Revision f1b94134a4b879bc55c3dacdb496690c8ebdc03f authored by Vikram Fugro on 11 March 2016, 12:16:11 UTC, committed by Jean-Baptiste Kempf on 11 March 2016, 14:57:34 UTC
Allocate the output vlc pictures with dimensions padded, as requested by the decoder (for alignments). This further increases the chances of direct rendering. Signed-off-by: Jean-Baptiste Kempf <jb@videolan.org>
1 parent 6c813cb
lpcm.c
/*****************************************************************************
* lpcm.c: lpcm decoder/packetizer module
*****************************************************************************
* Copyright (C) 1999-2008 VLC authors and VideoLAN
* $Id$
*
* Authors: Samuel Hocevar <sam@zoy.org>
* Henri Fallon <henri@videolan.org>
* Christophe Massiot <massiot@via.ecp.fr>
* Gildas Bazin <gbazin@videolan.org>
* Lauren Aimar <fenrir _AT_ videolan _DOT_ org >
* Steinar H. Gunderson <steinar+vlc@gunderson.no>
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2.1 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
/*****************************************************************************
* Preamble
*****************************************************************************/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <vlc_common.h>
#include <vlc_plugin.h>
#include <vlc_codec.h>
#include <vlc_aout.h>
#include <unistd.h>
#include <assert.h>
/*****************************************************************************
* Module descriptor
*****************************************************************************/
static int OpenDecoder ( vlc_object_t * );
static int OpenPacketizer( vlc_object_t * );
static void CloseCommon ( vlc_object_t * );
#ifdef ENABLE_SOUT
static int OpenEncoder ( vlc_object_t * );
static void CloseEncoder ( vlc_object_t * );
static block_t *EncodeFrames( encoder_t *, block_t * );
#endif
vlc_module_begin ()
set_category( CAT_INPUT )
set_subcategory( SUBCAT_INPUT_ACODEC )
set_description( N_("Linear PCM audio decoder") )
set_capability( "decoder", 100 )
set_callbacks( OpenDecoder, CloseCommon )
add_submodule ()
set_description( N_("Linear PCM audio packetizer") )
set_capability( "packetizer", 100 )
set_callbacks( OpenPacketizer, CloseCommon )
#ifdef ENABLE_SOUT
add_submodule ()
set_description( N_("Linear PCM audio encoder") )
set_capability( "encoder", 100 )
set_callbacks( OpenEncoder, CloseEncoder )
add_shortcut( "lpcm" )
#endif
vlc_module_end ()
/*****************************************************************************
* decoder_sys_t : lpcm decoder descriptor
*****************************************************************************/
struct decoder_sys_t
{
/* Module mode */
bool b_packetizer;
/*
* Output properties
*/
date_t end_date;
/* */
unsigned i_header_size;
int i_type;
uint8_t i_chans_to_reorder;
uint8_t pi_chan_table[AOUT_CHAN_MAX];
};
#ifdef ENABLE_SOUT
struct encoder_sys_t
{
int i_channels;
int i_rate;
int i_frame_samples;
uint8_t *p_buffer;
int i_buffer_used;
int i_frame_num;
};
#endif
/*
* LPCM DVD header :
* - number of frames in this packet (8 bits)
* - first access unit (16 bits) == 0x0003 ?
* - emphasis (1 bit)
* - mute (1 bit)
* - reserved (1 bit)
* - current frame (5 bits)
* - quantisation (2 bits) 0 == 16bps, 1 == 20bps, 2 == 24bps, 3 == illegal
* - frequency (2 bits) 0 == 48 kHz, 1 == 96 kHz, 2 == 44.1 kHz, 3 == 32 kHz
* - reserved (1 bit)
* - number of channels - 1 (3 bits) 1 == 2 channels
* - dynamic range (8 bits) 0x80 == neutral
*
* LPCM DVD-A header (http://dvd-audio.sourceforge.net/spec/aob.shtml)
* - continuity counter (8 bits, clipped to 0x00-0x1f)
* - header size (16 bits)
* - byte pointer to start of first audio frame.
