/*
*
* $ Id : k3bdevice . cpp 732002 2007 - 11 - 02 14 : 13 : 14 Z trueg $
* Copyright ( C ) 2003 - 2007 Sebastian Trueg < trueg @ k3b . org >
*
* This file is part of the K3b project .
* Copyright ( C ) 1998 - 2007 Sebastian Trueg < trueg @ k3b . 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 2 of the License , or
* ( at your option ) any later version .
* See the file " COPYING " for the exact licensing terms .
*/
# include <config.h>
# include "k3bdevice.h"
# include "k3bdeviceglobals.h"
# include "k3btrack.h"
# include "k3btoc.h"
# include "k3bdiskinfo.h"
# include "k3bmmc.h"
# include "k3bscsicommand.h"
# include "k3bcrc.h"
# include <tqstringlist.h>
# include <tqfile.h>
# include <tqglobal.h>
# include <tqvaluevector.h>
# include <tqmutex.h>
# include <k3bdebug.h>
# include <sys/types.h>
# include <sys/ioctl.h>
# include <stdio.h>
# include <stdlib.h>
# include <fcntl.h>
# include <unistd.h>
# include <errno.h>
# include <sys/stat.h>
# include <math.h>
# include <stdarg.h>
# ifdef Q_OS_LINUX
# include <linux/version.h>
# if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,70)
typedef unsigned char u8 ;
# endif
# undef __STRICT_ANSI__
# include <linux/cdrom.h>
# define __STRICT_ANSI__
# endif // Q_OS_LINUX
# ifdef Q_OS_FREEBSD
# include <stdio.h>
# include <camlib.h>
# define CD_FRAMESIZE_RAW 2352
# endif
# ifdef Q_OS_NETBSD
# include <sys/cdio.h>
# endif
# ifdef HAVE_RESMGR
extern " C " {
# include <resmgr.h>
}
# endif
//
// Very evil hacking: force the speed values to be acurate
// as long as "they" do not introduce other "broken" DVD
// speeds like 2.4 this works fine
//
static int fixupDvdWritingSpeed ( int speed )
{
//
// Some writers report their speeds in 1000 bytes per second instead of 1024.
//
if ( speed % 1385 = = 0 )
return speed ;
else if ( speed % 1352 = = 0 )
return speed * 1385 / 1352 ;
// has to be 2.4x speed
else
return 3324 ;
}
const char * K3bDevice : : Device : : cdrdao_drivers [ ] =
{ " auto " , " plextor " , " plextor-scan " , " cdd2600 " , " generic-mmc " ,
" generic-mmc-raw " , " ricoh-mp6200 " , " sony-cdu920 " ,
" sony-cdu948 " , " taiyo-yuden " , " teac-cdr55 " , " toshiba " ,
" yamaha-cdr10x " , 0
} ;
# if defined(Q_OS_LINUX) || defined(Q_OS_NETBSD)
int K3bDevice : : openDevice ( const char * name , bool write )
{
int fd = - 1 ;
int flags = O_NONBLOCK ;
if ( write )
flags | = O_RDWR ;
else
flags | = O_RDONLY ;
# ifdef HAVE_RESMGR
// first try resmgr
fd = : : rsm_open_device ( name , flags ) ;
// k3bDebug() << "(K3bDevice::Device) resmgr open: " << fd << endl;
# endif
if ( fd < 0 )
fd = : : open ( name , flags ) ;
if ( fd < 0 ) {
k3bDebug ( ) < < " (K3bDevice::Device) could not open device "
< < name < < ( write ? " for writing " : " for reading " ) < < endl ;
k3bDebug ( ) < < " ( " < < strerror ( errno ) < < " ) " < < endl ;
fd = - 1 ;
// at least open it read-only (which is sufficient for kernels < 2.6.8 anyway)
if ( write )
return openDevice ( name , false ) ;
}
return fd ;
}
# endif
class K3bDevice : : Device : : Private
{
public :
Private ( )
: supportedProfiles ( 0 ) ,
# ifdef Q_OS_LINUX
deviceFd ( - 1 ) ,
# endif
# ifdef Q_OS_NETBSD
deviceFd ( - 1 ) ,
# endif
# ifdef Q_OS_FREEBSD
cam ( 0 ) ,
# endif
openedReadWrite ( false ) ,
burnfree ( false ) {
}
int readCapabilities ;
int writeCapabilities ;
int supportedProfiles ;
TQStringList allNodes ;
# ifdef Q_OS_LINUX
int deviceFd ;
# endif
# ifdef Q_OS_NETBSD
int deviceFd ;
# endif
# ifdef Q_OS_FREEBSD
struct cam_device * cam ;
# endif
bool openedReadWrite ;
bool burnfree ;
TQMutex mutex ;
TQMutex openCloseMutex ;
} ;
K3bDevice : : Device : : Device ( const TQString & devname )
: m_bus ( - 1 ) ,
m_target ( - 1 ) ,
m_lun ( - 1 ) ,
m_writeModes ( 0 )
{
d = new Private ;
m_blockDevice = devname ;
d - > allNodes . append ( devname ) ;
m_cdrdaoDriver = " auto " ;
m_cdTextCapable = 0 ;
m_maxWriteSpeed = 0 ;
m_maxReadSpeed = 0 ;
d - > burnfree = false ;
m_dvdMinusTestwrite = true ;
m_bufferSize = 0 ;
}
K3bDevice : : Device : : ~ Device ( )
{
close ( ) ;
delete d ;
}
bool K3bDevice : : Device : : init ( bool bCheckWritingModes )
{
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : init() " < < endl ;
//
// they all should read CD-ROM.
