lxdream.org :: lxdream/src/gdrom/nrg.c r142:2f631c3a3946 (annotated)

tree revision 149:d88dd2e9a190

filename	src/gdrom/nrg.c
changeset	142:2f631c3a3946
prev	138:afabd7e6d26d
next	168:203a72138e16
author	nkeynes
date	Sat May 20 06:24:49 2006 +0000 (17 years ago)
permissions	-rw-r--r--
last change	Add disc info + spin up (probably seek) commands

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nkeynes@138	1	/**
nkeynes@142	2	* $Id: nrg.c,v 1.2 2006-05-02 14:09:11 nkeynes Exp $
nkeynes@138	3	*
nkeynes@138	4	* Nero (NRG) CD file format. File information stolen shamelessly from
nkeynes@138	5	* libcdio.
nkeynes@138	6	*
nkeynes@138	7	* Copyright (c) 2005 Nathan Keynes.
nkeynes@138	8	*
nkeynes@138	9	* This program is free software; you can redistribute it and/or modify
nkeynes@138	10	* it under the terms of the GNU General Public License as published by
nkeynes@138	11	* the Free Software Foundation; either version 2 of the License, or
nkeynes@138	12	* (at your option) any later version.
nkeynes@138	13	*
nkeynes@138	14	* This program is distributed in the hope that it will be useful,
nkeynes@138	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@138	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@138	17	* GNU General Public License for more details.
nkeynes@138	18	*/
nkeynes@138	19
nkeynes@138	20	#include <assert.h>
nkeynes@138	21	#include <stdio.h>
nkeynes@138	22	#include <errno.h>
nkeynes@138	23	#include "gdrom/gdrom.h"
nkeynes@138	24	#include "dream.h"
nkeynes@138	25
nkeynes@138	26	#define NERO_V55_ID 0x4e455235
nkeynes@138	27	#define NERO_V50_ID 0x4e45524f
nkeynes@138	28
nkeynes@138	29	/* Courtesy of libcdio */
nkeynes@138	30	/* 5.0 or earlier */
nkeynes@138	31	#define NERO_ID 0x4e45524f /* Nero pre 5.5.x */
nkeynes@138	32	#define CUES_ID 0x43554553 /* Nero pre version 5.5.x-6.x */
nkeynes@138	33	#define DAOI_ID 0x44414f49
nkeynes@138	34	#define ETNF_ID 0x45544e46
nkeynes@138	35	#define SINF_ID 0x53494e46 /* Session information */
nkeynes@138	36	#define END_ID 0x454e4421
nkeynes@138	37	/* 5.5+ only */
nkeynes@138	38	#define NER5_ID 0x4e455235 /* Nero version 5.5.x */
nkeynes@138	39	#define CDTX_ID 0x43445458 /* CD TEXT */
nkeynes@138	40	#define CUEX_ID 0x43554558 /* Nero version 5.5.x-6.x */
nkeynes@138	41	#define DAOX_ID 0x44414f58 /* Nero version 5.5.x-6.x */
nkeynes@138	42	#define ETN2_ID 0x45544e32
nkeynes@138	43	#define MTYP_ID 0x4d545950 /* Disc Media type? */
nkeynes@138	44
nkeynes@138	45
nkeynes@138	46	union nrg_footer {
nkeynes@138	47	struct nrg_footer_v50 {
nkeynes@138	48	uint32_t dummy;
nkeynes@138	49	uint32_t id;
nkeynes@138	50	uint32_t offset;
nkeynes@138	51	} v50;
nkeynes@138	52	struct nrg_footer_v55 {
nkeynes@138	53	uint32_t id;
nkeynes@138	54	uint64_t offset;
nkeynes@138	55	} v55;
nkeynes@138	56	};
