/* $Id: interface.c,v 1.47 2004/04/14 22:15:44 robert Exp $ */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include "common.h"
#include "interface.h"
#include "tabinit.h"
#include "layer3.h"
#include "VbrTag.h"
#include "decode_i386.h"
#ifdef USE_LAYER_1
#include "layer1.h"
#endif
#ifdef USE_LAYER_2
#include "layer2.h"
#endif
#ifdef WITH_DMALLOC
#include <dmalloc.h>
#endif
BOOL InitMP3( PMPSTR mp)
{
memset(mp,0,sizeof(MPSTR));
mp->framesize = 0;
mp->num_frames = 0;
mp->enc_delay = -1;
mp->enc_padding = -1;
mp->vbr_header=0;
mp->header_parsed=0;
mp->side_parsed=0;
mp->data_parsed=0;
mp->free_format=0;
mp->old_free_format=0;
mp->ssize = 0;
mp->dsize=0;
mp->fsizeold = -1;
mp->bsize = 0;
mp->head = mp->tail = NULL;
mp->fr.single = -1;
mp->bsnum = 0;
mp->wordpointer = mp->bsspace[mp->bsnum] + 512;
mp->bitindex = 0;
mp->synth_bo = 1;
mp->sync_bitstream = 1;
make_decode_tables(32767);
init_layer3(SBLIMIT);
#ifdef USE_LAYER_2
init_layer2();
#endif
return !0;
}
void ExitMP3( PMPSTR mp)
{
struct buf *b,*bn;
b = mp->tail;
while(b) {
free(b->pnt);
bn = b->next;
free(b);
b = bn;
}
}
static struct buf *addbuf( PMPSTR mp, unsigned char *buf,int size)
{
struct buf *nbuf;
nbuf = (struct buf*) malloc( sizeof(struct buf) );
if(!nbuf) {
fprintf(stderr,"Out of memory!\n");
return NULL;
}
nbuf->pnt = (unsigned char*) malloc((size_t)size);
if(!nbuf->pnt) {
free(nbuf);
return NULL;
}
nbuf->size = size;
memcpy(nbuf->pnt,buf,(size_t)size);
nbuf->next = NULL;
nbuf->prev = mp->head;
nbuf->pos = 0;
if(!mp->tail) {
mp->tail = nbuf;
}
else {
mp->head->next = nbuf;
}
mp->head = nbuf;
mp->bsize += size;
return nbuf;
}
void remove_buf(PMPSTR mp)
{
struct buf *buf = mp->tail;
mp->tail = buf->next;
if(mp->tail)
mp->tail->prev = NULL;
else {
mp->tail = mp->head = NULL;
}
free(buf->pnt);
free(buf);
}
static int read_buf_byte(PMPSTR mp)
{
unsigned int b;
int pos;
pos = mp->tail->pos;
while(pos >= mp->tail->size) {
remove_buf(mp);
if(!mp->tail) {
fprintf(stderr,"Fatal error! tried to read past mp buffer\n");
exit(1);
}
pos = mp->tail->pos;
}
b = mp->tail->pnt[pos];
mp->bsize--;
mp->tail->pos++;
return b;
}
static void read_head(PMPSTR mp)
{
unsigned long head;
head = read_buf_byte(mp);
head <<= 8;
head |= read_buf_byte(mp);
head <<= 8;
head |= read_buf_byte(mp);
head <<= 8;
head |= read_buf_byte(mp);
mp->header = head;
}
static void
copy_mp(PMPSTR mp,int size,unsigned char *ptr)
{
int len = 0;
while(len < size && mp->tail) {
int nlen;
int blen = mp->tail->size - mp->tail->pos;
if( (size - len) <= blen) {
nlen = size-len;
}
else {
nlen = blen;
}
memcpy(ptr+len,mp->tail->pnt+mp->tail->pos,(size_t)nlen);
len += nlen;
mp->tail->pos += nlen;
mp->bsize -= nlen;
if(mp->tail->pos == mp->tail->size) {
remove_buf(mp);
}
}
}
/* number of bytes needed by GetVbrTag to parse header */
#define XING_HEADER_SIZE 194
/* traverse mp data structure without changing it */
/* (just like sync_buffer) */
/* pull out Xing bytes */
/* call vbr header check code from LAME */
/* if we find a header, parse it and also compute the VBR header size */
/* if no header, do nothing. */
