_options;
}
void ast_multicast_rtp_free_options(struct ast_multicast_rtp_options *mcast_options)
{
ast_free(mcast_options);
}
struct ast_format *ast_multicast_rtp_options_get_format(struct ast_multicast_rtp_options *mcast_options)
{
if (ast_test_flag(&mcast_options->opts, OPT_CODEC)
&& !ast_strlen_zero(mcast_options->opt_args[OPT_ARG_CODEC])) {
return ast_format_cache_get(mcast_options->opt_args[OPT_ARG_CODEC]);
}
return NULL;
}
/* Forward Declarations */
static int multicast_rtp_new(struct ast_rtp_instance *instance, struct ast_sched_context *sched, struct ast_sockaddr *addr, void *data);
static int multicast_rtp_activate(struct ast_rtp_instance *instance);
static int multicast_rtp_destroy(struct ast_rtp_instance *instance);
static int multicast_rtp_write(struct ast_rtp_instance *instance, struct ast_frame *frame);
static struct ast_frame *multicast_rtp_read(struct ast_rtp_instance *instance, int rtcp);
/* RTP Engine Declaration */
static struct ast_rtp_engine multicast_rtp_engine = {
.name = "multicast",
.new = multicast_rtp_new,
.activate = multicast_rtp_activate,
.destroy = multicast_rtp_destroy,
.write = multicast_rtp_write,
.read = multicast_rtp_read,
};
static int set_type(struct multicast_rtp *multicast, const char *type)
{
if (!strcasecmp(type, "basic")) {
multicast->type = MULTICAST_TYPE_BASIC;
} else if (!strcasecmp(type, "linksys")) {
multicast->type = MULTICAST_TYPE_LINKSYS;
} else {
ast_log(LOG_WARNING, "Unrecognized multicast type '%s' specified.\n", type);
return -1;
}
return 0;
}
static void set_ttl(int sock, const char *ttl_str)
{
int ttl;
if (ast_strlen_zero(ttl_str)) {
return;
}
ast_debug(3, "Setting multicast TTL to %s\n", ttl_str);
if (sscanf(ttl_str, "%30d", &ttl) < 1) {
ast_log(LOG_WARNING, "Invalid multicast ttl option '%s'\n", ttl_str);
return;
}
if (setsockopt(sock, IPPROTO_IP, IP_MULTICAST_TTL, &ttl, sizeof(ttl)) < 0) {
ast_log(LOG_WARNING, "Could not set multicast ttl to '%s': %s\n",
ttl_str, strerror(errno));
}
}
static void set_loop(int sock, const char *loop_str)
{
unsigned char loop;
if (ast_strlen_zero(loop_str)) {
return;
}
ast_debug(3, "Setting multicast loop to %s\n", loop_str);
if (sscanf(loop_str, "%30hhu", &loop) < 1) {
ast_log(LOG_WARNING, "Invalid multicast loop option '%s'\n", loop_str);
return;
}
if (setsockopt(sock, IPPROTO_IP, IP_MULTICAST_LOOP, &loop, sizeof(loop)) < 0) {
ast_log(LOG_WARNING, "Could not set multicast loop to '%s': %s\n",
loop_str, strerror(errno));
}
}
static void set_if(int sock, const char *if_str)
{
struct in_addr iface;
if (ast_strlen_zero(if_str)) {
return;
}
ast_debug(3, "Setting multicast if to %s\n", if_str);
if (!inet_aton(if_str, &iface)) {
ast_log(LOG_WARNING, "Cannot parse if option '%s'\n", if_str);
}
if (setsockopt(sock, IPPROTO_IP, IP_MULTICAST_IF, &iface, sizeof(iface)) < 0) {
ast_log(LOG_WARNING, "Could not set multicast if to '%s': %s\n",
if_str, strerror(errno));
}
}
/*! \brief Function called to create a new multicast instance */
static int multicast_rtp_new(struct ast_rtp_instance *instance, struct ast_sched_context *sched, struct ast_sockaddr *addr, void *data)
{
struct multicast_rtp *multicast;
struct ast_multicast_rtp_options *mcast_options = data;
if (!(multicast = ast_calloc(1, sizeof(*multicast)))) {
return -1;
}
if (set_type(multicast, mcast_options->type)) {
ast_free(multicast);
return -1;
}
if ((multicast->socket = socket(AF_INET, SOCK_DGRAM, 0)) < 0) {
ast_free(multicast);
return -1;
}
if (ast_test_flag(&mcast_options->opts, OPT_LOOP)) {
set_loop(multicast->socket, mcast_options->opt_args[OPT_ARG_LOOP]);
}
if (ast_test_flag(&mcast_options->opts, OPT_TTL)) {
set_ttl(multicast->socket, mcast_options->opt_args[OPT_ARG_TTL]);
}
if (ast_test_flag(&mcast_options->opts, OPT_IF)) {
set_if(multicast->socket, mcast_options->opt_args[OPT_ARG_IF]);
}
multicast->ssrc = ast_random();
ast_rtp_instance_set_data(instance, multicast);
return 0;
}
static int rtp_get_rate(struct ast_format *format)
{
return ast_format_cmp(format, ast_format_g722) == AST_FORMAT_CMP_EQUAL ?