//
d - > readCapabilities = MEDIA_CD_ROM ;
d - > writeCapabilities = 0 ;
d - > supportedProfiles = 0 ;
if ( ! open ( ) )
return false ;
//
// inquiry
// use a 36 bytes buffer since not all devices return the full inquiry struct
//
ScsiCommand cmd ( this ) ;
unsigned char buf [ 36 ] ;
cmd . clear ( ) ;
: : memset ( buf , 0 , sizeof ( buf ) ) ;
struct inquiry * inq = ( struct inquiry * ) buf ;
cmd [ 0 ] = MMC_INTQUIRY ;
cmd [ 4 ] = sizeof ( buf ) ;
cmd [ 5 ] = 0 ;
if ( cmd . transport ( TR_DIR_READ , buf , sizeof ( buf ) ) ) {
kdError ( ) < < " (K3bDevice::Device) Unable to do inquiry. " < < endl ;
close ( ) ;
return false ;
}
else {
m_vendor = TQString : : tqfromLatin1 ( ( char * ) ( inq - > vendor ) , 8 ) . stripWhiteSpace ( ) ;
m_description = TQString : : tqfromLatin1 ( ( char * ) ( inq - > product ) , 16 ) . stripWhiteSpace ( ) ;
m_version = TQString : : tqfromLatin1 ( ( char * ) ( inq - > revision ) , 4 ) . stripWhiteSpace ( ) ;
}
if ( m_vendor . isEmpty ( ) )
m_vendor = " UNKNOWN " ;
if ( m_description . isEmpty ( ) )
m_description = " UNKNOWN " ;
//
// We probe all features of the device. Since not all devices support the GET CONFIGURATION command
// we also query the mode page 2A and use the cdrom.h stuff to get as much information as possible
//
checkFeatures ( ) ;
//
// Check the supported write modes (WRITINGMODE_TAO, WRITINGMODE_SAO, WRITINGMODE_RAW) by trying to set them
// We do this before checking mode page 2A in case some readers allow changin
// the write parameter page
//
if ( bCheckWritingModes )
checkWritingModes ( ) ;
//
// Most current drives support the 2A mode page
// Here we can get some more information (cdrecord -prcap does exactly this)
//
checkFor2AFeatures ( ) ;
m_maxWriteSpeed = determineMaximalWriteSpeed ( ) ;
//
// Check Just-Link via Ricoh mode page 0x30
//
if ( ! d - > burnfree )
checkForJustLink ( ) ;
//
// Support for some very old drives
//
checkForAncientWriters ( ) ;
//
// If it can be written it can also be read
//
d - > readCapabilities | = d - > writeCapabilities ;
close ( ) ;
return furtherInit ( ) ;
}
bool K3bDevice : : Device : : furtherInit ( )
{
# ifdef Q_OS_LINUX
//
// Since all CDR drives at least support WRITINGMODE_TAO, all CDRW drives should support
// mode page 2a and all DVD writer should support mode page 2a or the GET CONFIGURATION
// command this is redundant and may be removed for BSD ports or even completely
//
// We just keep it here because of the "should" in the sentence above. If someone can tell me
// that the linux driver does nothing more we can remove it completely.
//
open ( ) ;
int drivetype = : : ioctl ( handle ( ) , CDROM_GET_CAPABILITY , CDSL_CURRENT ) ;
if ( drivetype < 0 ) {
k3bDebug ( ) < < " Error while retrieving capabilities. " < < endl ;
close ( ) ;
return false ;
}
d - > readCapabilities | = DEVICE_CD_ROM ;
if ( drivetype & CDC_CD_R )
d - > writeCapabilities | = MEDIA_CD_R ;
if ( drivetype & CDC_CD_RW )
d - > writeCapabilities | = MEDIA_CD_RW ;
if ( drivetype & CDC_DVD_R )
d - > writeCapabilities | = MEDIA_DVD_R ;
if ( drivetype & CDC_DVD )
d - > readCapabilities | = MEDIA_DVD_ROM ;
close ( ) ;
# endif // Q_OS_LINUX
return true ;
}
void K3bDevice : : Device : : checkForAncientWriters ( )
{
// TODO: add a boolean which determines if this device is non-MMC so we may warn the user at K3b startup about it
//
// There are a lot writers out there which behave like the TEAC R5XS
//
if ( ( vendor ( ) . startsWith ( " TEAC " ) & & ( description ( ) . startsWith ( " CD-R50S " ) | |
description ( ) . startsWith ( " CD-R55S " ) ) )
| |
( vendor ( ) . startsWith ( " SAF " ) & & ( description ( ) . startsWith ( " CD-R2006PLUS " ) | |
description ( ) . startsWith ( " CD-RW226 " ) | |
description ( ) . startsWith ( " CD-R4012 " ) ) )
| |
( vendor ( ) . startsWith ( " JVC " ) & & ( description ( ) . startsWith ( " XR-W2001 " ) | |
description ( ) . startsWith ( " XR-W2010 " ) | |
description ( ) . startsWith ( " R2626 " ) ) )
| |
( vendor ( ) . startsWith ( " PINNACLE " ) & & ( description ( ) . startsWith ( " RCD-1000 " ) | |
description ( ) . startsWith ( " RCD5020 " ) | |
description ( ) . startsWith ( " RCD5040 " ) | |
description ( ) . startsWith ( " RCD 4X4 " ) ) )
| |
( vendor ( ) . startsWith ( " Traxdata " ) & & description ( ) . startsWith ( " CDR4120 " ) ) ) {
m_writeModes = WRITINGMODE_TAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 4 ;
m_maxReadSpeed = 12 ;
m_bufferSize = 1024 ;
d - > burnfree = false ;
}
else if ( vendor ( ) . startsWith ( " TEAC " ) ) {
if ( description ( ) . startsWith ( " CD-R56S " ) ) {
m_writeModes | = TAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 6 ;
m_maxReadSpeed = 24 ;
m_bufferSize = 1302 ;
d - > burnfree = false ;
}
if ( description ( ) . startsWith ( " CD-R58S " ) ) {
m_writeModes | = TAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 8 ;
m_maxReadSpeed = 24 ;
m_bufferSize = 4096 ;
d - > burnfree = false ;
}
}
else if ( vendor ( ) . startsWith ( " MATSHITA " ) ) {
if ( description ( ) . startsWith ( " CD-R CW-7501 " ) ) {
m_writeModes = WRITINGMODE_TAO | WRITINGMODE_SAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 2 ;
m_maxReadSpeed = 4 ;
m_bufferSize = 1024 ;
d - > burnfree = false ;
}
if ( description ( ) . startsWith ( " CD-R CW-7502 " ) ) {
m_writeModes = WRITINGMODE_TAO | WRITINGMODE_SAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 4 ;
m_maxReadSpeed = 8 ;
m_bufferSize = 1024 ;
d - > burnfree = false ;
}
else if ( description ( ) . startsWith ( " CD-R56S " ) ) {
m_writeModes | = WRITINGMODE_TAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 6 ;
m_maxReadSpeed = 24 ;
m_bufferSize = 1302 ;
d - > burnfree = false ;
}
}
else if ( vendor ( ) . startsWith ( " HP " ) ) {
if ( description ( ) . startsWith ( " CD-Writer 6020 " ) ) {
m_writeModes = WRITINGMODE_TAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 2 ;
m_maxReadSpeed = 6 ;
m_bufferSize = 1024 ;
d - > burnfree = false ;
}
}
