/*
Copyright (C) 2003-2005, 2006, 2008, 2011, 2013
Rocky Bernstein <rocky@gnu.org>
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 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
This tries to determine what kind of CD-image or filesystems on a
track we've got.
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
# define __CDIO_CONFIG_H__ 1
#endif
#ifdef HAVE_STDIO_H
#include <stdio.h>
#endif
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#include <cdio/cdio.h>
#include <cdio/iso9660.h>
#include <cdio/logging.h>
#include <cdio/util.h>
#include <cdio/cd_types.h>
/*
Subject: -65- How can I read an IRIX (EFS) CD-ROM on a machine which
doesn't use EFS?
Date: 18 Jun 1995 00:00:01 EST
You want 'efslook', at
ftp://viz.tamu.edu/pub/sgi/software/efslook.tar.gz.
and
! Robert E. Seastrom <rs@access4.digex.net>'s software (with source
! code) for using an SGI CD-ROM on a Macintosh is at
! ftp://bifrost.seastrom.com/pub/mac/CDROM-Jumpstart.sit151.hqx.
*/
/** The below variables are trickery to force enum symbol values to be
recorded in debug symbol tables. They are used to allow one to refer
to the enumeration value names in the typedefs above in a debugger
and debugger expressions.
*/
cdio_fs_cap_t debug_cdio_fs_cap;
cdio_fs_t debug_cdio_fs;
static char buffer[6][CDIO_CD_FRAMESIZE_RAW]; /* for CD-Data */
/* Some interesting sector numbers stored in the above buffer. */
#define ISO_SUPERBLOCK_SECTOR 16 /* buffer[0] */
#define UFS_SUPERBLOCK_SECTOR 4 /* buffer[2] */
#define BOOT_SECTOR 17 /* buffer[3] */
#define VCD_INFO_SECTOR 150 /* buffer[4] */
#define XISO_SECTOR 32 /* buffer[4] */
#define UDFX_SECTOR 32 /* buffer[4] */
#define UDF_ANCHOR_SECTOR 256 /* buffer[5] */
typedef struct signature
{
unsigned int buf_num;
unsigned int offset;
char sig_str[60];
char description[60];
} signature_t;
static const signature_t sigs[] =
{
/*buffer[x] off look for description */
{0, 0, "MICROSOFT*XBOX*MEDIA", "XBOX CD"},
{0, 1, "BEA01", "UDF"},
{0, 1, ISO_STANDARD_ID, "ISO 9660"},
{0, 1, "CD-I", "CD-I"},
{0, 8, "CDTV", "CDTV"},
{0, 8, "CD-RTOS", "CD-RTOS"},
{0, 9, "CDROM", "HIGH SIERRA"},
{0, 16, "CD-BRIDGE", "BRIDGE"},
{0, ISO_XA_MARKER_OFFSET, ISO_XA_MARKER_STRING, "XA"},
{1, 64, "PPPPHHHHOOOOTTTTOOOO____CCCCDDDD", "PHOTO CD"},
{1, 0x438, "\x53\xef", "EXT2 FS"},
{2, 1372, "\x54\x19\x01\x0", "UFS"},
{3, 7, "EL TORITO", "BOOTABLE"},
{4, 0, "VIDEO_CD", "VIDEO CD"},
{4, 0, "SUPERVCD", "SVCD or Chaoji VCD"}
};
/* The below index into the above sigs array. Make sure things match. */
#define INDEX_XISO 0 /* Microsoft X-BOX filesystem */
#define INDEX_UDF 1
#define INDEX_ISOFS 2
#define INDEX_CD_I 3
#define INDEX_CDTV 4
#define INDEX_CD_RTOS 5
#define INDEX_HS 6
#define INDEX_BRIDGE 7
#define INDEX_XA 8
#define INDEX_PHOTO_CD 9
#define INDEX_EXT2 10
#define INDEX_UFS 11
#define INDEX_BOOTABLE 12
#define INDEX_VIDEO_CD 13 /* Video CD */
#define INDEX_SVCD 14 /* CVD *or* SVCD */
/*
Read a particular block into the global array to be used for further
analysis later.
*/
static driver_return_code_t
_cdio_read_block(const CdIo_t *p_cdio, int superblock, uint32_t offset,
uint8_t bufnum, track_t i_track)
{
unsigned int track_sec_count = cdio_get_track_sec_count(p_cdio, i_track);
memset(buffer[bufnum], 0, CDIO_CD_FRAMESIZE);
if ( track_sec_count < superblock) {
cdio_debug("reading block %u skipped track %d has only %u sectors\n",
superblock, i_track, track_sec_count);
return DRIVER_OP_ERROR;
}
cdio_debug("about to read sector %lu\n",
(long unsigned int) offset+superblock);
return cdio_read_data_sectors (p_cdio, buffer[bufnum], offset+superblock,
ISO_BLOCKSIZE, 1);
}
/*
Return true if the previously read-in buffer contains a "signature" that
matches index "num".