* - unknown (8bits, 0x10 for stereo, 0x00 for surround)
* - sample size (4+4 bits)
* - samplerate (4+4 bits)
* - unknown (8 bits)
* - group assignment (8 bits)
* - unknown (8 bits)
* - padding(variable)
*
* LPCM BD header :
* - unknown (16 bits)
* - number of channels (4 bits)
* - frequency (4 bits)
* - bits per sample (2 bits)
* - unknown (6 bits)
*
* LPCM WIDI header
* refers http://www.dvdforum.org/images/Guideline1394V10R0_20020911.pdf
* - sub stream id (8 bits) = 0xa0
* - frame header count (8 bits) = 0x06
* [ 0b0000000 (7 bits)
* - audio emphasis (1 bit) ] (8 bits)
* [ qz word length (2 bits) 0x00 == 16bits
* - sampling freq (3 bits) 0b001 == 44.1K, 0b010 == 48K Hz
* - channels count(3 bits) ] (8 bits) 0b000 == dual mono, 0b001 == stereo
* follows: LPCM data (15360 bits/1920 bytes)
*/
#define LPCM_VOB_HEADER_LEN (6)
#define LPCM_AOB_HEADER_LEN (11)
#define LPCM_BD_HEADER_LEN (4)
#define LPCM_WIDI_HEADER_LEN (4)
enum
{
LPCM_VOB,
LPCM_AOB,
LPCM_BD,
LPCM_WIDI,
};
typedef struct
{
unsigned i_channels;
unsigned i_bits;
unsigned pi_position[6];
} aob_group_t;
/*****************************************************************************
* Local prototypes
*****************************************************************************/
static block_t *DecodeFrame ( decoder_t *, block_t ** );
static void Flush( decoder_t * );
/* */
static int VobHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header );
static void VobExtract( block_t *, block_t *, unsigned i_bits );
/* */
static int AobHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_layout,
unsigned *pi_bits,
unsigned *pi_padding,
aob_group_t g[2],
const uint8_t *p_header );
static void AobExtract( block_t *, block_t *, unsigned i_bits, aob_group_t p_group[2] );
/* */
static int BdHeader( decoder_sys_t *p_sys,
unsigned *pi_rate,
unsigned *pi_channels,
unsigned *pi_channels_padding,
unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header );
static void BdExtract( block_t *, block_t *, unsigned, unsigned, unsigned, unsigned );
/* */
static int WidiHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header );
/*****************************************************************************
* OpenCommon:
*****************************************************************************/
static int OpenCommon( vlc_object_t *p_this, bool b_packetizer )
{
decoder_t *p_dec = (decoder_t*)p_this;
decoder_sys_t *p_sys;
int i_type;
int i_header_size;
switch( p_dec->fmt_in.i_codec )
{
/* DVD LPCM */
case VLC_CODEC_DVD_LPCM:
i_type = LPCM_VOB;
i_header_size = LPCM_VOB_HEADER_LEN;
break;
/* DVD-Audio LPCM */
case VLC_CODEC_DVDA_LPCM:
i_type = LPCM_AOB;
i_header_size = LPCM_AOB_HEADER_LEN;
break;
/* BD LPCM */
case VLC_CODEC_BD_LPCM:
i_type = LPCM_BD;
i_header_size = LPCM_BD_HEADER_LEN;
break;
/* WIDI LPCM */
case VLC_CODEC_WIDI_LPCM:
i_type = LPCM_WIDI;
i_header_size = LPCM_WIDI_HEADER_LEN;
break;
default:
return VLC_EGENERIC;
}
/* Allocate the memory needed to store the decoder's structure */
if( ( p_dec->p_sys = p_sys = malloc(sizeof(decoder_sys_t)) ) == NULL )
return VLC_ENOMEM;
/* Misc init */
p_sys->b_packetizer = b_packetizer;
date_Set( &p_sys->end_date, 0 );
p_sys->i_type = i_type;
p_sys->i_header_size = i_header_size;
p_sys->i_chans_to_reorder = 0;
/* Set output properties */
p_dec->fmt_out.i_cat = AUDIO_ES;
if( b_packetizer )
{
switch( i_type )
{
case LPCM_VOB:
p_dec->fmt_out.i_codec = VLC_CODEC_DVD_LPCM;
break;
case LPCM_AOB:
p_dec->fmt_out.i_codec = VLC_CODEC_DVDA_LPCM;
break;
case LPCM_WIDI:
p_dec->fmt_out.i_codec = VLC_CODEC_WIDI_LPCM;
break;
default:
vlc_assert_unreachable();
case LPCM_BD:
p_dec->fmt_out.i_codec = VLC_CODEC_BD_LPCM;
break;
}
}
else
{
switch( p_dec->fmt_out.audio.i_bitspersample )
{
case 24:
case 20:
p_dec->fmt_out.i_codec = VLC_CODEC_S32N;
p_dec->fmt_out.audio.i_bitspersample = 32;
break;
default:
p_dec->fmt_out.i_codec = VLC_CODEC_S16N;
p_dec->fmt_out.audio.i_bitspersample = 16;
break;
}
}
/* Set callback */
p_dec->pf_decode_audio = DecodeFrame;
p_dec->pf_packetize = DecodeFrame;
p_dec->pf_flush = Flush;
return VLC_SUCCESS;
}
static int OpenDecoder( vlc_object_t *p_this )
{
return OpenCommon( p_this, false );
}
static int OpenPacketizer( vlc_object_t *p_this )
{
return OpenCommon( p_this, true );
}
/*****************************************************************************
* Flush:
*****************************************************************************/
static void Flush( decoder_t *p_dec )
{
decoder_sys_t *p_sys = p_dec->p_sys;
date_Set( &p_sys->end_date, 0 );
}
/*****************************************************************************
* DecodeFrame: decodes an lpcm frame.