/* */
/* bytes = number of bytes before MPEG header. skip this many bytes */
/* before starting to read */
/* return value: number of bytes in VBR header, including syncword */
static int
check_vbr_header(PMPSTR mp,int bytes)
{
int i,pos;
struct buf *buf=mp->tail;
unsigned char xing[XING_HEADER_SIZE];
VBRTAGDATA pTagData;
pos = buf->pos;
/* skip to valid header */
for (i=0; i<bytes; ++i) {
while(pos >= buf->size) {
buf = buf->next;
pos = buf->pos;
if(!buf) return -1; /* fatal error */
}
++pos;
}
/* now read header */
for (i=0; i<XING_HEADER_SIZE; ++i) {
while(pos >= buf->size) {
buf = buf->next;
if(!buf) return -1; /* fatal error */
pos = buf->pos;
}
xing[i] = buf->pnt[pos];
++pos;
}
/* check first bytes for Xing header */
mp->vbr_header = GetVbrTag(&pTagData,xing);
if (mp->vbr_header) {
mp->num_frames=pTagData.frames;
mp->enc_delay=pTagData.enc_delay;
mp->enc_padding=pTagData.enc_padding;
/*fprintf(stderr,"\rmpglib: delays: %i %i \n",mp->enc_delay,mp->enc_padding); */
/* fprintf(stderr,"\rmpglib: Xing VBR header dectected. MP3 file has %i frames\n", pTagData.frames); */
if ( pTagData.headersize < 1 ) return 1;
return pTagData.headersize;
}
return 0;
}
static int
sync_buffer(PMPSTR mp,int free_match)
{
/* traverse mp structure without modifing pointers, looking
* for a frame valid header.
* if free_format, valid header must also have the same
* samplerate.
* return number of bytes in mp, before the header
* return -1 if header is not found
*/
unsigned int b[4]={0,0,0,0};
int i,h,pos;
struct buf *buf=mp->tail;
if (!buf) return -1;
pos = buf->pos;
for (i=0; i<mp->bsize; i++) {
/* get 4 bytes */
b[0]=b[1]; b[1]=b[2]; b[2]=b[3];
while(pos >= buf->size) {
buf = buf->next;
pos = buf->pos;
if(!buf) {
return -1;
/* not enough data to read 4 bytes */
}
}
b[3] = buf->pnt[pos];
++pos;
if (i>=3) {
struct frame *fr = &mp->fr;
unsigned long head;
head = b[0];
head <<= 8;
head |= b[1];
head <<= 8;
head |= b[2];
head <<= 8;
head |= b[3];
h = head_check(head,fr->lay);
if (h && free_match) {
/* just to be even more thorough, match the sample rate */
int mode,stereo,sampling_frequency,mpeg25,lsf;
if( head & (1<<20) ) {
lsf = (head & (1<<19)) ? 0x0 : 0x1;
mpeg25 = 0;
}
else {
lsf = 1;
mpeg25 = 1;
}
mode = ((head>>6)&0x3);
stereo = (mode == MPG_MD_MONO) ? 1 : 2;
if(mpeg25)
sampling_frequency = 6 + ((head>>10)&0x3);
else
sampling_frequency = ((head>>10)&0x3) + (lsf*3);
h = ((stereo==fr->stereo) && (lsf==fr->lsf) && (mpeg25==fr->mpeg25) &&
(sampling_frequency == fr->sampling_frequency));
}
if (h) {
return i-3;
}
}
}
return -1;
}
static int
decodeMP3_clipchoice( PMPSTR mp,unsigned char *in,int isize,char *out,int *done,
int (*synth_1to1_mono_ptr)(PMPSTR,real *,unsigned char *,int *),
int (*synth_1to1_ptr)(PMPSTR,real *,int,unsigned char *, int *) )
{
int i,iret,bits,bytes;
if (in && isize && addbuf(mp,in,isize) == NULL)
return MP3_ERR;
/* First decode header */
if(!mp->header_parsed) {
if (mp->fsizeold==-1 || mp->sync_bitstream) {
int vbrbytes;
mp->sync_bitstream=0;
/* This is the very first call. sync with anything */
