lxdream.org :: lxdream/src/gdrom/gdimage.c r342:850502f0e8de

tree revision 372:86aa060ddcec

filename	src/gdrom/gdimage.c
changeset	342:850502f0e8de
next	422:61a0598e07ff
author	nkeynes
date	Sat Sep 08 04:38:38 2007 +0000 (16 years ago)
permissions	-rw-r--r--
last change	Add time-limited run option (for time trials)

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     1 /**

     2  * $Id: gdimage.c,v 1.1 2007-01-31 10:58:42 nkeynes Exp $

     3  *

     4  * GD-Rom image-file common functions.

     5  *

     6  * Copyright (c) 2005 Nathan Keynes.

     7  *

     8  * This program is free software; you can redistribute it and/or modify

     9  * it under the terms of the GNU General Public License as published by

    10  * the Free Software Foundation; either version 2 of the License, or

    11  * (at your option) any later version.

    12  *

    13  * This program is distributed in the hope that it will be useful,

    14  * but WITHOUT ANY WARRANTY; without even the implied warranty of

    15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

    16  * GNU General Public License for more details.

    17  */

    19 #include "gdrom/gdrom.h"

    20 #include "gdrom/packet.h"

    22 static void gdrom_image_destroy( gdrom_disc_t disc );

    23 static gdrom_error_t gdrom_image_read_sector( gdrom_disc_t disc, uint32_t lba, int mode,

    24 					      char *buf, uint32_t *readlength );

    25 static gdrom_error_t gdrom_image_read_toc( gdrom_disc_t disc, char *buf );

    26 static gdrom_error_t gdrom_image_read_session( gdrom_disc_t disc, int session, char *buf );

    27 static gdrom_error_t gdrom_image_read_position( gdrom_disc_t disc, uint32_t lba, char *buf );

    28 static int gdrom_image_drive_status( gdrom_disc_t disc );

    31 /**

    32  * Initialize a gdrom_disc structure with the gdrom_image_* methods

    33  */

    34 void gdrom_image_init( gdrom_disc_t disc )

    35 {

    36     memset( disc, 0, sizeof(struct gdrom_disc) ); /* safety */

    37     disc->read_sector = gdrom_image_read_sector;

    38     disc->read_toc = gdrom_image_read_toc;

    39     disc->read_session = gdrom_image_read_session;

    40     disc->read_position = gdrom_image_read_position;

    41     disc->drive_status = gdrom_image_drive_status;

    42     disc->play_audio = NULL; /* not supported yet */

    43     disc->run_time_slice = NULL; /* not needed */

    44     disc->close = gdrom_image_destroy;

    45 }

    47 gdrom_disc_t gdrom_image_new( FILE *f )

    48 {

    49     gdrom_image_t image = (gdrom_image_t)calloc(sizeof(struct gdrom_image), 1);

    50     if( image == NULL ) {

    51 	return NULL;

    52     }

    53     image->disc_type = IDE_DISC_CDROM;

    54     image->file = f;

    56     gdrom_disc_t disc = (gdrom_disc_t)image;

    57     gdrom_image_init(disc);

    58     return disc;

    59 }

    61 static void gdrom_image_destroy( gdrom_disc_t disc )

    62 {

    63     gdrom_image_t img = (gdrom_image_t)disc;

    64     if( img->file != NULL ) {

    65 	fclose(img->file);

    66 	img->file = NULL;

    67     }

    68     free( disc );

    69 }

    71 static int gdrom_image_get_track_by_lba( gdrom_image_t image, uint32_t lba )

    72 {

    73     int i;

    74     for( i=0; i<image->track_count; i++ ) {

    75 	if( image->track[i].lba <= lba &&

    76 	    lba < (image->track[i].lba + image->track[i].sector_count) ) {

    77 	    return i+1;

    78 	}

    79     }

    80     return -1;

    81 }

    83 static gdrom_error_t gdrom_image_read_sector( gdrom_disc_t disc, uint32_t lba,

    84 					      int mode, char *buf, uint32_t *length )

    85 {

    86     gdrom_image_t image = (gdrom_image_t)disc;

    87     int i, file_offset, read_len, track_no;

    89     track_no = gdrom_image_get_track_by_lba( image, lba );

    90     if( track_no == -1 ) {

    91 	return PKT_ERR_BADREAD;

    92     }

    93     struct gdrom_track *track = &image->track[track_no-1];

    94     file_offset = track->offset + track->sector_size * (lba - track->lba);

    95     read_len = track->sector_size;

    97     switch( mode ) {

    98     case 0x24:

    99     case 0x28:

   100 	switch( track->mode ) {

   101 	case GDROM_MODE1:

   102 	case GDROM_MODE2_XA1:

   103 	    fseek( image->file, file_offset, SEEK_SET );

   104 	    fread( buf, track->sector_size, 1, image->file );

   105 	    break;

   106 	case GDROM_MODE2:

   107 	    read_len = 2048;

   108 	    file_offset += 8; /* skip the subheader */

   109 	    fseek( image->file, file_offset, SEEK_SET );

   110 	    fread( buf, 2048, 1, image->file );

   111 	    break;

   112 	default:

   113 	    return PKT_ERR_BADREADMODE;