****************************************************************************
* Beware, this function must be fed with complete frames (PES packet).
*****************************************************************************/
static block_t *DecodeFrame( decoder_t *p_dec, block_t **pp_block )
{
decoder_sys_t *p_sys = p_dec->p_sys;
block_t *p_block;
unsigned int i_rate = 0, i_original_channels = 0, i_channels = 0, i_bits = 0;
int i_frame_length;
if( !pp_block || !*pp_block ) return NULL;
p_block = *pp_block;
*pp_block = NULL; /* So the packet doesn't get re-sent */
if( p_block->i_flags & BLOCK_FLAG_DISCONTINUITY )
Flush( p_dec );
if( p_block->i_flags & BLOCK_FLAG_CORRUPTED )
{
block_Release( p_block );
return NULL;
}
/* Date management */
if( p_block->i_pts > VLC_TS_INVALID &&
p_block->i_pts != date_Get( &p_sys->end_date ) )
{
date_Set( &p_sys->end_date, p_block->i_pts );
}
if( !date_Get( &p_sys->end_date ) )
{
/* We've just started the stream, wait for the first PTS. */
block_Release( p_block );
return NULL;
}
if( p_block->i_buffer <= p_sys->i_header_size )
{
msg_Err(p_dec, "frame is too short");
block_Release( p_block );
return NULL;
}
int i_ret;
unsigned i_channels_padding = 0;
unsigned i_padding = 0;
aob_group_t p_aob_group[2];
switch( p_sys->i_type )
{
case LPCM_VOB:
i_ret = VobHeader( &i_rate, &i_channels, &i_original_channels, &i_bits,
p_block->p_buffer );
break;
case LPCM_AOB:
i_ret = AobHeader( &i_rate, &i_channels, &i_original_channels, &i_bits, &i_padding,
p_aob_group,
p_block->p_buffer );
break;
case LPCM_BD:
i_ret = BdHeader( p_sys, &i_rate, &i_channels, &i_channels_padding, &i_original_channels, &i_bits,
p_block->p_buffer );
break;
case LPCM_WIDI:
i_ret = WidiHeader( &i_rate, &i_channels, &i_original_channels, &i_bits,
p_block->p_buffer );
break;
default:
abort();
}
if( i_ret || p_block->i_buffer <= p_sys->i_header_size + i_padding )
{
msg_Warn( p_dec, "no frame sync or too small frame" );
block_Release( p_block );
return NULL;
}
/* Set output properties */
if( p_dec->fmt_out.audio.i_rate != i_rate )
{
date_Init( &p_sys->end_date, i_rate, 1 );
date_Set( &p_sys->end_date, p_block->i_pts );
}
p_dec->fmt_out.audio.i_rate = i_rate;
p_dec->fmt_out.audio.i_channels = i_channels;
p_dec->fmt_out.audio.i_original_channels = i_original_channels;
p_dec->fmt_out.audio.i_physical_channels = i_original_channels;
if ( p_sys->i_type == LPCM_AOB )
{
i_frame_length = (p_block->i_buffer - p_sys->i_header_size - i_padding) /
(
( (p_aob_group[0].i_bits / 8) * p_aob_group[0].i_channels ) +
( (p_aob_group[1].i_bits / 8) * p_aob_group[1].i_channels )
);
}
else
{
i_frame_length = (p_block->i_buffer - p_sys->i_header_size - i_padding) /
(i_channels + i_channels_padding) * 8 / i_bits;
}
if( p_sys->b_packetizer )
{
p_block->i_pts = p_block->i_dts = date_Get( &p_sys->end_date );
p_block->i_length =
date_Increment( &p_sys->end_date, i_frame_length ) -
p_block->i_pts;
/* Just pass on the incoming frame */
return p_block;
}
else
{
/* */
if( i_bits == 16 )
{
p_dec->fmt_out.i_codec = VLC_CODEC_S16N;
p_dec->fmt_out.audio.i_bitspersample = 16;
}
else
{
p_dec->fmt_out.i_codec = VLC_CODEC_S32N;
p_dec->fmt_out.audio.i_bitspersample = 32;
}
/* */
block_t *p_aout_buffer;
p_aout_buffer = decoder_NewAudioBuffer( p_dec, i_frame_length );
if( !p_aout_buffer )
return NULL;
p_aout_buffer->i_pts = date_Get( &p_sys->end_date );
p_aout_buffer->i_length =
date_Increment( &p_sys->end_date, i_frame_length )
- p_aout_buffer->i_pts;
p_block->p_buffer += p_sys->i_header_size + i_padding;
p_block->i_buffer -= p_sys->i_header_size + i_padding;
switch( p_sys->i_type )
{
case LPCM_WIDI:
case LPCM_VOB:
VobExtract( p_aout_buffer, p_block, i_bits );
break;
case LPCM_AOB:
AobExtract( p_aout_buffer, p_block, i_bits, p_aob_group );
break;
default:
vlc_assert_unreachable();
case LPCM_BD:
