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|
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2005 Dave Chapman
* Copyright (C) 2010 Yoshihisa Uchida
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include <stdio.h>
#include <string.h>
#include <inttypes.h>
#include "system.h"
#include "metadata.h"
#include "metadata_common.h"
#include "metadata_parsers.h"
#include "rbunicode.h"
#include "logf.h"
#ifdef DEBUGF
#undef DEBUGF
#define DEBUGF(...)
#endif
/* Wave(RIFF)/Wave64 format */
# define AV_WL32(p, d) do { \
((uint8_t*)(p))[0] = (d); \
((uint8_t*)(p))[1] = (d)>>8; \
((uint8_t*)(p))[2] = (d)>>16; \
((uint8_t*)(p))[3] = (d)>>24; \
} while(0)
# define AV_WL16(p, d) do { \
((uint8_t*)(p))[0] = (d); \
((uint8_t*)(p))[1] = (d)>>8; \
} while(0)
enum {
RIFF_CHUNK = 0,
WAVE_CHUNK,
FMT_CHUNK,
FACT_CHUNK,
DATA_CHUNK,
LIST_CHUNK,
};
/* Wave chunk names */
#define WAVE_CHUNKNAME_LENGTH 4
#define WAVE_CHUNKSIZE_LENGTH 4
static const unsigned char * const wave_chunklist
= "RIFF"
"WAVE"
"fmt "
"fact"
"data"
"LIST";
/* Wave64 GUIDs */
#define WAVE64_CHUNKNAME_LENGTH 16
#define WAVE64_CHUNKSIZE_LENGTH 8
static const unsigned char * const wave64_chunklist
= "riff\x2e\x91\xcf\x11\xa5\xd6\x28\xdb\x04\xc1\x00\x00"
"wave\xf3\xac\xd3\x11\x8c\xd1\x00\xc0\x4f\x8e\xdb\x8a"
"fmt \xf3\xac\xd3\x11\x8c\xd1\x00\xc0\x4f\x8e\xdb\x8a"
"fact\xf3\xac\xd3\x11\x8c\xd1\x00\xc0\x4f\x8e\xdb\x8a"
"data\xf3\xac\xd3\x11\x8c\xd1\x00\xc0\x4f\x8e\xdb\x8a"
"\xbc\x94\x5f\x92\x5a\x52\xd2\x11\x86\xdc\x00\xc0\x4f\x8e\xdb\x8a";
/* list/info chunk */
struct info_chunk {
const unsigned char* tag;
size_t offset;
};
/* info chunk names are common wave/wave64 */
static const struct info_chunk info_chunks[] = {
{ "INAM", offsetof(struct mp3entry, title), }, /* title */
{ "IART", offsetof(struct mp3entry, artist), }, /* artist */
{ "ISBJ", offsetof(struct mp3entry, albumartist), }, /* albumartist */
{ "IPRD", offsetof(struct mp3entry, album), }, /* album */
{ "IWRI", offsetof(struct mp3entry, composer), }, /* composer */
{ "ICMT", offsetof(struct mp3entry, comment), }, /* comment */
{ "ISRF", offsetof(struct mp3entry, grouping), }, /* grouping */
{ "IGNR", offsetof(struct mp3entry, genre_string), }, /* genre */
{ "ICRD", offsetof(struct mp3entry, year_string), }, /* date */
{ "IPRT", offsetof(struct mp3entry, track_string), }, /* track/trackcount */
{ "IFRM", offsetof(struct mp3entry, disc_string), }, /* disc/disccount */
};
#define INFO_CHUNK_COUNT ((int)ARRAYLEN(info_chunks))
/* support formats */
enum
{
WAVE_FORMAT_PCM = 0x0001, /* Microsoft PCM Format */
WAVE_FORMAT_ADPCM = 0x0002, /* Microsoft ADPCM Format */
WAVE_FORMAT_IEEE_FLOAT = 0x0003, /* IEEE Float */
WAVE_FORMAT_ALAW = 0x0006, /* Microsoft ALAW */
