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lxdream.org :: lxdream/src/gdrom/nrg.c
lxdream 0.9.1
released Jun 29
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filename src/gdrom/nrg.c
changeset 561:533f6b478071
prev514:97f7e4bb2b54
next644:ccae4bfa5f82
author nkeynes
date Tue Jan 01 05:08:38 2008 +0000 (12 years ago)
branchlxdream-mmu
permissions -rw-r--r--
last change Enable Id keyword on all source files
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/**
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 * $Id$
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 *
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 * Nero (NRG) CD file format. File information stolen shamelessly from
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 * libcdio.
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 *
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 * Copyright (c) 2005 Nathan Keynes.
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 *
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 * This program is free software; you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
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 * the Free Software Foundation; either version 2 of the License, or
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 * (at your option) any later version.
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 *
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 * This program is distributed in the hope that it will be useful,
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 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 * GNU General Public License for more details.
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 */
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#include <assert.h>
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#include <stdio.h>
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#include <errno.h>
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#include <glib/gtypes.h>
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#include "gdrom/gdrom.h"
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#include "dream.h"
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static gboolean nrg_image_is_valid( FILE *f );
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static gdrom_disc_t nrg_image_open( const gchar *filename, FILE *f );
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struct gdrom_image_class nrg_image_class = { "Nero", "nrg", 
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					     nrg_image_is_valid, nrg_image_open };
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#define NERO_V55_ID  0x4e455235 
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#define NERO_V50_ID  0x4e45524f 
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/* Courtesy of libcdio */
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/* 5.0 or earlier */
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#define NERO_ID  0x4e45524f  /* Nero pre 5.5.x */
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#define CUES_ID  0x43554553  /* Nero pre version 5.5.x-6.x */
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#define DAOI_ID  0x44414f49
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#define ETNF_ID  0x45544e46
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#define SINF_ID  0x53494e46  /* Session information */
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#define END_ID  0x454e4421
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/* 5.5+ only */
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#define NER5_ID  0x4e455235  /* Nero version 5.5.x */
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#define CDTX_ID  0x43445458  /* CD TEXT */
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#define CUEX_ID  0x43554558  /* Nero version 5.5.x-6.x */
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#define DAOX_ID  0x44414f58  /* Nero version 5.5.x-6.x */
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#define ETN2_ID  0x45544e32
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#define MTYP_ID  0x4d545950  /* Disc Media type? */
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union nrg_footer {
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    struct nrg_footer_v50 {
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	uint32_t dummy;
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	uint32_t id;
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	uint32_t offset;
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    } v50;
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    struct nrg_footer_v55 {
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	uint32_t id;
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	uint64_t offset;
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    } v55;
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};
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struct nrg_chunk {
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    uint32_t id;
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    uint32_t length;
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};
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struct nrg_etnf {
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    uint32_t offset;
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    uint32_t length;
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    uint32_t mode;
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    uint32_t lba;
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    uint32_t padding;
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};
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struct nrg_etn2 {
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    uint64_t offset;
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    uint64_t length;
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    uint32_t mode;
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    uint32_t lba;
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    uint64_t padding;
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};
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struct nrg_cues {
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    uint8_t type;
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    uint8_t track;
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    uint8_t control;
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    uint8_t pad;
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    uint32_t addr;
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};
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struct nrg_daoi {
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    uint32_t length;
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    char mcn[14];
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    uint8_t disc_mode;
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    uint8_t unknown[2]; /* always 01 01? */
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    uint8_t track_count;
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    struct nrg_daoi_track {
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	char unknown[10];
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	uint32_t sector_size __attribute__((packed)); /* Always 0? */
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	uint8_t mode;
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	uint8_t unknown2[3]; /* Always 00 00 01? */
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	uint32_t pregap __attribute__((packed));
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	uint32_t offset __attribute__((packed));
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	uint32_t end __attribute__((packed));
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    } track[0];
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} __attribute__((packed));
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struct nrg_daox {
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    uint32_t length;
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    char mcn[14];
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    uint8_t disc_mode;
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    uint8_t unknown[2]; /* always 01 01? */
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    uint8_t track_count;
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    struct nrg_daox_track {
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	char unknown[10];
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	uint32_t sector_size __attribute__((packed)); /* Always 0? */
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	uint8_t mode;
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	uint8_t unknown2[3]; /* Always 00 00 01? */
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	uint64_t pregap __attribute__((packed));
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	uint64_t offset __attribute__((packed));
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	uint64_t end __attribute__((packed));
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    } track[0];
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} __attribute__((packed));
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/**
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 * Convert an 8-bit BCD number to normal integer form. 
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 * Eg, 0x79 => 79
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 */
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uint8_t static bcd_to_uint8( uint8_t bcd )
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{
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    return (bcd & 0x0F) + (((bcd & 0xF0)>>4)*10);
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}
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/**
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 * Convert a 32 bit MSF address (BCD coded) to the
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 * equivalent LBA form. 