BdExtract( p_aout_buffer, p_block, i_frame_length, i_channels, i_channels_padding, i_bits );
break;
}
if( p_sys->i_chans_to_reorder )
{
aout_ChannelReorder( p_aout_buffer->p_buffer, p_aout_buffer->i_buffer,
p_sys->i_chans_to_reorder, p_sys->pi_chan_table,
p_dec->fmt_out.i_codec );
}
block_Release( p_block );
return p_aout_buffer;
}
}
/*****************************************************************************
* CloseCommon : lpcm decoder destruction
*****************************************************************************/
static void CloseCommon( vlc_object_t *p_this )
{
decoder_t *p_dec = (decoder_t*)p_this;
free( p_dec->p_sys );
}
#ifdef ENABLE_SOUT
/*****************************************************************************
* OpenEncoder: lpcm encoder construction
*****************************************************************************/
static int OpenEncoder( vlc_object_t *p_this )
{
encoder_t *p_enc = (encoder_t *)p_this;
encoder_sys_t *p_sys;
/* We only support DVD LPCM yet. */
if( p_enc->fmt_out.i_codec != VLC_CODEC_DVD_LPCM )
return VLC_EGENERIC;
if( p_enc->fmt_in.audio.i_rate != 48000 &&
p_enc->fmt_in.audio.i_rate != 96000 &&
p_enc->fmt_in.audio.i_rate != 44100 &&
p_enc->fmt_in.audio.i_rate != 32000 )
{
msg_Err( p_enc, "DVD LPCM supports only sample rates of 48, 96, 44.1 or 32 kHz" );
return VLC_EGENERIC;
}
if( p_enc->fmt_in.audio.i_channels > 8 )
{
msg_Err( p_enc, "DVD LPCM supports a maximum of eight channels" );
return VLC_EGENERIC;
}
/* Allocate the memory needed to store the encoder's structure */
if( ( p_enc->p_sys = p_sys =
(encoder_sys_t *)malloc(sizeof(encoder_sys_t)) ) == NULL )
return VLC_ENOMEM;
/* In DVD LCPM, a frame is always 150 PTS ticks. */
p_sys->i_frame_samples = p_enc->fmt_in.audio.i_rate * 150 / 90000;
p_sys->p_buffer = xmalloc(p_sys->i_frame_samples
* p_enc->fmt_in.audio.i_channels * 16);
p_sys->i_buffer_used = 0;
p_sys->i_frame_num = 0;
p_sys->i_channels = p_enc->fmt_in.audio.i_channels;
p_sys->i_rate = p_enc->fmt_in.audio.i_rate;
p_enc->pf_encode_audio = EncodeFrames;
p_enc->fmt_in.i_codec = p_enc->fmt_out.i_codec;
p_enc->fmt_in.audio.i_bitspersample = 16;
p_enc->fmt_in.i_codec = VLC_CODEC_S16N;
p_enc->fmt_out.i_bitrate =
p_enc->fmt_in.audio.i_channels *
p_enc->fmt_in.audio.i_rate *
p_enc->fmt_in.audio.i_bitspersample *
(p_sys->i_frame_samples + LPCM_VOB_HEADER_LEN) /
p_sys->i_frame_samples;
return VLC_SUCCESS;
}
/*****************************************************************************
* CloseEncoder: lpcm encoder destruction
*****************************************************************************/
static void CloseEncoder ( vlc_object_t *p_this )
{
encoder_t *p_enc = (encoder_t *)p_this;
encoder_sys_t *p_sys = p_enc->p_sys;
free( p_sys->p_buffer );
free( p_sys );
}
/*****************************************************************************
* EncodeFrames: encode zero or more LCPM audio packets
*****************************************************************************/
static block_t *EncodeFrames( encoder_t *p_enc, block_t *p_aout_buf )
{
encoder_sys_t *p_sys = p_enc->p_sys;
block_t *p_first_block = NULL, *p_last_block = NULL;
if( !p_aout_buf || !p_aout_buf->i_buffer ) return NULL;
const int i_num_frames = ( p_sys->i_buffer_used + p_aout_buf->i_nb_samples ) /
p_sys->i_frame_samples;
const int i_leftover_samples = ( p_sys->i_buffer_used + p_aout_buf->i_nb_samples ) %
p_sys->i_frame_samples;
const int i_frame_size = p_sys->i_frame_samples * p_sys->i_channels * 2 + LPCM_VOB_HEADER_LEN;
const int i_start_offset = -p_sys->i_buffer_used;
uint8_t i_freq_code = 0;
switch( p_sys->i_rate ) {
case 48000:
i_freq_code = 0;
break;
case 96000:
i_freq_code = 1;
break;
case 44100:
i_freq_code = 2;
break;
case 32000:
i_freq_code = 3;
break;
default:
vlc_assert_unreachable();
}
int i_bytes_consumed = 0;