/* bytes= number of bytes before header */
bytes=sync_buffer(mp,0);
/* now look for Xing VBR header */
if (mp->bsize >= bytes+XING_HEADER_SIZE ) {
/* vbrbytes = number of bytes in entire vbr header */
vbrbytes=check_vbr_header(mp,bytes);
} else {
/* not enough data to look for Xing header */
return MP3_NEED_MORE;
}
if (mp->vbr_header) {
/* do we have enough data to parse entire Xing header? */
if (bytes+vbrbytes > mp->bsize) return MP3_NEED_MORE;
/* read in Xing header. Buffer data in case it
* is used by a non zero main_data_begin for the next
* frame, but otherwise dont decode Xing header */
/*fprintf(stderr,"found xing header, skipping %i bytes\n",vbrbytes+bytes);*/
for (i=0; i<vbrbytes+bytes; ++i) read_buf_byte(mp);
/* now we need to find another syncword */
/* just return and make user send in more data */
return MP3_NEED_MORE;
}
}else{
/* match channels, samplerate, etc, when syncing */
bytes=sync_buffer(mp,1);
}
if (bytes<0) return MP3_NEED_MORE;
if (bytes>0) {
/* there were some extra bytes in front of header.
* bitstream problem, but we are now resynced
* should try to buffer previous data in case new
* frame has nonzero main_data_begin, but we need
* to make sure we do not overflow buffer
*/
int size;
fprintf(stderr,"bitstream problem: resyncing...\n");
mp->old_free_format=0;
mp->sync_bitstream=1;
/* skip some bytes, buffer the rest */
size = (int) (mp->wordpointer - (mp->bsspace[mp->bsnum]+512));
if (size > MAXFRAMESIZE) {
/* wordpointer buffer is trashed. probably cant recover, but try anyway */
fprintf(stderr,"mpglib: wordpointer trashed. size=%i (%i) bytes=%i \n",
size,MAXFRAMESIZE,bytes);
size=0;
mp->wordpointer = mp->bsspace[mp->bsnum]+512;
}
/* buffer contains 'size' data right now
we want to add 'bytes' worth of data, but do not
exceed MAXFRAMESIZE, so we through away 'i' bytes */
i = (size+bytes)-MAXFRAMESIZE;
for (; i>0; --i) {
--bytes;
read_buf_byte(mp);
}
copy_mp(mp,bytes,mp->wordpointer);
mp->fsizeold += bytes;
}
read_head(mp);
decode_header(&mp->fr,mp->header);
mp->header_parsed=1;
mp->framesize = mp->fr.framesize;
mp->free_format = (mp->framesize==0);
if(mp->fr.lsf)
mp->ssize = (mp->fr.stereo == 1) ? 9 : 17;
else
mp->ssize = (mp->fr.stereo == 1) ? 17 : 32;
if (mp->fr.error_protection)
mp->ssize += 2;
mp->bsnum = 1-mp->bsnum; /* toggle buffer */
mp->wordpointer = mp->bsspace[mp->bsnum] + 512;
mp->bitindex = 0;
/* for very first header, never parse rest of data */
if (mp->fsizeold==-1)
return MP3_NEED_MORE;
}
/* now decode side information */
if (!mp->side_parsed) {
/* Layer 3 only */
if (mp->fr.lay==3)
{
if (mp->bsize < mp->ssize)
return MP3_NEED_MORE;
copy_mp(mp,mp->ssize,mp->wordpointer);
if(mp->fr.error_protection)
getbits(mp,16);
bits=do_layer3_sideinfo(mp);
/* bits = actual number of bits needed to parse this frame */
/* can be negative, if all bits needed are in the reservoir */
if (bits<0) bits=0;
/* read just as many bytes as necessary before decoding */
mp->dsize = (bits+7)/8;
/* this will force mpglib to read entire frame before decoding */
/* mp->dsize= mp->framesize - mp->ssize;*/