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 * Eg, 0x
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 */
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uint32_t static msf_to_lba( uint32_t msf )
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{
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    msf = GUINT32_FROM_BE(msf);
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    int f = bcd_to_uint8(msf);
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    int s = bcd_to_uint8(msf>>8);
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    int m = bcd_to_uint8(msf>>16);
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    return (m * 60 + s) * 75 + f;
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}
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uint32_t static nrg_track_mode( uint8_t mode )
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{
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    switch( mode ) {
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    case 0: return GDROM_MODE1;
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    case 2: return GDROM_MODE2_XA1;
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    case 3: return GDROM_MODE2;
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    case 7: return GDROM_CDDA;
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    default: 
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	ERROR( "Unrecognized track mode %d in Nero image", mode );
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	return -1;
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    }
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}
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static gboolean nrg_image_is_valid( FILE *f )
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{
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    union nrg_footer footer;
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    fseek( f, -12, SEEK_END );
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    fread( &footer, sizeof(footer), 1, f );
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    if( GUINT32_FROM_BE(footer.v50.id) == NERO_V50_ID ||
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	GUINT32_FROM_BE(footer.v55.id) == NERO_V55_ID ) {
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	return TRUE;
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    } else {
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	return FALSE;
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    }
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}
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static gdrom_disc_t nrg_image_open( const gchar *filename, FILE *f )
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{
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    union nrg_footer footer;
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    struct nrg_chunk chunk;
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    struct nrg_daoi *dao;
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    struct nrg_daox *daox;
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    struct nrg_etnf *etnf;
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    struct nrg_etn2 *etn2;
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    gdrom_disc_t disc;
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    gdrom_image_t image;
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    gboolean end = FALSE;
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    uint32_t chunk_id;
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    int session_id = 0;
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    int session_track_id = 0;
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    int track_id = 0;
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    int cue_track_id = 0, cue_track_count = 0;
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    int i, count;
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    fseek( f, -12, SEEK_END );
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    fread( &footer, sizeof(footer), 1, f );
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    if( GUINT32_FROM_BE(footer.v50.id) == NERO_V50_ID ) {
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	INFO( "Loading Nero 5.0 image" );
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	fseek( f, GUINT32_FROM_BE(footer.v50.offset), SEEK_SET );
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    } else if( GUINT32_FROM_BE(footer.v55.id) == NERO_V55_ID ) {
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	INFO( "Loading Nero 5.5+ image" );
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	fseek( f, (uint32_t)GUINT64_FROM_BE(footer.v55.offset), SEEK_SET );
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    } else {
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	/* Not a (recognized) Nero image */
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	return NULL;
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    }
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    disc = gdrom_image_new(filename, f);
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    if( disc == NULL ) {
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	ERROR("Unable to allocate memory!");
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	return NULL;
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    }
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    image = (gdrom_image_t)disc;
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    do {
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	fread( &chunk, sizeof(chunk), 1, f );
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	chunk.length = GUINT32_FROM_BE(chunk.length);
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	char data[chunk.length];
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	fread( data, chunk.length, 1, f );
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	chunk_id = GUINT32_FROM_BE(chunk.id);
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	switch( chunk_id ) {
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	case CUES_ID:
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	case CUEX_ID:
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	    cue_track_id = track_id;
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	    cue_track_count = ((chunk.length / sizeof(struct nrg_cues)) >> 1) - 1;
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	    track_id += cue_track_count;
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	    for( i=0; i<chunk.length; i+= sizeof(struct nrg_cues) ) {
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		struct nrg_cues *cue = (struct nrg_cues *)(data+i);
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		int track = 0;
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		uint32_t lba;
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		if( chunk_id == CUEX_ID ) {
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		    lba = GUINT32_FROM_BE( cue->addr ) + GDROM_PREGAP;
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		} else {
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		    lba = msf_to_lba( cue->addr );
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		}
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		if( cue->track == 0 )
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		    continue; /* Track 0. Leadin? always 0? */
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		if( cue->track == 0xAA ) { /* end of disc */
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		    image->track[track_id-1].sector_count =
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			lba - image->track[track_id-1].lba;
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		} else {
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		    track = cue_track_id + bcd_to_uint8(cue->track) - 1;
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		    if( (cue->control & 0x01) == 0 ) { 
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			/* Pre-gap address. */
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			if( track != 0 ) {
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			    image->track[track-1].sector_count = 
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				lba - image->track[track-1].lba;
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			}
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		    } else { /* Track-start address */
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			image->track[track].lba = lba;