for ( int i = 0; i < i_num_frames; ++i )
{
block_t *p_block = block_Alloc( i_frame_size );
if( !p_block )
return NULL;
uint8_t *frame = (uint8_t *)p_block->p_buffer;
frame[0] = 1; /* one frame in packet */
frame[1] = 0;
frame[2] = 0; /* no first access unit */
frame[3] = (p_sys->i_frame_num + i) & 0x1f; /* no emphasis, no mute */
frame[4] = (i_freq_code << 4) | (p_sys->i_channels - 1);
frame[5] = 0x80; /* neutral dynamic range */
const int i_consume_samples = p_sys->i_frame_samples - p_sys->i_buffer_used;
const int i_kept_bytes = p_sys->i_buffer_used * p_sys->i_channels * 2;
const int i_consume_bytes = i_consume_samples * p_sys->i_channels * 2;
#ifdef WORDS_BIGENDIAN
memcpy( frame + 6, p_sys->p_buffer, i_kept_bytes );
memcpy( frame + 6 + i_kept_bytes, p_aout_buf->p_buffer + i_bytes_consumed,
i_consume_bytes );
#else
swab( p_sys->p_buffer, frame + 6, i_kept_bytes );
swab( p_aout_buf->p_buffer + i_bytes_consumed, frame + 6 + i_kept_bytes,
i_consume_bytes );
#endif
p_sys->i_frame_num++;
p_sys->i_buffer_used = 0;
i_bytes_consumed += i_consume_bytes;
/* We need to find i_length by means of next_pts due to possible roundoff errors. */
mtime_t this_pts = p_aout_buf->i_pts +
(i * p_sys->i_frame_samples + i_start_offset) * CLOCK_FREQ / p_sys->i_rate;
mtime_t next_pts = p_aout_buf->i_pts +
((i + 1) * p_sys->i_frame_samples + i_start_offset) * CLOCK_FREQ / p_sys->i_rate;
p_block->i_pts = p_block->i_dts = this_pts;
p_block->i_length = next_pts - this_pts;
if( !p_first_block )
p_first_block = p_last_block = p_block;
else
p_last_block = p_last_block->p_next = p_block;
}
memcpy( p_sys->p_buffer,
p_aout_buf->p_buffer + i_bytes_consumed,
i_leftover_samples * p_sys->i_channels * 2 );
p_sys->i_buffer_used = i_leftover_samples;
return p_first_block;
}
#endif
/*****************************************************************************
*
*****************************************************************************/
static int VobHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header )
{
const uint8_t i_header = p_header[4];
switch( (i_header >> 4) & 0x3 )
{
case 0:
*pi_rate = 48000;
break;
case 1:
*pi_rate = 96000;
break;
case 2:
*pi_rate = 44100;
break;
case 3:
*pi_rate = 32000;
break;
}
*pi_channels = (i_header & 0x7) + 1;
switch( *pi_channels - 1 )
{
case 0:
*pi_original_channels = AOUT_CHAN_CENTER;
break;
case 1:
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT;
break;
case 2:
/* This is unsure. */
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_LFE;
break;
case 3:
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT;
break;
case 4:
/* This is unsure. */
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT
| AOUT_CHAN_LFE;
break;
case 5:
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT
| AOUT_CHAN_CENTER | AOUT_CHAN_LFE;
break;
case 6:
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT
| AOUT_CHAN_CENTER | AOUT_CHAN_MIDDLELEFT
| AOUT_CHAN_MIDDLERIGHT;
break;
case 7:
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT
| AOUT_CHAN_CENTER | AOUT_CHAN_MIDDLELEFT
| AOUT_CHAN_MIDDLERIGHT | AOUT_CHAN_LFE;
break;
}
switch( (i_header >> 6) & 0x3 )
{
case 2:
*pi_bits = 24;
break;
case 1:
*pi_bits = 20;
break;
case 0:
default:
*pi_bits = 16;
break;
}
/* Check frame sync and drop it. */
if( p_header[5] != 0x80 )
return -1;
return 0;
}
static const unsigned p_aob_group1[21][6] = {
{ AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
};
static const unsigned p_aob_group2[21][6] = {
{ 0 },
{ 0 },
{ AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_LFE, 0 },
{ AOUT_CHAN_LFE, AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_LFE, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_LFE, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_LFE, AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_LFE, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_LFE, 0 },