*/
static bool
_cdio_is_it(int num)
{
const signature_t *sigp=&sigs[num];
int len=strlen(sigp->sig_str);
/* TODO: check that num < largest sig. */
return 0 == memcmp(&buffer[sigp->buf_num][sigp->offset], sigp->sig_str, len);
}
static int
_cdio_is_hfs(void)
{
return (0 == memcmp(&buffer[1][512],"PM",2)) ||
(0 == memcmp(&buffer[1][512],"TS",2)) ||
(0 == memcmp(&buffer[1][1024], "BD",2));
}
static int
_cdio_is_3do(void)
{
return (0 == memcmp(&buffer[1][0],"\x01\x5a\x5a\x5a\x5a\x5a\x01", 7)) &&
(0 == memcmp(&buffer[1][40], "CD-ROM", 6));
}
static int
_cdio_is_joliet(void)
{
return 2 == buffer[3][0] && buffer[3][88] == 0x25 && buffer[3][89] == 0x2f;
}
static int
_cdio_is_UDF(void)
{
return 2 == ((uint16_t)buffer[5][0] | ((uint16_t)buffer[5][1] << 8));
}
/* ISO 9660 volume space in M2F1_SECTOR_SIZE byte units */
static int
_cdio_get_iso9660_fs_sec_count(void)
{
return ((buffer[0][80] & 0xff) |
((buffer[0][81] & 0xff) << 8) |
((buffer[0][82] & 0xff) << 16) |
((buffer[0][83] & 0xff) << 24));
}
static uint8_t
_cdio_get_joliet_level( void )
{
switch (buffer[3][90]) {
case 0x40: return 1;
case 0x43: return 2;
case 0x45: return 3;
}
return 0;
}
/*
Try to determine what kind of CD-image and/or filesystem we
have at track i_track. Return information about the CD image
is returned in cdio_analysis and the return value.
*/
cdio_fs_anal_t
cdio_guess_cd_type(const CdIo_t *p_cdio, int start_session, track_t i_track,
/*out*/ cdio_iso_analysis_t *iso_analysis)
{
int ret = CDIO_FS_UNKNOWN;
bool sector0_read_ok;
if (TRACK_FORMAT_AUDIO == cdio_get_track_format(p_cdio, i_track))
return CDIO_FS_AUDIO;
if ( DRIVER_OP_SUCCESS !=
_cdio_read_block(p_cdio, ISO_PVD_SECTOR, start_session, 0, i_track) )
return CDIO_FS_UNKNOWN;
if ( _cdio_is_it(INDEX_XISO) )
return CDIO_FS_ANAL_XISO;
if ( DRIVER_OP_SUCCESS != _cdio_read_block(p_cdio, ISO_SUPERBLOCK_SECTOR,
start_session, 0, i_track) )
return ret;
if ( _cdio_is_it(INDEX_UDF) ) {
/* Detect UDF version
Test if we have a valid version of UDF the xbox can read natively */
if (_cdio_read_block(p_cdio, 35, start_session, 5, i_track) < 0)
return CDIO_FS_UNKNOWN;
iso_analysis->UDFVerMinor=(unsigned int)buffer[5][240];
iso_analysis->UDFVerMajor=(unsigned int)buffer[5][241];
/* Read disc label */
if (_cdio_read_block(p_cdio, 32, start_session, 5, i_track) < 0)
return CDIO_FS_UDF;
strncpy(iso_analysis->iso_label, buffer[5]+25, 33);
iso_analysis->iso_label[32] = '\0';
return CDIO_FS_UDF;
}
/* We have something that smells of a filesystem. */
if (_cdio_is_it(INDEX_CD_I) && _cdio_is_it(INDEX_CD_RTOS)
&& !_cdio_is_it(INDEX_BRIDGE) && !_cdio_is_it(INDEX_XA)) {
return (CDIO_FS_INTERACTIVE | CDIO_FS_ANAL_ISO9660_ANY);
} else {
/* read sector 0 ONLY, when NO greenbook CD-I !!!! */
sector0_read_ok =
_cdio_read_block(p_cdio, 0, start_session, 1, i_track) == 0;
if (_cdio_is_it(INDEX_HS))
ret |= CDIO_FS_HIGH_SIERRA;
else if (_cdio_is_it(INDEX_ISOFS)) {
if (_cdio_is_it(INDEX_CD_RTOS) && _cdio_is_it(INDEX_BRIDGE))
ret = (CDIO_FS_ISO_9660_INTERACTIVE | CDIO_FS_ANAL_ISO9660_ANY);
else if (_cdio_is_hfs())
ret = CDIO_FS_ISO_HFS;
else
ret = (CDIO_FS_ISO_9660 | CDIO_FS_ANAL_ISO9660_ANY);
iso_analysis->isofs_size = _cdio_get_iso9660_fs_sec_count();
strncpy(iso_analysis->iso_label, buffer[0]+40,33);
iso_analysis->iso_label[32] = '\0';
if ( _cdio_read_block(p_cdio, UDF_ANCHOR_SECTOR, start_session, 5,
i_track) < 0)
return ret;
/* Maybe there is an UDF anchor in IOS session
so its ISO/UDF session and we prefere UDF */
if ( _cdio_is_UDF() ) {
/* Detect UDF version.