   114 	}

   115 	break;

   116     default:

   117 	return PKT_ERR_BADREADMODE;

   118     }

   120     *length = read_len;

   121     return PKT_ERR_OK;

   123 }

   125 static gdrom_error_t gdrom_image_read_toc( gdrom_disc_t disc, char *buf )

   126 {

   127     gdrom_image_t image = (gdrom_image_t)disc;

   128     struct gdrom_toc *toc = (struct gdrom_toc *)buf;

   129     int i;

   131     for( i=0; i<image->track_count; i++ ) {

   132 	toc->track[i] = htonl( image->track[i].lba ) | image->track[i].flags;

   133     }

   134     toc->first = 0x0100 | image->track[0].flags;

   135     toc->last = (image->track_count<<8) | image->track[i-1].flags;

   136     toc->leadout = htonl(image->track[i-1].lba + image->track[i-1].sector_count) |

   137 	image->track[i-1].flags;

   138     for( ;i<99; i++ )

   139 	toc->track[i] = 0xFFFFFFFF;

   140     return PKT_ERR_OK;

   141 }

   143 static gdrom_error_t gdrom_image_read_session( gdrom_disc_t disc, int session, char *buf )

   144 {

   145     gdrom_image_t image = (gdrom_image_t)disc;

   146     struct gdrom_track *last_track = &image->track[image->track_count-1];

   147     unsigned int end_of_disc = last_track->lba + last_track->sector_count;

   148     int i;

   149     buf[0] = 0x01; /* Disc status? */

   150     buf[1] = 0;

   152     if( session == 0 ) {

   153 	buf[2] = last_track->session+1; /* last session */

   154 	buf[3] = (end_of_disc >> 16) & 0xFF;

   155 	buf[4] = (end_of_disc >> 8) & 0xFF;

   156 	buf[5] = end_of_disc & 0xFF;

   157 	return PKT_ERR_OK;

   158     } else {

   159 	session--;

   160 	for( i=0; i<image->track_count; i++ ) {

   161 	    if( image->track[i].session == session ) {

   162 		buf[2] = i+1; /* first track of session */

   163 		buf[3] = (image->track[i].lba >> 16) & 0xFF;

   164 		buf[4] = (image->track[i].lba >> 8) & 0xFF;

   165 		buf[5] = image->track[i].lba & 0xFF;

   166 		return PKT_ERR_OK;

   167 	    }

   168 	}

   169 	return PKT_ERR_BADFIELD; /* No such session */

   170     }

   171 }

   173 static gdrom_error_t gdrom_image_read_position( gdrom_disc_t disc, uint32_t lba, char *buf )

   174 {

   175     gdrom_image_t image = (gdrom_image_t)disc;

   176     int track_no = gdrom_image_get_track_by_lba( image, lba );

   177     if( track_no == -1 ) {

   178 	track_no = 1;

   179 	lba = 150;

   180     }

   181     struct gdrom_track *track = &image->track[track_no-1];

   182     uint32_t offset = lba - track->lba;

   183     buf[4] = track->flags;

   184     buf[5] = track_no;

   185     buf[6] = 0x01; /* ?? */

   186     buf[7] = (offset >> 16) & 0xFF;

   187     buf[8] = (offset >> 8) & 0xFF;

   188     buf[9] = offset & 0xFF;

   189     buf[10] = 0;

   190     buf[11] = (lba >> 16) & 0xFF;

   191     buf[12] = (lba >> 8) & 0xFF;

   192     buf[13] = lba & 0xFF;

   193 }

   195 static int gdrom_image_drive_status( gdrom_disc_t disc )

   196 {

   197     gdrom_image_t image = (gdrom_image_t)disc;

   198     return image->disc_type | IDE_DISC_READY;

   199 }

   201 void gdrom_image_dump_info( gdrom_disc_t d ) {

   202     gdrom_image_t disc = (gdrom_image_t)d;

   203     int i;

   204     int last_session = disc->track[disc->track_count-1].session;

   205     gboolean is_bootable = FALSE;

   207     INFO( "Disc ID: %s, %d tracks in %d sessions", disc->mcn, disc->track_count,

   208 	  disc->track[disc->track_count-1].session + 1 );

   209     if( last_session > 0 ) {

   210 	/* Boot track is the first data track of the last session, provided that it

   211 	 * cannot be a single-session disc.

   212 	 */

   213 	int boot_track = -1;

   214 	for( i=disc->track_count-1; i>=0 && disc->track[i].session == last_session; i-- ) {

   215 	    if( disc->track[i].flags & TRACK_DATA ) {

   216 		boot_track = i;

   217 	    }

   218 	}

   219 	if( boot_track != -1 ) {

   220 	    char boot_sector[MAX_SECTOR_SIZE];

   221 	    uint32_t length = sizeof(boot_sector);

   222 	    if( d->read_sector( d, disc->track[boot_track].lba, 0x28,

   223 				   boot_sector, &length ) == PKT_ERR_OK ) {

   224 		bootstrap_dump(boot_sector, FALSE);

   225 		is_bootable = TRUE;

   226 	    }

   227 	}

   228     }

   229     if( !is_bootable ) {

   230 	WARN( "Disc does not appear to be bootable" );

   231     }

   232 }