else if ( vendor ( ) . startsWith ( " PHILIPS " ) ) {
if ( description ( ) . startsWith ( " CDD2600 " ) ) {
m_writeModes = WRITINGMODE_TAO | WRITINGMODE_SAO ;
d - > readCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
d - > writeCapabilities = MEDIA_CD_ROM | MEDIA_CD_R ;
m_maxWriteSpeed = 2 ;
m_maxReadSpeed = 6 ;
m_bufferSize = 1024 ;
d - > burnfree = false ;
}
}
}
K3bDevice : : Interface K3bDevice : : Device : : interfaceType ( ) const
{
if ( m_bus ! = - 1 & & m_target ! = - 1 & & m_lun ! = - 1 )
return SCSI ;
else
return IDE ;
}
bool K3bDevice : : Device : : dao ( ) const
{
return m_writeModes & WRITINGMODE_SAO ;
}
bool K3bDevice : : Device : : supportsRawWriting ( ) const
{
return ( writingModes ( ) & ( WRITINGMODE_RAW | WRITINGMODE_RAW_R16 | WRITINGMODE_RAW_R96P | WRITINGMODE_RAW_R96R ) ) ;
}
bool K3bDevice : : Device : : writesCd ( ) const
{
return ( d - > writeCapabilities & MEDIA_CD_R ) & & ( m_writeModes & WRITINGMODE_TAO ) ;
}
bool K3bDevice : : Device : : burner ( ) const
{
return ( writesCd ( ) | | writesDvd ( ) ) ;
}
bool K3bDevice : : Device : : writesCdrw ( ) const
{
return d - > writeCapabilities & MEDIA_CD_RW ;
}
bool K3bDevice : : Device : : writesDvd ( ) const
{
return ( writesDvdPlus ( ) | | writesDvdMinus ( ) ) ;
}
bool K3bDevice : : Device : : writesDvdPlus ( ) const
{
return d - > writeCapabilities & ( MEDIA_DVD_PLUS_R | MEDIA_DVD_PLUS_RW ) ;
}
bool K3bDevice : : Device : : writesDvdMinus ( ) const
{
return d - > writeCapabilities & ( MEDIA_DVD_R | MEDIA_DVD_RW ) ;
}
bool K3bDevice : : Device : : readsDvd ( ) const
{
return d - > readCapabilities & MEDIA_DVD_ROM ;
}
int K3bDevice : : Device : : type ( ) const
{
int r = 0 ;
if ( readCapabilities ( ) & MEDIA_CD_ROM )
r | = DEVICE_CD_ROM ;
if ( writeCapabilities ( ) & MEDIA_CD_R )
r | = DEVICE_CD_R ;
if ( writeCapabilities ( ) & MEDIA_CD_RW )
r | = DEVICE_CD_RW ;
if ( readCapabilities ( ) & MEDIA_DVD_ROM )
r | = DEVICE_DVD_ROM ;
if ( writeCapabilities ( ) & MEDIA_DVD_RAM )
r | = DEVICE_DVD_RAM ;
if ( writeCapabilities ( ) & MEDIA_DVD_R )
r | = DEVICE_DVD_R ;
if ( writeCapabilities ( ) & MEDIA_DVD_RW )
r | = DEVICE_DVD_RW ;
if ( writeCapabilities ( ) & MEDIA_DVD_R_DL )
r | = DEVICE_DVD_R_DL ;
if ( writeCapabilities ( ) & MEDIA_DVD_PLUS_R )
r | = DEVICE_DVD_PLUS_R ;
if ( writeCapabilities ( ) & MEDIA_DVD_PLUS_RW )
r | = DEVICE_DVD_PLUS_RW ;
if ( writeCapabilities ( ) & MEDIA_DVD_PLUS_R_DL )
r | = DEVICE_DVD_PLUS_R_DL ;
if ( readCapabilities ( ) & MEDIA_HD_DVD_ROM )
r | = DEVICE_HD_DVD_ROM ;
if ( writeCapabilities ( ) & MEDIA_HD_DVD_R )
r | = DEVICE_HD_DVD_R ;
if ( writeCapabilities ( ) & MEDIA_HD_DVD_RAM )
r | = DEVICE_HD_DVD_RAM ;
if ( readCapabilities ( ) & MEDIA_BD_ROM )
r | = DEVICE_BD_ROM ;
if ( writeCapabilities ( ) & MEDIA_BD_R )
r | = DEVICE_BD_R ;
if ( writeCapabilities ( ) & MEDIA_BD_RE )
r | = DEVICE_BD_RE ;
return r ;
}
int K3bDevice : : Device : : readCapabilities ( ) const
{
return d - > readCapabilities ;
}
int K3bDevice : : Device : : writeCapabilities ( ) const
{
return d - > writeCapabilities ;
}
const TQString & K3bDevice : : Device : : devicename ( ) const
{
return blockDeviceName ( ) ;
}
TQString K3bDevice : : Device : : busTargetLun ( ) const
{
return TQString ( " %1,%2,%3 " ) . tqarg ( m_bus ) . tqarg ( m_target ) . tqarg ( m_lun ) ;
}
int K3bDevice : : Device : : cdTextCapable ( ) const
{
if ( cdrdaoDriver ( ) = = " auto " )
return 0 ;
else
return m_cdTextCapable ;
}
void K3bDevice : : Device : : setCdTextCapability ( bool b )
{
m_cdTextCapable = ( b ? 1 : 2 ) ;
}
bool K3bDevice : : Device : : burnproof ( ) const
{
return burnfree ( ) ;
}
bool K3bDevice : : Device : : burnfree ( ) const
{
return d - > burnfree ;
}
bool K3bDevice : : Device : : isDVD ( ) const
{
if ( readsDvd ( ) )
return ( mediaType ( ) & MEDIA_DVD_ALL ) ;
else
return false ;
}
int K3bDevice : : Device : : isEmpty ( ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
int ret = STATE_UNKNOWN ;
if ( ! open ( ) )
return STATE_UNKNOWN ;
if ( ! testUnitReady ( ) )
return STATE_NO_MEDIA ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDiscInformation ( & data , dataLen ) ) {
disc_info_t * inf = ( disc_info_t * ) data ;
switch ( inf - > status ) {
case 0 :
ret = STATE_EMPTY ;
break ;
case 1 :
ret = STATE_INCOMPLETE ;
break ;
case 2 :
ret = STATE_COMPLETE ;
break ;
default :
ret = STATE_UNKNOWN ;
break ;
}
delete [ ] data ;
}
if ( needToClose )
close ( ) ;
return ret ;
}
int K3bDevice : : Device : : numSessions ( ) const
{
//
// Session Info
// ============
// Byte 0-1: Data Length
// Byte 2: First Complete Session Number (Hex) - always 1
// Byte 3: Last Complete Session Number (Hex)
//
int ret = - 1 ;
unsigned char * data = 0 ;
unsigned int len = 0 ;
if ( mediaType ( ) & MEDIA_CD_ALL ) {
//
// Althought disk_info should get the real value without ide-scsi
// I keep getting wrong values (the value is too high. I think the leadout
// gets counted as session sometimes :()
//
if ( readTocPmaAtip ( & data , len , 1 , 0 , 0 ) ) {
ret = data [ 3 ] ;
delete [ ] data ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : could not get session info ! " < < endl ;
}
}
else {
if ( readDiscInformation ( & data , len ) ) {
ret = ( int ) ( data [ 9 ] < < 8 | data [ 4 ] ) ;
// do only count complete sessions
if ( ( data [ 2 ] > > 2 ) ! = 3 )
ret - - ;
delete [ ] data ;
}
}
return ret ;
}
int K3bDevice : : Device : : getDataMode ( const K3b : : Msf & sector ) const
{
bool needToClose = ! isOpen ( ) ;
int ret = Track : : UNKNOWN ;
if ( ! open ( ) )
return ret ;
// we use readCdMsf here since it's defined mandatory in MMC1 and
// we only use this method for CDs anyway
unsigned char data [ 2352 ] ;
bool readSuccess = readCdMsf ( data , 2352 ,
0 , // all sector types
false , // no dap
sector ,
sector + 1 ,
true , // SYNC
true , // HEADER
true , // SUBHEADER
true , // USER DATA
true , // EDC/ECC
0 , // no c2 info
0 ) ;
if ( readSuccess ) {
if ( data [ 15 ] = = 0x1 )
ret = Track : : MODE1 ;
else if ( data [ 15 ] = = 0x2 )