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			image->track[track].flags = cue->type;
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		    }
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		}
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	    }
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	    break;
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	case DAOI_ID:
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	    dao = (struct nrg_daoi *)data;
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	    memcpy( image->mcn, dao->mcn, 13 );
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	    image->mcn[13] = '\0';
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	    assert( dao->track_count * 30 + 22 == chunk.length );
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	    assert( dao->track_count == cue_track_count );
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	    for( i=0; i<dao->track_count; i++ ) {
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		image->track[cue_track_id].sector_size = GUINT32_FROM_BE(dao->track[i].sector_size);
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		image->track[cue_track_id].offset = GUINT32_FROM_BE(dao->track[i].offset);
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		image->track[cue_track_id].mode = nrg_track_mode( dao->track[i].mode );
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		image->track[cue_track_id].sector_count =
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		    (GUINT32_FROM_BE(dao->track[i].end) - GUINT32_FROM_BE(dao->track[i].offset))/
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   271
		    GUINT32_FROM_BE(dao->track[i].sector_size);
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   272
		cue_track_id++;
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   273
	    }
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   274
	    break;
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   275
	case DAOX_ID:
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   276
	    daox = (struct nrg_daox *)data;
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   277
	    memcpy( image->mcn, daox->mcn, 13 );
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   278
	    image->mcn[13] = '\0';
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   279
	    assert( daox->track_count * 42 + 22 == chunk.length );
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   280
	    assert( daox->track_count == cue_track_count );
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   281
	    for( i=0; i<daox->track_count; i++ ) {
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   282
		image->track[cue_track_id].sector_size = GUINT32_FROM_BE(daox->track[i].sector_size);
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   283
		image->track[cue_track_id].offset = GUINT64_FROM_BE(daox->track[i].offset);
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   284
		image->track[cue_track_id].mode = nrg_track_mode( daox->track[i].mode );
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   285
		image->track[cue_track_id].sector_count =
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   286
		    (GUINT64_FROM_BE(daox->track[i].end) - GUINT64_FROM_BE(daox->track[i].offset))/
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   287
		    GUINT32_FROM_BE(daox->track[i].sector_size);
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   288
		cue_track_id++;
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   289
	    }
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   290
	    break;
nkeynes@514
   291
	    
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   292
	case SINF_ID: 
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   293
	    /* Data is a single 32-bit number representing number of tracks in session */
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   294
	    i = GUINT32_FROM_BE( *(uint32_t *)data );
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   295
	    while( i-- > 0 )
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   296
		image->track[session_track_id++].session = session_id;
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   297
	    session_id++;
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   298
	    break;
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   299
	case ETNF_ID:
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   300
	    etnf = (struct nrg_etnf *)data;
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   301
	    count = chunk.length / sizeof(struct nrg_etnf);
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   302
	    for( i=0; i < count; i++, etnf++ ) {
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   303
		image->track[track_id].offset = GUINT32_FROM_BE(etnf->offset);
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   304
		image->track[track_id].lba = GUINT32_FROM_BE(etnf->lba) + (i+1)*GDROM_PREGAP;
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   305
		image->track[track_id].mode = nrg_track_mode( GUINT32_FROM_BE(etnf->mode) );
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   306
		if( image->track[track_id].mode == -1 ) {
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   307
		    gdrom_image_destroy_no_close(disc);
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   308
		    return NULL;
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   309
		}
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   310
		if( image->track[track_id].mode == GDROM_CDDA )
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   311
		    image->track[track_id].flags = 0x01;
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   312
		else
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   313
		    image->track[track_id].flags = 0x01 | TRACK_DATA;
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   314
		image->track[track_id].sector_size = GDROM_SECTOR_SIZE(image->track[track_id].mode);
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   315
		image->track[track_id].sector_count = GUINT32_FROM_BE(etnf->length) / 
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   316
		    image->track[track_id].sector_size;
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   317
		track_id++;
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   318
	    }
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   319
	    break;
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   320
	case ETN2_ID:
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   321
	    etn2 = (struct nrg_etn2 *)data;
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   322
	    count = chunk.length / sizeof(struct nrg_etn2);
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   323
	    for( i=0; i < count; i++, etn2++ ) {
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   324
		image->track[track_id].offset = (uint32_t)GUINT64_FROM_BE(etn2->offset);
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   325
		image->track[track_id].lba = GUINT32_FROM_BE(etn2->lba) + (i+1)*GDROM_PREGAP;
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   326
		image->track[track_id].mode = nrg_track_mode( GUINT32_FROM_BE(etn2->mode) );
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   327
		if( image->track[track_id].mode == -1 ) {
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   328
		    gdrom_image_destroy_no_close(disc);
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   329
		    return NULL;
nkeynes@514
   330
		}
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   331
		if( image->track[track_id].mode == GDROM_CDDA )
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   332
		    image->track[track_id].flags = 0x01;
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   333
		else
nkeynes@514
   334
		    image->track[track_id].flags = 0x01 | TRACK_DATA;
nkeynes@514
   335
		image->track[track_id].sector_size = GDROM_SECTOR_SIZE(image->track[track_id].mode);
nkeynes@514
   336
		image->track[track_id].sector_count = (uint32_t)(GUINT64_FROM_BE(etn2->length) / 
nkeynes@514
   337
								 image->track[track_id].sector_size);
nkeynes@514
   338
		track_id++;
nkeynes@514
   339
	    }
nkeynes@514
   340
	    break;
nkeynes@514
   341
nkeynes@138
   342
	case END_ID:
nkeynes@138
   343
	    end = TRUE;
nkeynes@138
   344
	    break;
nkeynes@138
   345
	}
nkeynes@138
   346
    } while( !end );
nkeynes@342
   347
    image->track_count = track_id;
nkeynes@138
   348
    return disc;
nkeynes@138
   349
}
nkeynes@138
   350
nkeynes@138
   351
nkeynes@342
   352
.