8000 : ast_format_get_sample_rate(format);
}
static unsigned int calc_txstamp(struct multicast_rtp *rtp, struct timeval *delivery)
{
struct timeval t;
long ms;
if (ast_tvzero(rtp->txcore)) {
rtp->txcore = ast_tvnow();
rtp->txcore.tv_usec -= rtp->txcore.tv_usec % 20000;
}
t = (delivery && !ast_tvzero(*delivery)) ? *delivery : ast_tvnow();
if ((ms = ast_tvdiff_ms(t, rtp->txcore)) < 0) {
ms = 0;
}
rtp->txcore = t;
return (unsigned int) ms;
}
/*! \brief Helper function which populates a control packet with useful information and sends it */
static int multicast_send_control_packet(struct ast_rtp_instance *instance, struct multicast_rtp *multicast, int command)
{
struct multicast_control_packet control_packet = { .unique_id = htonl((u_long)time(NULL)),
.command = htonl(command),
};
struct ast_sockaddr control_address, remote_address;
ast_rtp_instance_get_local_address(instance, &control_address);
ast_rtp_instance_get_remote_address(instance, &remote_address);
/* Ensure the user of us have given us both the control address and destination address */
if (ast_sockaddr_isnull(&control_address) ||
ast_sockaddr_isnull(&remote_address)) {
return -1;
}
/* The protocol only supports IPv4. */
if (ast_sockaddr_is_ipv6(&remote_address)) {
ast_log(LOG_WARNING, "Cannot send control packet for IPv6 "
"remote address.\n");
return -1;
}
control_packet.ip = htonl(ast_sockaddr_ipv4(&remote_address));
control_packet.port = htonl(ast_sockaddr_port(&remote_address));
/* Based on a recommendation by Brian West who did the FreeSWITCH implementation we send control packets twice */
ast_sendto(multicast->socket, &control_packet, sizeof(control_packet), 0, &control_address);
ast_sendto(multicast->socket, &control_packet, sizeof(control_packet), 0, &control_address);
return 0;
}
/*! \brief Function called to indicate that audio is now going to flow */
static int multicast_rtp_activate(struct ast_rtp_instance *instance)
{
struct multicast_rtp *multicast = ast_rtp_instance_get_data(instance);
if (multicast->type != MULTICAST_TYPE_LINKSYS) {
return 0;
}
return multicast_send_control_packet(instance, multicast, LINKSYS_MCAST_STARTCMD);
}
/*! \brief Function called to destroy a multicast instance */
static int multicast_rtp_destroy(struct ast_rtp_instance *instance)
{
struct multicast_rtp *multicast = ast_rtp_instance_get_data(instance);
if (multicast->type == MULTICAST_TYPE_LINKSYS) {
multicast_send_control_packet(instance, multicast, LINKSYS_MCAST_STOPCMD);
}
if (multicast->smoother) {
ast_smoother_free(multicast->smoother);
}
close(multicast->socket);
ast_free(multicast);
return 0;
}
static int rtp_raw_write(struct ast_rtp_instance *instance, struct ast_frame *frame, int codec)
{
struct multicast_rtp *multicast = ast_rtp_instance_get_data(instance);
unsigned int ms = calc_txstamp(multicast, &frame->delivery);
unsigned char *rtpheader;
struct ast_sockaddr remote_address = { {0,} };
int rate = rtp_get_rate(frame->subclass.format) / 1000;
int hdrlen = 12, mark = 0;
if (ast_format_cmp(frame->subclass.format, ast_format_g722) == AST_FORMAT_CMP_EQUAL) {
frame->samples /= 2;
}
if (ast_test_flag(frame, AST_FRFLAG_HAS_TIMING_INFO)) {
multicast->lastts = frame->ts * rate;
} else {
/* Try to predict what our timestamp should be */
int pred = multicast->lastts + frame->samples;
/* Calculate last TS */
multicast->lastts = multicast->lastts + ms * rate;
if (ast_tvzero(frame->delivery)) {
int delta = abs((int) multicast->lastts - pred);
if (delta < MAX_TIMESTAMP_SKEW) {
multicast->lastts = pred;
} else {
ast_debug(3, "Difference is %d, ms is %u\n", delta, ms);