ret = Track : : MODE2 ;
if ( ret = = Track : : MODE2 ) {
if ( data [ 16 ] = = data [ 20 ] & &
data [ 17 ] = = data [ 21 ] & &
data [ 18 ] = = data [ 22 ] & &
data [ 19 ] = = data [ 23 ] ) {
if ( data [ 18 ] & 0x20 )
ret = Track : : XA_FORM2 ;
else
ret = Track : : XA_FORM1 ;
}
}
}
if ( needToClose )
close ( ) ;
return ret ;
}
int K3bDevice : : Device : : getTrackDataMode ( const K3bDevice : : Track & track ) const
{
return getDataMode ( track . firstSector ( ) ) ;
}
K3bDevice : : Toc K3bDevice : : Device : : readToc ( ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
Toc toc ;
if ( ! open ( ) )
return toc ;
int mt = mediaType ( ) ;
//
// Use the profile if available because DVD-ROM units need to treat DVD+-R(W) media as DVD-ROM
// if supported at all
//
if ( currentProfile ( ) = = MEDIA_DVD_ROM )
mt = MEDIA_DVD_ROM ;
if ( mt & ( MEDIA_DVD_MINUS_ALL | MEDIA_DVD_PLUS_RW | MEDIA_DVD_ROM ) ) {
if ( ! readFormattedToc ( toc , mt ) ) {
K3b : : Msf size ;
if ( readCapacity ( size ) ) {
Track track ;
track . m_firstSector = 0 ;
track . m_lastSector = size . lba ( ) ;
track . m_session = 1 ;
track . m_type = Track : : DATA ;
track . m_mode = Track : : DVD ;
track . m_copyPermitted = ( mt ! = MEDIA_DVD_ROM ) ;
track . m_preEmphasis = ( mt ! = MEDIA_DVD_ROM ) ;
toc . append ( track ) ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " READ CAPACITY for toc failed. " < < endl ;
}
}
else if ( mt & ( MEDIA_DVD_PLUS_R | MEDIA_DVD_PLUS_R_DL ) ) {
//
// a DVD+R disk may have multiple sessions
// every session may contain up to 16 fragments
// if the disk is open there is one open session
// every closed session is viewed as a track whereas
// every fragment of the open session is viewed as a track
//
// We may use
// READ DISK INFORMATION
// READ TRACK INFORMATION: track number FFh, however, does not refer to the invisible track
// READ TOC/PMA/ATIP: form 0 refers to all closed sessions
// form 1 refers to the last closed session
//
readFormattedToc ( toc , mt ) ;
}
else if ( mt & MEDIA_BD_ALL ) {
readFormattedToc ( toc , mt ) ;
}
else if ( mt = = MEDIA_DVD_RAM ) {
k3bDebug ( ) < < " (K3bDevice::readDvdToc) no dvdram support " < < endl ;
}
else if ( mt & MEDIA_CD_ALL ) {
bool success = readRawToc ( toc ) ;
if ( ! success ) {
success = readFormattedToc ( toc , mt ) ;
# ifdef Q_OS_LINUX
if ( ! success ) {
k3bDebug ( ) < < " (K3bDevice::Device) MMC READ TOC failed. falling back to cdrom.h. " < < endl ;
readTocLinux ( toc ) ;
}
# endif
if ( success )
fixupToc ( toc ) ;
}
}
if ( needToClose )
close ( ) ;
return toc ;
}
void K3bDevice : : Device : : readIsrcMcn ( K3bDevice : : Toc & toc ) const
{
// read MCN and ISRC of all tracks
TQCString mcn ;
if ( readMcn ( mcn ) ) {
toc . setMcn ( mcn ) ;
k3bDebug ( ) < < " (K3bDevice::Device) found MCN: " < < mcn < < endl ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) no MCN found. " < < endl ;
for ( unsigned int i = 1 ; i < = toc . count ( ) ; + + i ) {
TQCString isrc ;
if ( toc [ i - 1 ] . type ( ) = = Track : : AUDIO ) {
if ( readIsrc ( i , isrc ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) found ISRC for track " < < i < < " : " < < isrc < < endl ;
toc [ i - 1 ] . setIsrc ( isrc ) ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) no ISRC found for track " < < i < < endl ;
}
}
}
bool K3bDevice : : Device : : readFormattedToc ( K3bDevice : : Toc & toc , int mt ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
bool success = false ;
toc . clear ( ) ;
unsigned int lastTrack = 0 ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( ! ( mt & MEDIA_CD_ALL ) ) {
//
// on DVD-R(W) multisession disks only two sessions are represented as tracks in the readTocPmaAtip
// response (fabricated TOC). Thus, we use readDiscInformation for DVD media to get the proper number of tracks
//
if ( readDiscInformation ( & data , dataLen ) ) {
lastTrack = ( int ) ( data [ 11 ] < < 8 | data [ 6 ] ) ;
delete [ ] data ;
if ( readTrackInformation ( & data , dataLen , 1 , lastTrack ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
if ( trackInfo - > blank ) {
lastTrack - - ;
}
delete [ ] data ;
success = true ;
}
else
return false ;
}
else
return false ;
}
else {
if ( readTocPmaAtip ( & data , dataLen , 0 , 0 , 1 ) ) {
if ( dataLen < 4 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : formatted toc data too small. " < < endl ;
}
else if ( dataLen ! = ( ( unsigned int ) sizeof ( toc_track_descriptor ) * ( ( unsigned int ) data [ 3 ] + 1 ) ) + 4 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : invalid formatted toc data length: "
< < ( dataLen - 2 ) < < endl ;
}
else {
lastTrack = data [ 3 ] ;
toc_track_descriptor * td = ( toc_track_descriptor * ) & data [ 4 ] ;
for ( unsigned int i = 0 ; i < lastTrack ; + + i ) {
Track track ;
unsigned int control = 0 ;
//
// In case READ TRACK INFORMATION fails:
// no session number info
// no track length and thus possibly incorrect last sector for
// multisession disks
//
track . m_firstSector = from4Byte ( td [ i ] . start_adr ) ;
track . m_lastSector = from4Byte ( td [ i + 1 ] . start_adr ) - 1 ;
control = td [ i ] . control ;
track . m_type = ( control & 0x4 ) ? Track : : DATA : Track : : AUDIO ;
track . m_mode = getTrackDataMode ( track ) ;
track . m_copyPermitted = ( control & 0x2 ) ;
track . m_preEmphasis = ( control & 0x1 ) ;
toc . append ( track ) ;
}
success = true ;
}
delete [ ] data ;
}
}
//
// Try to get information for all the tracks
//
for ( unsigned int i = 0 ; i < lastTrack ; + + i ) {
if ( toc . count ( ) < i + 1 )
toc . append ( Track ( ) ) ;
unsigned char * trackData = 0 ;
unsigned int trackDataLen = 0 ;
if ( readTrackInformation ( & trackData , trackDataLen , 1 , i + 1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) trackData ;
toc [ i ] . m_firstSector = from4Byte ( trackInfo - > track_start ) ;
if ( i > 0 & & toc [ i - 1 ] . m_lastSector = = 0 )
toc [ i - 1 ] . m_lastSector = toc [ i ] . m_firstSector - 1 ;
// There are drives that return 0 track length here!