Test if we have a valid version of UDF the xbox can read natively */
if ( _cdio_read_block(p_cdio, 35, start_session, 5, i_track) < 0)
return ret;
iso_analysis->UDFVerMinor=(unsigned int)buffer[5][240];
iso_analysis->UDFVerMajor=(unsigned int)buffer[5][241];
#if 0
/* We are using ISO/UDF cd's as iso,
no need to get UDF disc label */
if (_cdio_read_block(p_cdio, 32, start_session, 5, i_track) < 0)
return ret;
stnrcpy(iso_analysis->iso_label, buffer[5]+25, 33);
iso_analysis->iso_label[32] = '\0';
#endif
ret=CDIO_FS_ISO_UDF;
}
#if 0
if (_cdio_is_rockridge())
ret |= CDIO_FS_ANAL_ROCKRIDGE;
#endif
if (_cdio_read_block(p_cdio, BOOT_SECTOR, start_session, 3, i_track) < 0)
return ret;
if (_cdio_is_joliet()) {
iso_analysis->joliet_level = _cdio_get_joliet_level();
ret |= (CDIO_FS_ANAL_JOLIET | CDIO_FS_ANAL_ISO9660_ANY);
}
if (_cdio_is_it(INDEX_BOOTABLE))
ret |= CDIO_FS_ANAL_BOOTABLE;
if ( _cdio_is_it(INDEX_XA) && _cdio_is_it(INDEX_ISOFS)
&& !(sector0_read_ok && _cdio_is_it(INDEX_PHOTO_CD)) ) {
if ( _cdio_read_block(p_cdio, VCD_INFO_SECTOR, start_session, 4,
i_track) < 0 )
return ret;
if (_cdio_is_it(INDEX_BRIDGE) && _cdio_is_it(INDEX_CD_RTOS)) {
ret |= CDIO_FS_ANAL_ISO9660_ANY;
if (_cdio_is_it(INDEX_VIDEO_CD)) ret |= CDIO_FS_ANAL_VIDEOCD;
else if (_cdio_is_it(INDEX_SVCD)) ret |= CDIO_FS_ANAL_SVCD;
} else if (_cdio_is_it(INDEX_SVCD)) ret |= CDIO_FS_ANAL_CVD;
}
}
else if (_cdio_is_hfs()) ret |= CDIO_FS_HFS;
else if (sector0_read_ok && _cdio_is_it(INDEX_EXT2))
ret |= (CDIO_FS_EXT2 | CDIO_FS_ANAL_ISO9660_ANY);
else if (_cdio_is_3do()) ret |= CDIO_FS_3DO;
else {
if ( _cdio_read_block(p_cdio, UFS_SUPERBLOCK_SECTOR, start_session, 2,
i_track) < 0 )
return ret;
if (sector0_read_ok && _cdio_is_it(INDEX_UFS))
ret |= CDIO_FS_UFS;
else
ret |= CDIO_FS_UNKNOWN;
}
}
/* other checks */
if (_cdio_is_it(INDEX_XA))
ret |= (CDIO_FS_ANAL_XA | CDIO_FS_ANAL_ISO9660_ANY);
if (_cdio_is_it(INDEX_PHOTO_CD))
ret |= (CDIO_FS_ANAL_PHOTO_CD | CDIO_FS_ANAL_ISO9660_ANY);
if (_cdio_is_it(INDEX_CDTV))
ret |= CDIO_FS_ANAL_CDTV;
return ret;
}