mark = 1;
}
}
}
/* Construct an RTP header for our packet */
rtpheader = (unsigned char *)(frame->data.ptr - hdrlen);
put_unaligned_uint32(rtpheader, htonl((2 << 30) | (codec << 16) | (multicast->seqno) | (mark << 23)));
put_unaligned_uint32(rtpheader + 4, htonl(multicast->lastts));
put_unaligned_uint32(rtpheader + 8, htonl(multicast->ssrc));
/* Increment sequence number and wrap to 0 if it overflows 16 bits. */
multicast->seqno = 0xFFFF & (multicast->seqno + 1);
/* Finally send it out to the eager phones listening for us */
ast_rtp_instance_get_remote_address(instance, &remote_address);
if (ast_sendto(multicast->socket, (void *) rtpheader, frame->datalen + hdrlen, 0, &remote_address) < 0) {
ast_log(LOG_ERROR, "Multicast RTP Transmission error to %s: %s\n",
ast_sockaddr_stringify(&remote_address),
strerror(errno));
return -1;
}
return 0;
}
/*! \brief Function called to broadcast some audio on a multicast instance */
static int multicast_rtp_write(struct ast_rtp_instance *instance, struct ast_frame *frame)
{
struct multicast_rtp *multicast = ast_rtp_instance_get_data(instance);
struct ast_format *format;
struct ast_frame *f;
int codec;
/* We only accept audio, nothing else */
if (frame->frametype != AST_FRAME_VOICE) {
return 0;
}
/* Grab the actual payload number for when we create the RTP packet */
codec = ast_rtp_codecs_payload_code_tx(ast_rtp_instance_get_codecs(instance),
1, frame->subclass.format, 0);
if (codec < 0) {
return -1;
}
format = frame->subclass.format;
if (!multicast->smoother && ast_format_can_be_smoothed(format)) {
unsigned int smoother_flags = ast_format_get_smoother_flags(format);
unsigned int framing_ms = ast_rtp_codecs_get_framing(ast_rtp_instance_get_codecs(instance));
if (!framing_ms && (smoother_flags & AST_SMOOTHER_FLAG_FORCED)) {
framing_ms = ast_format_get_default_ms(format);
}
if (framing_ms) {
multicast->smoother = ast_smoother_new((framing_ms * ast_format_get_minimum_bytes(format)) / ast_format_get_minimum_ms(format));
if (!multicast->smoother) {
ast_log(LOG_WARNING, "Unable to create smoother: format %s ms: %u len %u\n",
ast_format_get_name(format), framing_ms, ast_format_get_minimum_bytes(format));
return -1;
}
ast_smoother_set_flags(multicast->smoother, smoother_flags);
}
}
if (multicast->smoother) {
if (ast_smoother_test_flag(multicast->smoother, AST_SMOOTHER_FLAG_BE)) {
ast_smoother_feed_be(multicast->smoother, frame);
} else {
ast_smoother_feed(multicast->smoother, frame);
}
while ((f = ast_smoother_read(multicast->smoother)) && f->data.ptr) {
rtp_raw_write(instance, f, codec);
}
} else {
int hdrlen = 12;
/* If we do not have space to construct an RTP header duplicate the frame so we get some */
if (frame->offset < hdrlen) {
f = ast_frdup(frame);
} else {
f = frame;
}
if (f->data.ptr) {
rtp_raw_write(instance, f, codec);
}
if (f != frame) {
ast_frfree(f);
}
}
return 0;
}
/*! \brief Function called to read from a multicast instance */
static struct ast_frame *multicast_rtp_read(struct ast_rtp_instance *instance, int rtcp)
{
return &ast_null_frame;
}
static int load_module(void)
{
if (ast_rtp_engine_register(&multicast_rtp_engine)) {
return AST_MODULE_LOAD_DECLINE;
}
return AST_MODULE_LOAD_SUCCESS;
}
static int unload_module(void)
{
ast_rtp_engine_unregister(&multicast_rtp_engine);
return 0;
}
AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_GLOBAL_SYMBOLS | AST_MODFLAG_LOAD_ORDER, "Multicast RTP Engine",
.support_level = AST_MODULE_SUPPORT_CORE,
.load = load_module,
.unload = unload_module,
.load_pri = AST_MODPRI_CHANNEL_DEPEND,
);