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/*****************************************************************************
* desaggregartp.c: rebuild an RTP stream from several aggregated links
*****************************************************************************
* Copyright (C) 2009 VideoLAN
* $Id: desaggregartp.c 48 2007-11-30 14:08:21Z cmassiot $
*
* Authors: Christophe Massiot <massiot@via.ecp.fr>
*****************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <errno.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <pthread.h>
#include <poll.h>
#include "util.h"
#define POW2_32 UINT32_MAX
#define DEFAULT_BUFFER_LENGTH 200 /* ms */
#define DEFAULT_MTU 1500
#define MAX_INPUTS 4
/* Maximum gap allowed between two CRs. */
#define CR_MAX_GAP 300 /* ms */
#define CR_MAX_JITTER 100 /* ms */
#define CR_AVERAGE 150
/*****************************************************************************
* Local declarations
*****************************************************************************/
typedef struct block_t
{
uint8_t *p_data;
unsigned int i_size;
uint64_t i_date;
struct block_t *p_next, *p_prev;
} block_t;
static int i_output_fd;
static int pi_inputs_fd[MAX_INPUTS];
static int i_nb_inputs = 0;
static int b_udp = 0;
block_t *p_first = NULL;
block_t *p_last = NULL;
typedef struct input_clock_t
{
/* Synchronization information */
int64_t delta_cr;
uint64_t cr_ref, wall_ref;
uint64_t last_cr; /* reference to detect unexpected stream
* discontinuities */
} input_clock_t;
static input_clock_t input_clock;
static uint64_t i_last_timestamp = POW2_32; /* not 27 MHz, but RTP-native */
static uint64_t i_buffer_length = DEFAULT_BUFFER_LENGTH * 27000;
static void usage(void)
{
msg_Raw( NULL, "Usage: desaggregartp [-i <RT priority>] [-b <buffer length>] [-U] [-m <mtu>] <src host 1> ... [<src host N>] <dest host>" );
msg_Raw( NULL, " host format: [<connect addr>[:<connect port>]][@[<bind addr][:<bind port>]]" );
msg_Raw( NULL, " -U: strip RTP header" );
msg_Raw( NULL, " -b: buffer length in ms" );
exit(EXIT_FAILURE);
}
/*****************************************************************************
* clock_Init
*****************************************************************************/
void clock_Init(void)
{
input_clock.last_cr = 0;
input_clock.cr_ref = 0;
input_clock.wall_ref = 0;
input_clock.delta_cr = 0;
}
/*****************************************************************************
* clock_ToWall
*****************************************************************************/
uint64_t clock_ToWall( uint64_t i_clock )
{
return input_clock.wall_ref + (i_clock + input_clock.delta_cr
- input_clock.cr_ref);
}
/*****************************************************************************
* clock_NewRef
*****************************************************************************/
void clock_NewRef( uint64_t i_clock, uint64_t i_wall )
{
uint64_t i_extrapoled_clock;
int64_t i_clock_diff = input_clock.last_cr - i_clock;
if ( i_clock_diff > (CR_MAX_GAP * 27000)
|| i_clock_diff < -(CR_MAX_GAP * 27000) )
{
msg_Warn( NULL, "clock gap, unexpected stream discontinuity %lld",
i_clock_diff );
clock_Init();
input_clock.cr_ref = input_clock.last_cr = i_clock;
input_clock.wall_ref = i_wall;
return;
}
input_clock.last_cr = i_clock;
/* Smooth clock reference variations. */
i_extrapoled_clock = input_clock.cr_ref
+ i_wall - input_clock.wall_ref;
i_clock_diff = i_extrapoled_clock - i_clock;
if ( (i_clock_diff - input_clock.delta_cr) > (CR_MAX_JITTER * 27000)
|| (i_clock_diff - input_clock.delta_cr) < -(CR_MAX_JITTER * 27000) )
{
msg_Warn( NULL, "too much jitter %lld",
i_clock_diff - input_clock.delta_cr );
clock_Init();
input_clock.cr_ref = input_clock.last_cr = i_clock;
input_clock.wall_ref = i_wall;
return;
}
/* Bresenham algorithm to smooth variations. */
input_clock.delta_cr = (input_clock.delta_cr * (CR_AVERAGE - 1)
+ i_clock_diff) / CR_AVERAGE;
}
/*****************************************************************************
* Packet handlers
*****************************************************************************/
static void SendPacket(void)
{
block_t *p_block = p_first;
uint8_t *p_data, *p_end;
p_first = p_block->p_next;
if ( p_first == NULL )