{ AOUT_CHAN_LFE, AOUT_CHAN_REARCENTER, 0 },
{ AOUT_CHAN_LFE, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 },
{ AOUT_CHAN_LFE, 0 },
{ AOUT_CHAN_CENTER, 0 },
{ AOUT_CHAN_CENTER, AOUT_CHAN_LFE, 0 },
};
static int AobHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_layout,
unsigned *pi_bits,
unsigned *pi_padding,
aob_group_t g[2],
const uint8_t *p_header )
{
const unsigned i_header_size = GetWBE( &p_header[1] );
if( i_header_size + 3 < LPCM_AOB_HEADER_LEN )
return VLC_EGENERIC;
*pi_padding = 3+i_header_size - LPCM_AOB_HEADER_LEN;
const int i_index_size_g1 = (p_header[6] >> 4) & 0x0f;
const int i_index_size_g2 = (p_header[6] ) & 0x0f;
const int i_index_rate_g1 = (p_header[7] >> 4) & 0x0f;
const int i_index_rate_g2 = (p_header[7] ) & 0x0f;
const int i_assignment = p_header[9];
/* Validate */
if( i_index_size_g1 > 0x02 ||
( i_index_size_g2 != 0x0f && i_index_size_g2 > 0x02 ) )
return VLC_EGENERIC;
if( (i_index_rate_g1 & 0x07) > 0x02 ||
( i_index_rate_g2 != 0x0f && (i_index_rate_g1 & 0x07) > 0x02 ) )
return VLC_EGENERIC;
if( i_assignment > 20 )
return VLC_EGENERIC;
/* */
/* max is 0x2, 0xf == unused */
g[0].i_bits = 16 + 4 * i_index_size_g1;
g[1].i_bits = ( i_index_size_g2 != 0x0f ) ? 16 + 4 * i_index_size_g2 : 0;
/* No info about interlacing of different sampling rate */
if ( g[1].i_bits && ( i_index_rate_g1 != i_index_rate_g2 ) )
return VLC_EGENERIC;
/* only set 16bits if both are <= */
if( g[0].i_bits )
{
if( g[0].i_bits > 16 || g[1].i_bits > 16 )
*pi_bits = 32;
else
*pi_bits = 16;
}
else
return VLC_EGENERIC;
if( i_index_rate_g1 & 0x08 )
*pi_rate = 44100 << (i_index_rate_g1 & 0x07);
else
*pi_rate = 48000 << (i_index_rate_g1 & 0x07);
/* Group1 */
unsigned i_channels1 = 0;
unsigned i_layout1 = 0;
for( int i = 0; p_aob_group1[i_assignment][i] != 0; i++ )
{
i_channels1++;
i_layout1 |= p_aob_group1[i_assignment][i];
}
/* Group2 */
unsigned i_channels2 = 0;
unsigned i_layout2 = 0;
if( i_index_size_g2 != 0x0f && i_index_rate_g2 != 0x0f )
{
for( int i = 0; p_aob_group2[i_assignment][i] != 0; i++ )
{
i_channels2++;
i_layout2 |= p_aob_group2[i_assignment][i];
}
assert( (i_layout1 & i_layout2) == 0 );
}
/* */
*pi_channels = i_channels1 + ( g[1].i_bits ? i_channels2 : 0 );
*pi_layout = i_layout1 | ( g[1].i_bits ? i_layout2 : 0 );
/* */
for( unsigned i = 0; i < 2; i++ )
{
const unsigned *p_aob = i == 0 ? p_aob_group1[i_assignment] :
p_aob_group2[i_assignment];
g[i].i_channels = i == 0 ? i_channels1 :
i_channels2;
if( !g[i].i_bits )
continue;
for( unsigned j = 0; j < g[i].i_channels; j++ )
{
g[i].pi_position[j] = 0;
for( int k = 0; pi_vlc_chan_order_wg4[k] != 0; k++ )
{
const unsigned i_channel = pi_vlc_chan_order_wg4[k];
if( i_channel == p_aob[j] )
break;
if( (*pi_layout) & i_channel )
g[i].pi_position[j]++;
}
}
}
return VLC_SUCCESS;
}
static const uint32_t pi_8channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER,
AOUT_CHAN_MIDDLELEFT, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT,
AOUT_CHAN_MIDDLERIGHT, AOUT_CHAN_LFE, 0 };
static const uint32_t pi_7channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER,
AOUT_CHAN_MIDDLELEFT, AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT,
AOUT_CHAN_MIDDLERIGHT, 0 };
static const uint32_t pi_6channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER,
AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, AOUT_CHAN_LFE, 0 };
static const uint32_t pi_5channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT, AOUT_CHAN_CENTER,
AOUT_CHAN_MIDDLELEFT, AOUT_CHAN_MIDDLERIGHT, 0 };
static const uint32_t pi_4channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT,
AOUT_CHAN_REARLEFT, AOUT_CHAN_REARRIGHT, 0 };
static const uint32_t pi_3channels_in[] =
{ AOUT_CHAN_LEFT, AOUT_CHAN_RIGHT,
AOUT_CHAN_CENTER, 0 };
static int BdHeader( decoder_sys_t *p_sys,