// Some drives even return an invalid length here. :(
if ( from4Byte ( trackInfo - > track_size ) > 0 )
toc [ i ] . m_lastSector = toc [ i ] . m_firstSector + from4Byte ( trackInfo - > track_size ) - 1 ;
if ( trackInfo - > nwa_v ) {
toc [ i ] . m_nextWritableAddress = from4Byte ( trackInfo - > next_writable ) ;
toc [ i ] . m_freeBlocks = from4Byte ( trackInfo - > free_blocks ) ;
}
toc [ i ] . m_session = ( int ) ( trackInfo - > session_number_m < < 8 & 0xf0 |
trackInfo - > session_number_l & 0x0f ) ; //FIXME: is this BCD?
int control = trackInfo - > track_mode ;
if ( mt & MEDIA_CD_ALL ) {
toc [ i ] . m_type = ( control & 0x4 ) ? Track : : DATA : Track : : AUDIO ;
toc [ i ] . m_mode = getTrackDataMode ( toc [ i ] ) ;
}
else {
toc [ i ] . m_type = Track : : DATA ;
toc [ i ] . m_mode = Track : : DVD ;
}
toc [ i ] . m_copyPermitted = ( control & 0x2 ) ;
toc [ i ] . m_preEmphasis = ( control & 0x1 ) ;
delete [ ] trackData ;
}
else if ( ! ( mt & MEDIA_CD_ALL ) ) {
success = false ;
}
}
// this can only happen with DVD media
if ( ! toc . isEmpty ( ) & & toc . last ( ) . lastSector ( ) = = 0 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " no track length for the last non-empty track. " < < endl ;
unsigned char * trackData = 0 ;
unsigned int trackDataLen = 0 ;
if ( readTrackInformation ( & trackData , trackDataLen , 1 , lastTrack + 1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) trackData ;
toc . last ( ) . m_lastSector = from4Byte ( trackInfo - > track_start ) - 1 ;
delete [ ] trackData ;
}
}
if ( needToClose )
close ( ) ;
return success ;
}
bool K3bDevice : : Device : : readRawToc ( K3bDevice : : Toc & toc ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
bool success = false ;
toc . clear ( ) ;
if ( open ( ) ) {
//
// Read Raw TOC (format: 0010b)
//
// For POINT from 01h-63h we get all the tracks
// POINT a1h gices us the last track number in the session in PMIN
// POINT a2h gives the start of the session lead-out in PMIN,PSEC,PFRAME
//
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readTocPmaAtip ( & data , dataLen , 2 , false , 1 ) ) {
if ( dataLen > 4 ) {
success = true ;
toc_raw_track_descriptor * tr = ( toc_raw_track_descriptor * ) & data [ 4 ] ;
//
// debug the raw toc data
//
k3bDebug ( ) < < " Session | ADR | CONTROL| TNO | POINT | Min | Sec | Frame | Zero | PMIN | PSEC | PFRAME | " < < endl ;
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
TQString s ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . session_number , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . adr , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . control , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . tno , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . point , 6 , 16 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . min , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . sec , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . frame , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . zero , 6 , 16 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . p_min , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . p_sec , 6 ) ;
s + = TQString ( " %1 | " ) . tqarg ( ( int ) tr [ i ] . p_frame , 6 ) ;
k3bDebug ( ) < < s < < endl ;
}
//
// First we try to determine if the raw toc data uses BCD values
//
int isBcd = rawTocDataWithBcdValues ( data , dataLen ) ;
if ( isBcd = = - 1 ) {
delete [ ] data ;
return false ;
}
K3b : : Msf sessionLeadOut ;
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( unsigned int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
if ( tr [ i ] . adr = = 1 & & tr [ i ] . point < = 0x63 ) {
// track
K3bTrack track ;
track . m_session = tr [ i ] . session_number ;
// :( We use 00:00:00 == 0 lba)
if ( isBcd )
track . m_firstSector = K3b : : Msf ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_sec ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) - 150 ;
else
track . m_firstSector = K3b : : Msf ( tr [ i ] . p_min , tr [ i ] . p_sec , tr [ i ] . p_frame ) - 150 ;
track . m_type = ( tr [ i ] . control & 0x4 ? Track : : DATA : Track : : AUDIO ) ;
track . m_mode = ( track . type ( ) = = Track : : DATA ? getTrackDataMode ( track ) : Track : : UNKNOWN ) ;
track . m_copyPermitted = ( tr [ i ] . control & 0x2 ) ;
track . m_preEmphasis = ( tr [ i ] . control & 0x1 ) ;
//
// only do this within a session because otherwise we already set the last sector with the session leadout
//
if ( ! toc . isEmpty ( ) )
if ( toc [ toc . count ( ) - 1 ] . session ( ) = = track . session ( ) )
toc [ toc . count ( ) - 1 ] . m_lastSector = track . firstSector ( ) - 1 ;
toc . append ( track ) ;
}
else if ( tr [ i ] . point = = 0xa2 ) {
//
// since the session is always reported before the tracks this is where we do this:
// set the previous session's last tracks's last sector to the first sector of the
// session leadout (which was reported before the tracks)
//
// This only happens on multisession CDs
//
if ( ! toc . isEmpty ( ) )
toc [ toc . count ( ) - 1 ] . m_lastSector = sessionLeadOut - 1 ;
// this is save since the descriptors are reported in ascending order of the session number
// :( We use 00:00:00 == 0 lba)
if ( isBcd )
sessionLeadOut = K3b : : Msf ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_sec ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) - 150 ;
else
sessionLeadOut = K3b : : Msf ( tr [ i ] . p_min , tr [ i ] . p_sec , tr [ i ] . p_frame ) - 150 ;
}
}
k3bDebug ( ) < < blockDeviceName ( ) < < " : setting last sector of last track to " < < ( sessionLeadOut - 1 ) . lba ( ) < < endl ;
// set the last track's last sector
if ( ! toc . isEmpty ( ) )
toc [ toc . count ( ) - 1 ] . m_lastSector = sessionLeadOut - 1 ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " empty raw toc. " < < endl ;
delete [ ] data ;
}
}
if ( needToClose )
close ( ) ;
return success ;
}
int K3bDevice : : Device : : rawTocDataWithBcdValues ( unsigned char * data , unsigned int dataLen ) const
{
toc_raw_track_descriptor * tr = ( toc_raw_track_descriptor * ) & data [ 4 ] ;
bool notBcd = false ;
bool notHex = false ;
//
// in most cases this will already tell us if a drive does not provide bcd numbers
// (which should be all newer MMC drives)
//
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( unsigned int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
if ( tr [ i ] . adr = = 1 & & tr [ i ] . point < = 0xa2 ) {
if ( ! K3bDevice : : isValidBcd ( tr [ i ] . p_min ) | |
! K3bDevice : : isValidBcd ( tr [ i ] . p_sec ) | |
! K3bDevice : : isValidBcd ( tr [ i ] . p_frame ) ) {
notBcd = true ;
break ;
}
// we only need to check sec and frame since min needs to be <= 99
// and bcd values are never bigger than 99.