nkeynes@138	57
nkeynes@138	58	struct nrg_chunk {
nkeynes@138	59	uint32_t id;
nkeynes@138	60	uint32_t length;
nkeynes@138	61	};
nkeynes@138	62
nkeynes@138	63	struct nrg_etnf {
nkeynes@138	64	uint32_t offset;
nkeynes@138	65	uint32_t length;
nkeynes@138	66	uint32_t mode;
nkeynes@138	67	uint32_t lba;
nkeynes@138	68	uint32_t padding;
nkeynes@138	69	};
nkeynes@138	70
nkeynes@138	71	struct nrg_cues {
nkeynes@138	72	uint8_t type;
nkeynes@138	73	uint8_t track;
nkeynes@138	74	uint8_t control;
nkeynes@138	75	uint8_t pad;
nkeynes@138	76	uint32_t addr;
nkeynes@138	77	};
nkeynes@138	78
nkeynes@138	79	struct nrg_daoi {
nkeynes@138	80	uint32_t length;
nkeynes@138	81	char mcn[14];
nkeynes@138	82	uint8_t disc_mode;
nkeynes@138	83	uint8_t unknown[2]; /* always 01 01? */
nkeynes@138	84	uint8_t track_count;
nkeynes@138	85	struct nrg_daoi_track {
nkeynes@138	86	char unknown[10];
nkeynes@138	87	uint32_t sector_size __attribute__((packed)); /* Always 0? */
nkeynes@138	88	uint8_t mode;
nkeynes@138	89	uint8_t unknown2[3]; /* Always 00 00 01? */
nkeynes@138	90	uint32_t pregap __attribute__((packed));
nkeynes@138	91	uint32_t offset __attribute__((packed));
nkeynes@138	92	uint32_t end __attribute__((packed));
nkeynes@138	93	} track[0];
nkeynes@138	94	} __attribute__((packed));
nkeynes@138	95
nkeynes@138	96	/**
nkeynes@138	97	* Convert an 8-bit BCD number to normal integer form.
nkeynes@138	98	* Eg, 0x79 => 79
nkeynes@138	99	*/
nkeynes@138	100	uint8_t static bcd_to_uint8( uint8_t bcd )
nkeynes@138	101	{
nkeynes@138	102	return (bcd & 0x0F) + (((bcd & 0xF0)>>4)*10);
nkeynes@138	103	}
nkeynes@138	104
nkeynes@138	105
nkeynes@138	106	/**
nkeynes@138	107	* Convert a 32 bit MSF address (BCD coded) to the
nkeynes@138	108	* equivalent LBA form.
nkeynes@138	109	* Eg, 0x
nkeynes@138	110	*/
nkeynes@138	111	uint32_t static msf_to_lba( uint32_t msf )
nkeynes@138	112	{
nkeynes@138	113	msf = ntohl(msf);
nkeynes@138	114	int f = bcd_to_uint8(msf);
nkeynes@138	115	int s = bcd_to_uint8(msf>>8);
nkeynes@138	116	int m = bcd_to_uint8(msf>>16);
nkeynes@138	117	return (m * 60 + s) * 75 + f;
nkeynes@138	118
nkeynes@138	119	}
nkeynes@138	120
nkeynes@138	121	uint32_t static nrg_track_mode( uint8_t mode )
nkeynes@138	122	{
nkeynes@138	123	switch( mode ) {
nkeynes@138	124	case 0: return GDROM_MODE1;
nkeynes@138	125	case 2: return GDROM_MODE2_XA1;
nkeynes@138	126	case 3: return GDROM_MODE2;
nkeynes@138	127	case 7: return GDROM_CDDA;
nkeynes@138	128	default:
nkeynes@138	129	ERROR( "Unrecognized track mode %d in Nero image", mode );
nkeynes@138	130	return -1;
nkeynes@138	131	}
nkeynes@138	132	}
nkeynes@138	133
nkeynes@138	134	gdrom_disc_t nrg_image_open( const gchar *filename )
nkeynes@138	135	{
nkeynes@138	136	FILE *f = fopen( filename, "ro" );
nkeynes@138	137	union nrg_footer footer;