}
else
{
/* Layers 1 and 2 */
/* check if there is enough input data */
if(mp->fr.framesize > mp->bsize)
return MP3_NEED_MORE;
/* takes care that the right amount of data is copied into wordpointer */
mp->dsize=mp->fr.framesize;
mp->ssize=0;
}
mp->side_parsed=1;
}
/* now decode main data */
iret=MP3_NEED_MORE;
if (!mp->data_parsed ) {
if(mp->dsize > mp->bsize) {
return MP3_NEED_MORE;
}
copy_mp(mp,mp->dsize,mp->wordpointer);
*done = 0;
/*do_layer3(&mp->fr,(unsigned char *) out,done); */
switch (mp->fr.lay)
{
#ifdef USE_LAYER_1
case 1:
if(mp->fr.error_protection)
getbits(mp,16);
do_layer1(mp,(unsigned char *) out,done);
break;
#endif
#ifdef USE_LAYER_2
case 2:
if(mp->fr.error_protection)
getbits(mp,16);
do_layer2(mp,(unsigned char *) out,done);
break;
#endif
case 3:
do_layer3(mp,(unsigned char *) out,done, synth_1to1_mono_ptr, synth_1to1_ptr);
break;
default:
fprintf(stderr,"invalid layer %d\n",mp->fr.lay);
}
mp->wordpointer = mp->bsspace[mp->bsnum] + 512 + mp->ssize + mp->dsize;
mp->data_parsed=1;
iret=MP3_OK;
}
/* remaining bits are ancillary data, or reservoir for next frame
* If free format, scan stream looking for next frame to determine
* mp->framesize */
if (mp->free_format) {
if (mp->old_free_format) {
/* free format. bitrate must not vary */
mp->framesize=mp->fsizeold_nopadding + (mp->fr.padding);
}else{
bytes=sync_buffer(mp,1);
if (bytes<0) return iret;
mp->framesize = bytes + mp->ssize+mp->dsize;
mp->fsizeold_nopadding= mp->framesize - mp->fr.padding;
/*
fprintf(stderr,"freeformat bitstream: estimated bitrate=%ikbs \n",
8*(4+mp->framesize)*freqs[mp->fr.sampling_frequency]/
(1000*576*(2-mp->fr.lsf)));
*/
}
}
/* buffer the ancillary data and reservoir for next frame */
bytes = mp->framesize-(mp->ssize+mp->dsize);
if (bytes > mp->bsize) {
return iret;
}
if (bytes>0) {
int size;
copy_mp(mp,bytes,mp->wordpointer);
mp->wordpointer += bytes;
size = (int) (mp->wordpointer - (mp->bsspace[mp->bsnum]+512));
if (size > MAXFRAMESIZE) {
fprintf(stderr,"fatal error. MAXFRAMESIZE not large enough.\n");
}
}
/* the above frame is completey parsed. start looking for next frame */
mp->fsizeold = mp->framesize;
mp->old_free_format = mp->free_format;
mp->framesize =0;
mp->header_parsed=0;
mp->side_parsed=0;
mp->data_parsed=0;
return iret;
}
int decodeMP3( PMPSTR mp,unsigned char *in,int isize,char *out,
int osize,int *done)
{
if(osize < 4608) {
fprintf(stderr,"To less out space\n");
return MP3_ERR;
}
/* passing pointers to the functions which clip the samples */
return decodeMP3_clipchoice(mp, in, isize, out, done, synth_1to1_mono, synth_1to1);
}
int decodeMP3_unclipped( PMPSTR mp,unsigned char *in,int isize,char *out,
int osize,int *done)
{
/* we forbid input with more than 1152 samples per channel for output in unclipped mode */
if(osize < 1152 * 2 * sizeof(real) ) {
fprintf(stderr,"To less out space\n");
return MP3_ERR;
}
/* passing pointers to the functions which don't clip the samples */
return decodeMP3_clipchoice(mp, in, isize, out, done, synth_1to1_mono_unclipped, synth_1to1_unclipped);
}
root