else if ( ( int ) K3bDevice : : fromBcd ( tr [ i ] . p_sec ) > = 60 | |
( int ) K3bDevice : : fromBcd ( tr [ i ] . p_frame ) > = 75 ) {
notBcd = true ;
break ;
}
}
}
//
// all values are valid bcd values but we still don't know for sure if they are really
// used as bcd. So we also check the HEX values.
//
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( unsigned int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
if ( tr [ i ] . adr = = 1 & & tr [ i ] . point < = 0xa2 ) {
if ( ( int ) tr [ i ] . p_min > 99 | |
( int ) tr [ i ] . p_sec > = 60 | |
( int ) tr [ i ] . p_frame > = 75 ) {
notHex = true ;
break ;
}
}
}
//
// If all values are valid bcd and valid hex we check the start sectors of the tracks.
//
if ( ! notHex | | ! notBcd ) {
K3b : : Msf sessionLeadOutHex , sessionLeadOutBcd ;
K3b : : Msf lastTrackHex , lastTrackBcd ;
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( unsigned int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
if ( tr [ i ] . adr = = 1 ) {
if ( tr [ i ] . point < 0x64 ) {
// check hex values
if ( K3b : : Msf ( tr [ i ] . p_min , tr [ i ] . p_sec , tr [ i ] . p_frame ) <
lastTrackHex )
notHex = true ;
// check bcd values
if ( K3b : : Msf ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) , K3bDevice : : fromBcd ( tr [ i ] . p_sec ) , K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) <
lastTrackBcd )
notBcd = true ;
lastTrackBcd = K3b : : Msf ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) , K3bDevice : : fromBcd ( tr [ i ] . p_sec ) , K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) ;
lastTrackHex = K3b : : Msf ( tr [ i ] . p_min , tr [ i ] . p_sec , tr [ i ] . p_frame ) ;
}
else if ( tr [ i ] . point = = 0xa2 ) {
if ( sessionLeadOutHex < lastTrackHex )
notHex = true ;
if ( sessionLeadOutBcd < lastTrackBcd )
notBcd = true ;
sessionLeadOutHex = K3b : : Msf ( tr [ i ] . p_min , tr [ i ] . p_sec , tr [ i ] . p_frame ) ;
sessionLeadOutBcd = K3b : : Msf ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) , K3bDevice : : fromBcd ( tr [ i ] . p_sec ) , K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) ;
}
}
}
// check the last track
if ( sessionLeadOutHex < lastTrackHex )
notHex = true ;
if ( sessionLeadOutBcd < lastTrackBcd )
notBcd = true ;
}
if ( ! notBcd & & ! notHex ) {
k3bDebug ( ) < < " (K3bDevice::Device) need to compare raw toc to formatted toc. :( " < < endl ;
//
// All values are valid bcd and valid HEX values so we compare with the formatted toc.
// This slows us down a lot but in most cases this should not be reached anyway.
//
// TODO: also check the bcd values
//
K3bDevice : : Toc formattedToc ;
if ( readFormattedToc ( formattedToc , MEDIA_CD_ROM ) ) {
for ( unsigned int i = 0 ; i < ( dataLen - 4 ) / ( unsigned int ) sizeof ( toc_raw_track_descriptor ) ; + + i ) {
if ( tr [ i ] . adr = = 1 & & tr [ i ] . point < 0x64 ) {
unsigned int track = ( int ) tr [ i ] . point ;
// FIXME: do bcd drive also encode the track number in bcd? If so test it, too.
if ( track > formattedToc . count ( ) ) {
notHex = true ;
break ;
}
K3b : : Msf posHex ( tr [ i ] . p_min ,
tr [ i ] . p_sec ,
tr [ i ] . p_frame ) ;
K3b : : Msf posBcd ( K3bDevice : : fromBcd ( tr [ i ] . p_min ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_sec ) ,
K3bDevice : : fromBcd ( tr [ i ] . p_frame ) ) ;
posHex - = 150 ;
posBcd - = 150 ;
if ( posHex ! = formattedToc [ track - 1 ] . firstSector ( ) )
notHex = true ;
if ( posBcd ! = formattedToc [ track - 1 ] . firstSector ( ) )
notBcd = true ;
}
}
}
}
if ( notBcd )
k3bDebug ( ) < < " (K3bDevice::Device) found invalid bcd values. No bcd toc. " < < endl ;
if ( notHex )
k3bDebug ( ) < < " (K3bDevice::Device) found invalid hex values. No hex toc. " < < endl ;
if ( notBcd = = notHex ) {
k3bDebug ( ) < < " (K3bDevice::Device) unable to determine if hex ( " < < notHex < < " ) or bcd ( " < < notBcd < < " ). " < < endl ;
if ( ! notHex ) {
k3bDebug ( ) < < " Assuming hex encoding in favor of newer drives and the more reliable raw toc. " < < endl ;
return 0 ;
}
return - 1 ;
}
else if ( notBcd )
return 0 ;
else
return 1 ;
}
K3bDevice : : CdText K3bDevice : : Device : : readCdText ( ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
K3bDevice : : CdText textData ;
if ( open ( ) ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readTocPmaAtip ( & data , dataLen , 5 , false , 0 ) ) {
textData . setRawPackData ( data , dataLen ) ;
delete [ ] data ;
}
if ( needToClose )
close ( ) ;
}
return textData ;
}
# ifdef Q_OS_LINUX
// fallback
bool K3bDevice : : Device : : readTocLinux ( K3bDevice : : Toc & toc ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
bool success = true ;
toc . clear ( ) ;
struct cdrom_tochdr tochdr ;
struct cdrom_tocentry tocentry ;
usageLock ( ) ;
if ( open ( ) ) {
//
// CDROMREADTOCHDR ioctl returns:
// cdth_trk0: First Track Number
// cdth_trk1: Last Track Number
//
if ( : : ioctl ( d - > deviceFd , CDROMREADTOCHDR , & tochdr ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) could not get toc header ! " < < endl ;
success = false ;
}
else {
Track lastTrack ;
for ( int i = tochdr . cdth_trk0 ; i < = tochdr . cdth_trk1 + 1 ; i + + ) {
: : memset ( & tocentry , 0 , sizeof ( struct cdrom_tocentry ) ) ;