p_last = NULL;
else
p_first->p_prev = NULL;
if ( b_udp )
p_data = rtp_GetPayload( p_block->p_data );
else
p_data = p_block->p_data;
p_end = p_block->p_data + p_block->i_size;
if ( write( i_output_fd, p_data, p_end - p_data ) < 0 )
msg_Warn( NULL, "write error (%s)", strerror(errno) );
free( p_block );
}
static void BuildTimestamp( uint32_t i_timestamp )
{
int64_t i_delta_timestamp;
i_delta_timestamp = (POW2_32 * 3 / 2 + (int64_t)i_timestamp
- (i_last_timestamp % POW2_32))
% POW2_32 - POW2_32 / 2;
i_last_timestamp += i_delta_timestamp;
}
static void RecvPacket( block_t *p_block, uint64_t i_date )
{
uint64_t i_scaled_timestamp;
if ( !rtp_CheckHdr( p_block->p_data ) )
{
msg_Warn( NULL, "non-RTP packet received" );
free( p_block );
return;
}
BuildTimestamp( rtp_GetTimestamp( p_block->p_data ) );
switch ( rtp_GetType( p_block->p_data ) )
{
case 33: /* MPEG-2 TS: 90 kHz */
i_scaled_timestamp = i_last_timestamp * 300;
break;
default: /* assume milliseconds */
i_scaled_timestamp = i_last_timestamp * 27000;
break;
}
clock_NewRef( i_scaled_timestamp, i_date );
p_block->i_date = clock_ToWall( i_scaled_timestamp ) + i_buffer_length;
/* Insert the block at the correct position */
if ( p_last == NULL )
{
p_first = p_last = p_block;
p_block->p_prev = p_block->p_next = NULL;
}
else
{
block_t *p_prev = p_last;
while ( p_prev != NULL && p_prev->i_date > p_block->i_date )
p_prev = p_prev->p_prev;
if ( p_prev == NULL )
{
p_block->p_next = p_first;
p_first->p_prev = p_block;
p_block->p_prev = NULL;
p_first = p_block;
}
else
{
p_block->p_prev = p_prev;
p_block->p_next = p_prev->p_next;
p_prev->p_next = p_block;
if ( p_block->p_next != NULL )
p_block->p_next->p_prev = p_block;
else
p_last = p_block;
}
}
}
/*****************************************************************************
* Entry point
*****************************************************************************/
int main( int i_argc, char **pp_argv )
{
int i, c;
int i_priority = -1;
int i_ttl = 0;
int i_mtu = DEFAULT_MTU;
struct pollfd pfd[MAX_INPUTS];
while ( (c = getopt( i_argc, pp_argv, "i:t:b:Um:h" )) != -1 )
{
switch ( c )
{
case 'i':
i_priority = strtol( optarg, NULL, 0 );
break;
case 't':
i_ttl = strtol( optarg, NULL, 0 );
break;
case 'b':
i_buffer_length = strtoll( optarg, NULL, 0 ) * 1000;
break;
case 'U':
b_udp = 1;
break;
case 'm':
i_mtu = strtol( optarg, NULL, 0 );
break;
case 'h':
default:
usage();
break;
}
}
if ( optind >= i_argc - 1 )
usage();
i_nb_inputs = 0;
while ( optind < i_argc - 1 && i_nb_inputs < MAX_INPUTS )
{
pi_inputs_fd[i_nb_inputs] = OpenSocket( pp_argv[optind++], 0, NULL );
pfd[i_nb_inputs].fd = pi_inputs_fd[i_nb_inputs];
pfd[i_nb_inputs].events = POLLIN;
i_nb_inputs++;
}
if ( optind < i_argc - 1 )
{
msg_Err( NULL, "max number of inputs: %d (recompile)", MAX_INPUTS );
exit(EXIT_FAILURE);
}
msg_Dbg( NULL, "%d inputs", i_nb_inputs );
i_output_fd = OpenSocket( pp_argv[optind], i_ttl, NULL );
clock_Init();
if ( i_priority > 0 )
{
struct sched_param param;
int i_error;
memset( ¶m, 0, sizeof(struct sched_param) );
param.sched_priority = i_priority;
if ( (i_error = pthread_setschedparam( pthread_self(), SCHED_RR,
¶m )) )
{
msg_Warn( NULL, "couldn't set thread priority: %s",
strerror(i_error) );
}
}
for ( ; ; )
{
int i_timeout = -1;
uint64_t i_current_date;
while ( p_first != NULL
&& p_first->i_date <= (i_current_date = wall_Date()) + 26999 )
SendPacket();
if ( p_first != NULL )
i_timeout = (p_first->i_date - i_current_date) / 27000;
if ( poll( pfd, i_nb_inputs, i_timeout ) < 0 )
{
int saved_errno = errno;
msg_Warn( NULL, "couldn't poll(): %s", strerror(errno) );
if ( saved_errno == EINTR ) continue;
exit(EXIT_FAILURE);
}
i_current_date = wall_Date();
for ( i = 0; i < i_nb_inputs; i++ )
{
if ( pfd[i].revents & POLLIN )
{
block_t *p_block = malloc( sizeof(block_t) + i_mtu );
ssize_t i_size;
p_block->p_data = (uint8_t *)p_block + sizeof(block_t);
i_size = read( pi_inputs_fd[i], p_block->p_data, i_mtu );
if ( i_size < 0 && errno != EAGAIN && errno != EINTR )
{
msg_Err( NULL, "unrecoverable read error, dying (%s)",
strerror(errno) );
exit(EXIT_FAILURE);
}
if ( i_size <= 0 )
{
free( p_block );
continue;
}
p_block->i_size = i_size;
RecvPacket( p_block, i_current_date );
}
}
}
return EXIT_SUCCESS;
}
|