unsigned *pi_rate,
unsigned *pi_channels,
unsigned *pi_channels_padding,
unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header )
{
const uint32_t h = GetDWBE( p_header );
const uint32_t *pi_channels_in = NULL;
switch( ( h & 0xf000) >> 12 )
{
case 1:
*pi_channels = 1;
*pi_original_channels = AOUT_CHAN_CENTER;
break;
case 3:
*pi_channels = 2;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT;
break;
case 4:
*pi_channels = 3;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER;
pi_channels_in = pi_3channels_in;
break;
case 5:
*pi_channels = 3;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_REARCENTER;
break;
case 6:
*pi_channels = 4;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER |
AOUT_CHAN_REARCENTER;
break;
case 7:
*pi_channels = 4;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT |
AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT;
pi_channels_in = pi_4channels_in;
break;
case 8:
*pi_channels = 5;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER |
AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT;
pi_channels_in = pi_5channels_in;
break;
case 9:
*pi_channels = 6;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER |
AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT |
AOUT_CHAN_LFE;
pi_channels_in = pi_6channels_in;
break;
case 10:
*pi_channels = 7;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER |
AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT |
AOUT_CHAN_MIDDLELEFT | AOUT_CHAN_MIDDLERIGHT;
pi_channels_in = pi_7channels_in;
break;
case 11:
*pi_channels = 8;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER |
AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT |
AOUT_CHAN_MIDDLELEFT | AOUT_CHAN_MIDDLERIGHT |
AOUT_CHAN_LFE;
pi_channels_in = pi_8channels_in;
break;
default:
return -1;
}
*pi_channels_padding = *pi_channels & 1;
switch( (h >> 6) & 0x03 )
{
case 1:
*pi_bits = 16;
break;
case 2: /* 20 bits but samples are stored on 24 bits */
case 3: /* 24 bits */
*pi_bits = 24;
break;
default:
return -1;
}
switch( (h >> 8) & 0x0f )
{
case 1:
*pi_rate = 48000;
break;
case 4:
*pi_rate = 96000;
break;
case 5:
*pi_rate = 192000;
break;
default:
return -1;
}
if( pi_channels_in )
{
p_sys->i_chans_to_reorder =
aout_CheckChannelReorder( pi_channels_in, NULL,
*pi_original_channels,
p_sys->pi_chan_table );
}
return 0;
}
static int WidiHeader( unsigned *pi_rate,
unsigned *pi_channels, unsigned *pi_original_channels,
unsigned *pi_bits,
const uint8_t *p_header )
{
if ( p_header[0] != 0xa0 || p_header[1] != 0x06 )
return -1;
switch( ( p_header[3] & 0x38 ) >> 3 )
{
case 0x01: //0b001
*pi_rate = 44100;
break;
case 0x02: //0b010
*pi_rate = 48000;
break;
default:
return -1;
}
if( p_header[3] >> 6 != 0 )
return -1;
else
*pi_bits = 16;
*pi_channels = (p_header[3] & 0x7) + 1;
*pi_original_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT;
return 0;
}
static void VobExtract( block_t *p_aout_buffer, block_t *p_block,
unsigned i_bits )
{
/* 20/24 bits LPCM use special packing */
if( i_bits == 24 )
{
uint32_t *p_out = (uint32_t *)p_aout_buffer->p_buffer;
while( p_block->i_buffer / 12 )
{
/* Sample 1 */
*(p_out++) = (p_block->p_buffer[ 0] << 24)
| (p_block->p_buffer[ 1] << 16)
| (p_block->p_buffer[ 8] << 8);
/* Sample 2 */
*(p_out++) = (p_block->p_buffer[ 2] << 24)
| (p_block->p_buffer[ 3] << 16)
| (p_block->p_buffer[ 9] << 8);
/* Sample 3 */
*(p_out++) = (p_block->p_buffer[ 4] << 24)
| (p_block->p_buffer[ 5] << 16)
| (p_block->p_buffer[10] << 8);
/* Sample 4 */
*(p_out++) = (p_block->p_buffer[ 6] << 24)
| (p_block->p_buffer[ 7] << 16)
| (p_block->p_buffer[11] << 8);
p_block->i_buffer -= 12;
p_block->p_buffer += 12;
}
}
else if( i_bits == 20 )
{
uint32_t *p_out = (uint32_t *)p_aout_buffer->p_buffer;
while( p_block->i_buffer / 10 )
{
/* Sample 1 */
*(p_out++) = ( p_block->p_buffer[0] << 24)