WAVE_FORMAT_MULAW = 0x0007, /* Microsoft MULAW */
WAVE_FORMAT_DVI_ADPCM = 0x0011, /* Intel's DVI ADPCM */
WAVE_FORMAT_DIALOGIC_OKI_ADPCM = 0x0017, /* Dialogic OKI ADPCM */
WAVE_FORMAT_YAMAHA_ADPCM = 0x0020, /* Yamaha ADPCM */
WAVE_FORMAT_XBOX_ADPCM = 0x0069, /* XBOX ADPCM */
IBM_FORMAT_MULAW = 0x0101, /* same as WAVE_FORMAT_MULAW */
IBM_FORMAT_ALAW = 0x0102, /* same as WAVE_FORMAT_ALAW */
WAVE_FORMAT_ATRAC3 = 0x0270, /* Atrac3 stream */
WAVE_FORMAT_SWF_ADPCM = 0x5346, /* Adobe SWF ADPCM */
WAVE_FORMAT_EXTENSIBLE = 0xFFFE,
};
struct wave_fmt {
unsigned int formattag;
unsigned int channels;
unsigned int blockalign;
unsigned int bitspersample;
unsigned int samplesperblock;
uint32_t totalsamples;
uint64_t numbytes;
};
static unsigned char *convert_utf8(const unsigned char *src, unsigned char *dst,
int size, bool is_64)
{
if (is_64)
{
/* Note: wave64: metadata codepage is UTF-16 only */
return utf16LEdecode(src, dst, size);
}
return iso_decode(src, dst, -1, size);
}
static void set_totalsamples(struct wave_fmt *fmt, struct mp3entry* id3)
{
switch (fmt->formattag)
{
case WAVE_FORMAT_PCM:
case WAVE_FORMAT_IEEE_FLOAT:
case WAVE_FORMAT_ALAW:
case WAVE_FORMAT_MULAW:
case IBM_FORMAT_ALAW:
case IBM_FORMAT_MULAW:
fmt->blockalign = fmt->bitspersample * fmt->channels >> 3;
fmt->samplesperblock = 1;
break;
case WAVE_FORMAT_YAMAHA_ADPCM:
if (id3->channels != 0)
{
fmt->samplesperblock =
(fmt->blockalign == ((id3->frequency / 60) + 4) * fmt->channels)?
id3->frequency / 30 : (fmt->blockalign << 1) / fmt->channels;
}
break;
case WAVE_FORMAT_DIALOGIC_OKI_ADPCM:
fmt->blockalign = 1;
fmt->samplesperblock = 2;
break;
case WAVE_FORMAT_SWF_ADPCM:
if (fmt->bitspersample != 0 && id3->channels != 0)
{
fmt->samplesperblock
= (((fmt->blockalign << 3) - 2) / fmt->channels - 22)
/ fmt->bitspersample + 1;
}
break;
default:
break;
}
if (fmt->blockalign != 0)
fmt->totalsamples = (fmt->numbytes / fmt->blockalign) * fmt->samplesperblock;
}
static void parse_riff_format(unsigned char* buf, int fmtsize, struct wave_fmt *fmt,
struct mp3entry* id3)
{
/* wFormatTag */
fmt->formattag = buf[0] | (buf[1] << 8);
/* wChannels */
fmt->channels = buf[2] | (buf[3] << 8);
/* dwSamplesPerSec */
id3->frequency = get_long_le(&buf[4]);
/* dwAvgBytesPerSec */
id3->bitrate = (get_long_le(&buf[8]) * 8) / 1000;
/* wBlockAlign */
fmt->blockalign = buf[12] | (buf[13] << 8);
/* wBitsPerSample */
fmt->bitspersample = buf[14] | (buf[15] << 8);
if (fmt->formattag != WAVE_FORMAT_EXTENSIBLE)
{
if (fmtsize > 19)
{
/* wSamplesPerBlock */
fmt->samplesperblock = buf[18] | (buf[19] << 8);
}
}
else if (fmtsize > 25)
{
/* wValidBitsPerSample */
fmt->bitspersample = buf[18] | (buf[19] << 8);
/* SubFormat */
fmt->formattag = buf[24] | (buf[25] << 8);
}