nkeynes@138	138	struct nrg_chunk chunk;
nkeynes@138	139	struct nrg_daoi *dao;
nkeynes@138	140	gdrom_disc_t disc;
nkeynes@138	141	gboolean end = FALSE;
nkeynes@138	142	int session_id = 0;
nkeynes@138	143	int session_track_id = 0;
nkeynes@138	144	int track_id = 0;
nkeynes@138	145	int cue_track_id = 0, cue_track_count = 0;
nkeynes@138	146	int i;
nkeynes@138	147
nkeynes@138	148	if( f == NULL ) {
nkeynes@138	149	ERROR( "Unable to open file '%s': %s", filename, strerror(errno) );
nkeynes@138	150	return NULL;
nkeynes@138	151	}
nkeynes@138	152
nkeynes@138	153	fseek( f, -12, SEEK_END );
nkeynes@138	154	fread( &footer, sizeof(footer), 1, f );
nkeynes@138	155	if( ntohl(footer.v50.id) == NERO_V50_ID ) {
nkeynes@138	156	INFO( "Loading Nero 5.0 image" );
nkeynes@138	157	fseek( f, ntohl(footer.v50.offset), SEEK_SET );
nkeynes@138	158	} else if( ntohl(footer.v55.id) == NERO_V55_ID ) {
nkeynes@138	159	INFO( "Loading Nero 5.5+ image" );
nkeynes@138	160	fseek( f, ntohl(footer.v55.offset), SEEK_SET );
nkeynes@138	161	} else {
nkeynes@138	162	ERROR("Unable to understand file '%s' as a Nero image", filename );
nkeynes@138	163	return NULL;
nkeynes@138	164	}
nkeynes@138	165
nkeynes@138	166	disc = gdrom_image_new(f);
nkeynes@138	167	if( disc == NULL ) {
nkeynes@138	168	ERROR("Unable to allocate memory!");
nkeynes@138	169	fclose(f);
nkeynes@138	170	return NULL;
nkeynes@138	171	}
nkeynes@138	172
nkeynes@138	173	do {
nkeynes@138	174	fread( &chunk, sizeof(chunk), 1, f );
nkeynes@138	175	chunk.length = ntohl(chunk.length);
nkeynes@138	176	char data[chunk.length];
nkeynes@138	177	fread( data, chunk.length, 1, f );
nkeynes@138	178	switch( ntohl(chunk.id) ) {
nkeynes@138	179	case CUES_ID:
nkeynes@138	180	cue_track_id = track_id;
nkeynes@138	181	cue_track_count = ((chunk.length / sizeof(struct nrg_cues)) >> 1) - 1;
nkeynes@138	182	track_id += cue_track_count;
nkeynes@138	183	for( i=0; i<chunk.length; i+= sizeof(struct nrg_cues) ) {
nkeynes@138	184	struct nrg_cues cue = (struct nrg_cues )(data+i);
nkeynes@138	185	int track = 0;
nkeynes@138	186	if( cue->track == 0 )
nkeynes@138	187	continue; /* Track 0. Leadin? always 0? */
nkeynes@138	188	if( cue->track == 0xAA ) { /* end of disc */
nkeynes@138	189	disc->track[track_id-1].sector_count =
nkeynes@138	190	msf_to_lba( cue->addr ) - disc->track[track_id-1].lba;
nkeynes@138	191	} else {
nkeynes@138	192	track = cue_track_id + bcd_to_uint8(cue->track) - 1;
nkeynes@138	193	if( (cue->control & 0x01) == 0 ) {
nkeynes@138	194	/* Pre-gap address. */
nkeynes@138	195	if( track != 0 ) {
nkeynes@138	196	disc->track[track-1].sector_count =
nkeynes@138	197	msf_to_lba( cue->addr ) - disc->track[track-1].lba;
nkeynes@138	198	}
nkeynes@138	199	} else { /* Track-start address */
nkeynes@138	200	disc->track[track].lba = msf_to_lba( cue->addr );