// get Lead-Out Information too
tocentry . cdte_track = ( i < = tochdr . cdth_trk1 ) ? i : CDROM_LEADOUT ;
tocentry . cdte_format = CDROM_LBA ;
//
// CDROMREADTOCENTRY ioctl returns:
// cdte_addr.lba: Start Sector Number (LBA Format requested)
// cdte_ctrl: 4 ctrl bits
// 00x0b: 2 audio Channels(no pre-emphasis)
// 00x1b: 2 audio Channels(pre-emphasis)
// 10x0b: audio Channels(no pre-emphasis),reserved in cd-rw
// 10x1b: audio Channels(pre-emphasis),reserved in cd-rw
// 01x0b: data track, recorded uninterrupted
// 01x1b: data track, recorded incremental
// 11xxb: reserved
// xx0xb: digital copy prohibited
// xx1xb: digital copy permitted
// cdte_addr: 4 addr bits (type of Q-Subchannel data)
// 0000b: no Information
// 0001b: current position data
// 0010b: MCN
// 0011b: ISRC
// 0100b-1111b: reserved
// cdte_datamode: 0: Data Mode1
// 1: CD-I
// 2: CD-XA Mode2
//
if ( : : ioctl ( d - > deviceFd , CDROMREADTOCENTRY , & tocentry ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) error reading tocentry " < < i < < endl ;
success = false ;
break ;
}
int startSec = tocentry . cdte_addr . lba ;
int control = tocentry . cdte_ctrl & 0x0f ;
int mode = tocentry . cdte_datamode ;
if ( i > tochdr . cdth_trk0 ) {
Track track ( lastTrack . firstSector ( ) , startSec - 1 , lastTrack . type ( ) , lastTrack . mode ( ) ) ;
track . m_preEmphasis = control & 0x1 ;
track . m_copyPermitted = control & 0x2 ;
toc . append ( track ) ;
}
int trackType = 0 ;
int trackMode = Track : : UNKNOWN ;
if ( ( control & 0x04 ) & & ( tocentry . cdte_track ! = CDROM_LEADOUT ) ) {
trackType = Track : : DATA ;
if ( mode = = 1 )
trackMode = Track : : MODE1 ;
else if ( mode = = 2 )
trackMode = Track : : MODE2 ;
mode = getDataMode ( startSec ) ;
if ( mode ! = Track : : UNKNOWN )
trackMode = mode ;
}
else
trackType = Track : : AUDIO ;
lastTrack = Track ( startSec , startSec , trackType , trackMode ) ;
}
}
if ( needToClose )
close ( ) ;
}
else
success = false ;
usageUnlock ( ) ;
return success ;
}
# endif // Q_OS_LINUX
bool K3bDevice : : Device : : fixupToc ( K3bDevice : : Toc & toc ) const
{
bool success = false ;
//
// This is a very lame method of fixing the TOC of an Advanced Audio CD
// (a CD with two sessions: one with audio tracks and one with the data track)
// If a drive does not support reading raw toc or reading track info we only
// get every track's first sector. But between sessions there is a gap which is used
// for ms stuff. In this case it's 11400 sectors in size. When ripping ausio we would
// include these 11400 sectors which would result in a strange ending audio file.
//
if ( numSessions ( ) > 1 | | toc . contentType ( ) = = MIXED ) {
k3bDebug ( ) < < " (K3bDevice::Device) fixup multisession toc... " < < endl ;
//
// we need to update the last sector of every last track in every session
// for now we only update the track before the last session...
// This is the most often case: Advanced Audio CD
//
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readTocPmaAtip ( & data , dataLen , 1 , false , 0 ) ) {
//
// data[6] - first track number in last complete session
// data[8-11] - start address of first track in last session
//
toc [ ( unsigned int ) data [ 6 ] - 2 ] . m_lastSector = from4Byte ( & data [ 8 ] ) - 11400 - 1 ;
delete [ ] data ;
success = true ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) FIXUP TOC failed. " < < endl ;
}
return success ;
}
bool K3bDevice : : Device : : block ( bool b ) const
{
//
// For some reason the Scsi Command does not work here.
// So we use the ioctl on Linux systems
//
# if defined(Q_OS_LINUX)
bool success = false ;
bool needToClose = ! isOpen ( ) ;
usageLock ( ) ;
if ( open ( ) ) {
success = ( : : ioctl ( d - > deviceFd , CDROM_LOCKDOOR , b ? 1 : 0 ) = = 0 ) ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# elif defined(Q_OS_NETBSD)
bool success = false ;
bool needToClose = ! isOpen ( ) ;
int arg = b ? 1 : 0 ;
usageLock ( ) ;
if ( open ( ) ) {
success = ( : : ioctl ( d - > deviceFd , DIOCLOCK , & arg ) = = 0 ) ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# endif
ScsiCommand cmd ( this ) ;
cmd [ 0 ] = MMC_PREVENT_ALLOW_MEDIUM_REMOVAL ;
cmd [ 5 ] = 0 ; // Necessary to set the proper command length
if ( b )
cmd [ 4 ] = 0x01 ;
int r = cmd . transport ( TR_DIR_WRITE ) ;
if ( r )
k3bDebug ( ) < < " (K3bDevice::Device) MMC ALLOW MEDIA REMOVAL failed. " < < endl ;
return ( r = = 0 ) ;
}
bool K3bDevice : : Device : : rewritable ( ) const
{
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDiscInformation ( & data , dataLen ) ) {
disc_info_t * inf = ( disc_info_t * ) data ;
bool e = inf - > erasable ;
delete [ ] data ;
return e ;
}
else
return false ;
}
bool K3bDevice : : Device : : eject ( ) const
{
# ifdef Q_OS_NETBSD
bool success = false ;
bool needToClose = ! isOpen ( ) ;
int arg = 0 ;
usageLock ( ) ;
if ( open ( ) ) {
if ( : : ioctl ( d - > deviceFd , DIOCEJECT , & arg ) > = 0 )
success = true ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# elif defined(Q_OS_LINUX)
bool success = false ;
bool needToClose = ! isOpen ( ) ;
usageLock ( ) ;
if ( open ( ) ) {
if ( : : ioctl ( d - > deviceFd , CDROMEJECT ) > = 0 )
success = true ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# endif