/* Check for ATRAC3 stream */
if (fmt->formattag == WAVE_FORMAT_ATRAC3)
{
int jsflag = 0;
if(id3->bitrate == 66 || id3->bitrate == 94)
jsflag = 1;
id3->extradata_size = 14;
id3->channels = 2;
id3->codectype = AFMT_OMA_ATRAC3;
id3->bytesperframe = fmt->blockalign;
/* Store the extradata for the codec */
AV_WL16(&id3->id3v2buf[0], 1); // always 1
AV_WL32(&id3->id3v2buf[2], id3->frequency);// samples rate
AV_WL16(&id3->id3v2buf[6], jsflag); // coding mode
AV_WL16(&id3->id3v2buf[8], jsflag); // coding mode
AV_WL16(&id3->id3v2buf[10], 1); // always 1
AV_WL16(&id3->id3v2buf[12], 0); // always 0
}
}
static void parse_list_chunk(int fd, struct mp3entry* id3, int chunksize, bool is_64)
{
unsigned char tmpbuf[ID3V2_BUF_SIZE];
unsigned char *bp = tmpbuf;
unsigned char *endp;
unsigned char *data_pos;
unsigned char *tag_pos = id3->id3v2buf;
int datasize;
int infosize;
int remain;
int i;
if (is_64)
lseek(fd, 4, SEEK_CUR);
else if (read(fd, bp, 4) < 4 || memcmp(bp, "INFO", 4))
return;
/* decrease skip bytes */
chunksize -= 4;
infosize = read(fd, bp, (ID3V2_BUF_SIZE > chunksize)? chunksize : ID3V2_BUF_SIZE);
if (infosize <= 8)
return;
endp = bp + infosize;
while (bp < endp)
{
datasize = get_long_le(bp + 4);
data_pos = bp + 8;
remain = ID3V2_BUF_SIZE - (tag_pos - (unsigned char*)id3->id3v2buf);
if (remain < 1)
break;
for (i = 0; i < INFO_CHUNK_COUNT; i++)
{
if (memcmp(bp, info_chunks[i].tag, 4) == 0)
{
*((char **)(((char*)id3) + info_chunks[i].offset)) = tag_pos;
tag_pos = convert_utf8(data_pos, tag_pos,
(datasize + 1 >= remain )? remain - 1 : datasize,
is_64);
*tag_pos++ = 0;
break;
}
}
bp = data_pos + datasize + (datasize & 1);
};
}
static bool read_header(int fd, struct mp3entry* id3, const unsigned char *chunknames,
bool is_64)
{
/* Use the temporary buffer */
unsigned char* buf = (unsigned char *)id3->path;
struct wave_fmt fmt;
const unsigned int namelen = (is_64)? WAVE64_CHUNKNAME_LENGTH : WAVE_CHUNKNAME_LENGTH;
const unsigned int sizelen = (is_64)? WAVE64_CHUNKSIZE_LENGTH : WAVE_CHUNKSIZE_LENGTH;
const unsigned int len = namelen + sizelen;
uint64_t chunksize;
uint64_t offset = len + namelen;
int read_data;
memset(&fmt, 0, sizeof(struct wave_fmt));
id3->vbr = false; /* All Wave/Wave64 files are CBR */
id3->filesize = filesize(fd);
/* get RIFF chunk header */
lseek(fd, 0, SEEK_SET);
read(fd, buf, offset);
if ((memcmp(buf, chunknames + RIFF_CHUNK * namelen, namelen) != 0) ||
(memcmp(buf + len, chunknames + WAVE_CHUNK * namelen, namelen) != 0))
{
DEBUGF("metadata error: missing riff header.\n");
return false;
}
/* iterate over WAVE chunks until 'data' chunk */
while (read(fd, buf, len) > 0)
{
offset += len;
/* get chunk size (when the header is wave64, chunksize includes GUID and data length) */