nkeynes@142	201	disc->track[track].flags = cue->type;
nkeynes@138	202	}
nkeynes@138	203	}
nkeynes@138	204	}
nkeynes@138	205	break;
nkeynes@138	206	case DAOI_ID:
nkeynes@138	207	dao = (struct nrg_daoi *)data;
nkeynes@138	208	memcpy( disc->mcn, dao->mcn, 13 );
nkeynes@138	209	disc->mcn[13] = '\0';
nkeynes@138	210	assert( dao->track_count * 30 + 22 == chunk.length );
nkeynes@138	211	assert( dao->track_count == cue_track_count );
nkeynes@138	212	for( i=0; i<dao->track_count; i++ ) {
nkeynes@138	213	disc->track[cue_track_id].sector_size = ntohl(dao->track[i].sector_size);
nkeynes@138	214	disc->track[cue_track_id].offset = ntohl(dao->track[i].offset);
nkeynes@138	215	disc->track[cue_track_id].mode = nrg_track_mode( dao->track[i].mode );
nkeynes@138	216	assert( disc->track[cue_track_id].sector_count ==
nkeynes@138	217	(ntohl(dao->track[i].end) - ntohl(dao->track[i].offset))/
nkeynes@138	218	ntohl(dao->track[i].sector_size) );
nkeynes@138	219	cue_track_id++;
nkeynes@138	220	}
nkeynes@138	221	break;
nkeynes@138	222	case SINF_ID:
nkeynes@138	223	/* Data is a single 32-bit number representing number of tracks in session */
nkeynes@138	224	i = ntohl( (uint32_t )data );
nkeynes@138	225	while( i-- > 0 )
nkeynes@138	226	disc->track[session_track_id++].session = session_id;
nkeynes@138	227	session_id++;
nkeynes@138	228	break;
nkeynes@138	229	case ETNF_ID:
nkeynes@138	230	for( i=0; i < chunk.length; i+= 0x14 ) {
nkeynes@138	231	struct nrg_etnf etnf = (struct nrg_etnf )(data+i);
nkeynes@138	232	disc->track[track_id].offset = ntohl(etnf->offset);
nkeynes@138	233	disc->track[track_id].lba = ntohl(etnf->lba) + (i+1)*GDROM_PREGAP;
nkeynes@138	234	disc->track[track_id].mode = nrg_track_mode( ntohl(etnf->mode) );
nkeynes@138	235	if( disc->track[track_id].mode == -1 ) {
nkeynes@138	236	disc->close(disc);
nkeynes@138	237	return NULL;
nkeynes@138	238	}
nkeynes@142	239	if( disc->track[track_id].mode == GDROM_CDDA )
nkeynes@142	240	disc->track[track_id].flags = 0x01;
nkeynes@142	241	else
nkeynes@142	242	disc->track[track_id].flags = 0x01 \| TRACK_DATA;
nkeynes@138	243	disc->track[track_id].sector_size = GDROM_SECTOR_SIZE(disc->track[track_id].mode);
nkeynes@138	244	disc->track[track_id].sector_count = ntohl(etnf->length) /
nkeynes@138	245	disc->track[track_id].sector_size;
nkeynes@138	246	track_id++;
nkeynes@138	247	}
nkeynes@138	248	break;
nkeynes@138	249	case END_ID:
nkeynes@138	250	end = TRUE;
nkeynes@138	251	break;
nkeynes@138	252	}
nkeynes@138	253	} while( !end );
nkeynes@138	254	disc->track_count = track_id;
nkeynes@138	255	return disc;
nkeynes@138	256	}
nkeynes@138	257
nkeynes@138	258	gboolean nrg_read_sectors( struct gdrom_disc disc, uint32_t lba, uint32_t count, char buf )
nkeynes@138	259	{
nkeynes@138	260	return FALSE;
nkeynes@138	261	}
nkeynes@138	262