| ( p_block->p_buffer[1] << 16)
| ((p_block->p_buffer[8] & 0xF0) << 8);
/* Sample 2 */
*(p_out++) = ( p_block->p_buffer[2] << 24)
| ( p_block->p_buffer[3] << 16)
| ((p_block->p_buffer[8] & 0x0F) << 12);
/* Sample 3 */
*(p_out++) = ( p_block->p_buffer[4] << 24)
| ( p_block->p_buffer[5] << 16)
| ((p_block->p_buffer[9] & 0xF0) << 8);
/* Sample 4 */
*(p_out++) = ( p_block->p_buffer[6] << 24)
| ( p_block->p_buffer[7] << 16)
| ((p_block->p_buffer[9] & 0x0F) << 12);
p_block->i_buffer -= 10;
p_block->p_buffer += 10;
}
}
else
{
assert( i_bits == 16 );
#ifdef WORDS_BIGENDIAN
memcpy( p_aout_buffer->p_buffer, p_block->p_buffer, p_block->i_buffer );
#else
swab( p_block->p_buffer, p_aout_buffer->p_buffer, p_block->i_buffer );
#endif
}
}
static void AobExtract( block_t *p_aout_buffer,
block_t *p_block, unsigned i_aoutbits, aob_group_t p_group[2] )
{
uint8_t *p_out = p_aout_buffer->p_buffer;
const unsigned i_total_channels = p_group[0].i_channels +
( p_group[1].i_bits ? p_group[1].i_channels : 0 );
while( p_block->i_buffer > 0 )
{
unsigned int i_aout_written = 0;
for( int i = 0; i < 2; i++ )
{
const aob_group_t *g = &p_group[1-i];
const unsigned int i_group_size = 2 * g->i_channels * g->i_bits / 8;
if( p_block->i_buffer < i_group_size )
{
p_block->i_buffer = 0;
break;
}
if( !g->i_bits )
continue;
for( unsigned n = 0; n < 2; n++ )
{
for( unsigned j = 0; j < g->i_channels; j++ )
{
const int i_src = n * g->i_channels + j;
const int i_dst = n * i_total_channels + g->pi_position[j];
uint32_t *p_out32 = (uint32_t *) &p_out[4*i_dst];
if( g->i_bits == 24 )
{
assert( i_aoutbits == 32 );
*p_out32 = (p_block->p_buffer[2*i_src+0] << 24)
| (p_block->p_buffer[2*i_src+1] << 16)
| (p_block->p_buffer[4*g->i_channels+i_src] << 8);
#ifdef WORDS_BIGENDIAN
*p_out32 = bswap32(*p_out32);
#endif
i_aout_written += 4;
}
else if( g->i_bits == 20 )
{
assert( i_aoutbits == 32 );
*p_out32 = (p_block->p_buffer[2*i_src+0] << 24)
| (p_block->p_buffer[2*i_src+1] << 16)
| (((p_block->p_buffer[4*g->i_channels+i_src] << ((!n)?0:4) ) & 0xf0) << 8);
#ifdef WORDS_BIGENDIAN
*p_out32 = bswap32(*p_out32);
#endif
i_aout_written += 4;
}
else
{
assert( g->i_bits == 16 );
assert( i_aoutbits == 16 || i_aoutbits == 32 );
if( i_aoutbits == 16 )
{
#ifdef WORDS_BIGENDIAN
memcpy( &p_out[2*i_dst], &p_block->p_buffer[2*i_src], 2 );
#else
p_out[2*i_dst+1] = p_block->p_buffer[2*i_src+0];
p_out[2*i_dst+0] = p_block->p_buffer[2*i_src+1];
#endif
i_aout_written += 2;
}
else
{
*p_out32 = (p_block->p_buffer[2*i_src+0] << 24)
| (p_block->p_buffer[2*i_src+1] << 16);
#ifdef WORDS_BIGENDIAN
*p_out32 = bswap32(*p_out32);
#endif
i_aout_written += 4;
}
}
}
}
/* */
p_block->i_buffer -= i_group_size;
p_block->p_buffer += i_group_size;
}
p_out += i_aout_written;
}
}
static void BdExtract( block_t *p_aout_buffer, block_t *p_block,
unsigned i_frame_length,
unsigned i_channels, unsigned i_channels_padding,
unsigned i_bits )
{
if( i_bits != 16 || i_channels_padding > 0 )
{
uint8_t *p_src = p_block->p_buffer;
uint8_t *p_dst = p_aout_buffer->p_buffer;
int dst_inc = ((i_bits == 16) ? 2 : 4) * i_channels;
while( i_frame_length > 0 )
{
#ifdef WORDS_BIGENDIAN
memcpy( p_dst, p_src, i_channels * i_bits / 8 );
#else
if (i_bits == 16) {
swab( p_src, p_dst, (i_channels + i_channels_padding) * i_bits / 8 );
} else {
for (unsigned i = 0; i < i_channels; ++i) {
p_dst[i * 4] = 0;
p_dst[1 + (i * 4)] = p_src[2 + (i * 3)];
p_dst[2 + (i * 4)] = p_src[1 + (i * 3)];
p_dst[3 + (i * 4)] = p_src[i * 3];
}
}
#endif
p_src += (i_channels + i_channels_padding) * i_bits / 8;
p_dst += dst_inc;
i_frame_length--;
}
}
else
{
#ifdef WORDS_BIGENDIAN
memcpy( p_aout_buffer->p_buffer, p_block->p_buffer, p_block->i_buffer );
#else
swab( p_block->p_buffer, p_aout_buffer->p_buffer, p_block->i_buffer );
#endif
}
}
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