chunksize = (is_64) ? get_uint64_le(buf + namelen) - len :
get_long_le(buf + namelen);
read_data = 0;
if (memcmp(buf, chunknames + FMT_CHUNK * namelen, namelen) == 0)
{
DEBUGF("find 'fmt ' chunk\n");
if (chunksize < 16)
{
DEBUGF("metadata error: 'fmt ' chunk is too small: %d\n", (int)chunksize);
return false;
}
/* get and parse format */
read_data = (chunksize > 25)? 26 : chunksize;
read(fd, buf, read_data);
parse_riff_format(buf, read_data, &fmt, id3);
}
else if (memcmp(buf, chunknames + FACT_CHUNK * namelen, namelen) == 0)
{
DEBUGF("find 'fact' chunk\n");
/* dwSampleLength */
if (chunksize >= sizelen)
{
/* get totalsamples */
read_data = sizelen;
read(fd, buf, read_data);
fmt.totalsamples = (is_64)? get_uint64_le(buf) : get_long_le(buf);
}
}
else if (memcmp(buf, chunknames + DATA_CHUNK * namelen, namelen) == 0)
{
DEBUGF("find 'data' chunk\n");
fmt.numbytes = chunksize;
if (fmt.formattag == WAVE_FORMAT_ATRAC3)
id3->first_frame_offset = offset;
}
else if (memcmp(buf, chunknames + LIST_CHUNK * namelen, namelen) == 0)
{
DEBUGF("find 'LIST' chunk\n");
parse_list_chunk(fd, id3, chunksize, is_64);
lseek(fd, offset, SEEK_SET);
}
/* padded to next chunk */
chunksize += ((is_64)? ((1 + ~chunksize) & 0x07) : (chunksize & 1));
offset += chunksize;
if (offset >= id3->filesize)
break;
lseek(fd, chunksize - read_data, SEEK_CUR);
}
if (fmt.numbytes == 0)
{
DEBUGF("metadata error: read error or missing 'data' chunk.\n");
return false;
}
if (fmt.totalsamples == 0)
set_totalsamples(&fmt, id3);
if (id3->frequency == 0 || id3->bitrate == 0)
{
DEBUGF("metadata error: frequency or bitrate is 0\n");
return false;
}
/* Calculate track length (in ms) and estimate the bitrate (in kbit/s) */
id3->length = (fmt.formattag != WAVE_FORMAT_ATRAC3)?
(uint64_t)fmt.totalsamples * 1000 / id3->frequency :
((id3->filesize - id3->first_frame_offset) * 8) / id3->bitrate;
/* output header/id3 info (for debug) */
DEBUGF("%s header info ----\n", (is_64)? "wave64" : "wave");
DEBUGF(" format: %04x\n", (int)fmt.formattag);
DEBUGF(" channels: %u\n", fmt.channels);
DEBUGF(" blockalign: %u\n", fmt.blockalign);
DEBUGF(" bitspersample: %u\n", fmt.bitspersample);
DEBUGF(" samplesperblock: %u\n", fmt.samplesperblock);
DEBUGF(" totalsamples: %u\n", (unsigned int)fmt.totalsamples);
DEBUGF(" numbytes: %u\n", (unsigned int)fmt.numbytes);
DEBUGF("id3 info ----\n");
DEBUGF(" frequency: %u\n", (unsigned int)id3->frequency);
DEBUGF(" bitrate: %d\n", id3->bitrate);
DEBUGF(" length: %u\n", (unsigned int)id3->length);
return true;
}
bool get_wave_metadata(int fd, struct mp3entry* id3)
{
return read_header(fd, id3, wave_chunklist, false);
}
bool get_wave64_metadata(int fd, struct mp3entry* id3)
{
return read_header(fd, id3, wave64_chunklist, true);
}
|