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/* $Id: demuxmpeg.c,v 1.4 2004/10/19 23:11:36 titer Exp $
This file is part of the HandBrake source code.
Homepage: <http://handbrake.fr/>.
It may be used under the terms of the GNU General Public License. */
#include "hb.h"
/* Basic MPEG demuxer */
int hb_demux_ps( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state )
{
hb_buffer_t * buf_es;
int pos = 0;
#define d (buf_ps->data)
/* pack_header */
if( d[pos] != 0 || d[pos+1] != 0 ||
d[pos+2] != 0x1 || d[pos+3] != 0xBA )
{
hb_log( "hb_demux_ps: not a PS packet (%02x%02x%02x%02x)",
d[pos], d[pos+1], d[pos+2], d[pos+3] );
return 0;
}
pos += 4; /* pack_start_code */
if ( state )
{
/*
* This section of code implements the timing model of
* the "Standard Target Decoder" (STD) of the MPEG2 standard
* (specified in ISO 13818-1 sections 2.4.2, 2.5.2 & Annex D).
* The STD removes and corrects for clock discontinuities so
* that the time stamps on the video, audio & other media
* streams can be used for cross-media synchronization. To do
* this the STD has its own timestamp value, the System Clock
* Reference or SCR, in the PACK header. Clock discontinuities
* are detected using the SCR & and the adjustment needed
* to correct post-discontinuity timestamps to be contiguous
* with pre-discontinuity timestamps is computed from pre- and
* post-discontinuity values of the SCR. Then this adjustment
* is applied to every media timestamp (PTS).
*
* ISO 13818-1 says there must be an SCR at least every 700ms
* (100ms for Transport Streams) so if the difference between
* this SCR & the previous is >700ms it's a discontinuity.
* If the difference is negative it's non-physical (time doesn't
* go backward) and must also be a discontinuity. When we find a
* discontinuity we adjust the scr_offset so that the SCR of the
* new packet lines up with that of the previous packet.
*/
/* extract the system clock reference (scr) */
int64_t scr = ((uint64_t)(d[pos] & 0x38) << 27) |
((uint64_t)(d[pos] & 0x03) << 28) |
((uint64_t)(d[pos+1]) << 20) |
((uint64_t)(d[pos+2] >> 3) << 15) |
((uint64_t)(d[pos+2] & 3) << 13) |
((uint64_t)(d[pos+3]) << 5) |
(d[pos+4] >> 3);
// we declare a discontinuity if there's a gap of more than
// 100ms between the last scr & this or if this scr goes back
// by more than half a frame time.
int64_t scr_delta = scr - state->last_scr;
if ( scr_delta > 90*100 || scr_delta < -90*10 )
{
++state->scr_changes;
}
state->last_scr = scr;
}
pos += 9; /* pack_header */
pos += 1 + ( d[pos] & 0x7 ); /* stuffing bytes */
/* system_header */
if( d[pos] == 0 && d[pos+1] == 0 &&
d[pos+2] == 0x1 && d[pos+3] == 0xBB )
{
int header_length;
pos += 4; /* system_header_start_code */
header_length = ( d[pos] << 8 ) + d[pos+1];
pos += 2 + header_length;
}
/* pes */
while( pos + 6 < buf_ps->size &&
d[pos] == 0 && d[pos+1] == 0 && d[pos+2] == 0x1 )
{
int id;
int pes_packet_length;
int pes_packet_end;
int pes_header_d_length;
int pes_header_end;
int has_pts;
int64_t pts = -1, dts = -1;
pos += 3; /* packet_start_code_prefix */
id = d[pos];
pos += 1;
pes_packet_length = ( d[pos] << 8 ) + d[pos+1];
pos += 2; /* pes_packet_length */
pes_packet_end = pos + pes_packet_length;
if( id != 0xE0 && id != 0xBD &&
( id & 0xC0 ) != 0xC0 )
{
/* Not interesting */
pos = pes_packet_end;
continue;
}
has_pts = d[pos+1] >> 6;
pos += 2; /* Required headers */
pes_header_d_length = d[pos];
pos += 1;
pes_header_end = pos + pes_header_d_length;
if( has_pts )
{
pts = ( (uint64_t)(d[pos] & 0xe ) << 29 ) +
( d[pos+1] << 22 ) +
( ( d[pos+2] >> 1 ) << 15 ) +
( d[pos+3] << 7 ) +
( d[pos+4] >> 1 );
if ( has_pts & 1 )
{
dts = ( (uint64_t)(d[pos+5] & 0xe ) << 29 ) +
( d[pos+6] << 22 ) +
( ( d[pos+7] >> 1 ) << 15 ) +
( d[pos+8] << 7 ) +
( d[pos+9] >> 1 );
}
else
{
dts = pts;
}
if ( state && state->flaky_clock )
{
// Program streams have an SCR in every PACK header so they
// can't lose their clock reference. But the PCR in Transport
// streams is typically on <.1% of the packets. If a PCR
// packet gets lost and it marks a clock discontinuity then
// the data following it will be referenced to the wrong
// clock & introduce huge gaps or throw our A/V sync off.
// We try to protect against that here by sanity checking
// timestamps against the current reference clock and discarding
// packets where the DTS is "too far" from its clock.
int64_t fdelta = dts - state->last_scr;
if ( fdelta < -300 * 90000LL || fdelta > 300 * 90000LL )
{
// packet too far behind or ahead of its clock reference
++state->dts_drops;
pos = pes_packet_end;
continue;
}
}
}
pos = pes_header_end;
if( id == 0xBD )
{
id |= ( d[pos] << 8 );
if( ( id & 0xF0FF ) == 0x80BD ) /* A52 */
{
pos += 4;
}
else if( ( id & 0xE0FF ) == 0x20BD || /* SPU */
( id & 0xF0FF ) == 0xA0BD ) /* LPCM */
{
pos += 1;
}
}
/* Sanity check */
if( pos >= pes_packet_end )
{
pos = pes_packet_end;
continue;
}
/* Here we hit we ES payload */
buf_es = hb_buffer_init( pes_packet_end - pos );
buf_es->id = id;
buf_es->start = pts;
buf_es->renderOffset = dts;
buf_es->stop = -1;
if (id == 0xE0) {
// Consume a chapter break, and apply it to the ES.
buf_es->new_chap = buf_ps->new_chap;
buf_ps->new_chap = 0;
}
memcpy( buf_es->data, d + pos, pes_packet_end - pos );
hb_list_add( list_es, buf_es );
pos = pes_packet_end;
}
#undef d
return 1;
}
// "null" demuxer (makes a copy of input buf & returns it in list)
// used when the reader for some format includes its own demuxer.
// for example, ffmpeg.
int hb_demux_null( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state )
{
// if we don't have a time offset yet, use this timestamp as the offset.
if ( state && state->scr_changes == 0 &&
( buf_ps->start >= 0 || buf_ps->renderOffset >= 0 ) )
{
++state->scr_changes;
state->last_scr = buf_ps->start >= 0 ? buf_ps->start : buf_ps->renderOffset;
}
hb_buffer_t *buf = hb_buffer_init( buf_ps->size );
// copy everything from the old to the new except the data ptr & alloc
uint8_t *data = buf->data;
int alloc = buf->alloc;
*buf = *buf_ps;
buf->data = data;
buf->alloc = alloc;
// now copy the data
memcpy( buf->data, buf_ps->data, buf_ps->size );
hb_list_add( list_es, buf );
return 1;
}
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