ScsiCommand cmd ( this ) ;
cmd [ 0 ] = MMC_PREVENT_ALLOW_MEDIUM_REMOVAL ;
cmd [ 5 ] = 0 ; // Necessary to set the proper command length
cmd . transport ( ) ;
cmd [ 0 ] = MMC_START_STOP_UNIT ;
cmd [ 5 ] = 0 ; // Necessary to set the proper command length
cmd [ 4 ] = 0x1 ; // Start unit
cmd . transport ( ) ;
cmd [ 4 ] = 0x2 ; // LoEj = 1, Start = 0
return ! cmd . transport ( ) ;
}
bool K3bDevice : : Device : : load ( ) const
{
# ifdef Q_OS_NETBSD
bool success = false ;
bool needToClose = ! isOpen ( ) ;
int arg = 0 ;
usageLock ( ) ;
if ( open ( ) ) {
if ( : : ioctl ( d - > deviceFd , CDIOCCLOSE , & arg ) > = 0 )
success = true ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# elif defined(Q_OS_LINUX)
bool success = false ;
bool needToClose = ! isOpen ( ) ;
usageLock ( ) ;
if ( open ( ) ) {
if ( : : ioctl ( d - > deviceFd , CDROMCLOSETRAY ) > = 0 )
success = true ;
if ( needToClose )
close ( ) ;
}
usageUnlock ( ) ;
if ( success )
return success ;
# endif
ScsiCommand cmd ( this ) ;
cmd [ 0 ] = MMC_START_STOP_UNIT ;
cmd [ 4 ] = 0x3 ; // LoEj = 1, Start = 1
cmd [ 5 ] = 0 ; // Necessary to set the proper command length
return ! cmd . transport ( ) ;
}
bool K3bDevice : : Device : : setAutoEjectEnabled ( bool enabled ) const
{
bool success = false ;
# ifdef Q_OS_LINUX
bool needToClose = ! isOpen ( ) ;
usageLock ( ) ;
if ( open ( ) ) {
success = ( : : ioctl ( d - > deviceFd , CDROMEJECT_SW , enabled ? 1 : 0 ) = = 0 ) ;
if ( needToClose ) {
close ( ) ;
}
}
usageUnlock ( ) ;
# endif
return success ;
}
void K3bDevice : : Device : : addDeviceNode ( const TQString & n )
{
if ( ! d - > allNodes . tqcontains ( n ) )
d - > allNodes . append ( n ) ;
}
const TQStringList & K3bDevice : : Device : : deviceNodes ( ) const
{
return d - > allNodes ;
}
K3bDevice : : Device : : Handle K3bDevice : : Device : : handle ( ) const
{
# ifdef Q_OS_FREEBSD
return d - > cam ;
# else
return d - > deviceFd ;
# endif
}
bool K3bDevice : : Device : : open ( bool write ) const
{
if ( d - > openedReadWrite ! = write )
close ( ) ;
TQMutexLocker ml ( & d - > openCloseMutex ) ;
d - > openedReadWrite = write ;
# ifdef Q_OS_FREEBSD
if ( ! d - > cam ) {
d - > cam = cam_open_pass ( m_passDevice . latin1 ( ) , O_RDWR , 0 /* NULL */ ) ;
k3bDebug ( ) < < " (K3bDevice::openDevice) open device " < < m_passDevice
< < ( ( d - > cam ) ? " succeeded. " : " failed. " ) < < endl ;
}
return ( d - > cam ! = 0 ) ;
# endif
# if defined(Q_OS_LINUX) || defined(Q_OS_NETBSD)
if ( d - > deviceFd = = - 1 )
d - > deviceFd = openDevice ( TQFile : : encodeName ( devicename ( ) ) , write ) ;
return ( d - > deviceFd ! = - 1 ) ;
# endif
}
void K3bDevice : : Device : : close ( ) const
{
TQMutexLocker ml ( & d - > openCloseMutex ) ;
# ifdef Q_OS_FREEBSD
if ( d - > cam ) {
cam_close_device ( d - > cam ) ;
d - > cam = 0 ;
}
# endif
# if defined(Q_OS_LINUX) || defined(Q_OS_NETBSD)
if ( d - > deviceFd ! = - 1 ) {
: : close ( d - > deviceFd ) ;
d - > deviceFd = - 1 ;
}
# endif
}
bool K3bDevice : : Device : : isOpen ( ) const
{
# ifdef Q_OS_FREEBSD
return d - > cam ;
# endif
# if defined(Q_OS_LINUX) || defined(Q_OS_NETBSD)
return ( d - > deviceFd ! = - 1 ) ;
# endif
}
int K3bDevice : : Device : : supportedProfiles ( ) const
{
return d - > supportedProfiles ;
}
int K3bDevice : : Device : : currentProfile ( ) const
{
unsigned char profileBuf [ 8 ] ;
: : memset ( profileBuf , 0 , 8 ) ;
ScsiCommand cmd ( this ) ;
cmd [ 0 ] = MMC_GET_CONFIGURATION ;
cmd [ 1 ] = 1 ;
cmd [ 8 ] = 8 ;
cmd [ 9 ] = 0 ; // Necessary to set the proper command length
if ( cmd . transport ( TR_DIR_READ , profileBuf , 8 ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " GET_CONFIGURATION failed. " < < endl ;
return MEDIA_UNKNOWN ;
}
else {
short profile = from2Byte ( & profileBuf [ 6 ] ) ;
//
// Plextor drives might not set a current profile
// In that case we get the list of all current profiles
// and simply use the first one in that list.
//
if ( profile = = 0x00 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " current profile 0. Checking current profile list instead. " < < endl ;
unsigned char * data ;
unsigned int len = 0 ;
if ( getFeature ( & data , len , FEATURE_PROFILE_LIST ) ) {
int featureLen ( data [ 11 ] ) ;
for ( int j = 0 ; j < featureLen ; j + = 4 ) {
// use the first current profile we encounter
if ( data [ 12 + j + 2 ] & 0x1 ) {
profile = from2Byte ( & data [ 12 + j ] ) ;
break ;
}
}
delete [ ] data ;
}
}
switch ( profile ) {
case 0x00 : return MEDIA_NONE ;
case 0x08 : return MEDIA_CD_ROM ;
case 0x09 : return MEDIA_CD_R ;
case 0x0A : return MEDIA_CD_RW ;
case 0x10 : return MEDIA_DVD_ROM ;
case 0x11 : return MEDIA_DVD_R_SEQ ;
case 0x12 : return MEDIA_DVD_RAM ;
case 0x13 : return MEDIA_DVD_RW_OVWR ;
case 0x14 : return MEDIA_DVD_RW_SEQ ;
case 0x15 : return MEDIA_DVD_R_DL_SEQ ;
case 0x16 : return MEDIA_DVD_R_DL_JUMP ;
case 0x1A : return MEDIA_DVD_PLUS_RW ;
case 0x1B : return MEDIA_DVD_PLUS_R ;
case 0x2B : return MEDIA_DVD_PLUS_R_DL ;
case 0x40 : return MEDIA_BD_ROM ;
case 0x41 : {
if ( featureCurrent ( FEATURE_BD_PSEUDO_OVERWRITE ) = = 1 )
return MEDIA_BD_R_SRM_POW ;
else
return MEDIA_BD_R_SRM ;
}
case 0x42 : return MEDIA_BD_R_RRM ;
case 0x43 : return MEDIA_BD_RE ;
case 0x50 : return MEDIA_HD_DVD_ROM ;
case 0x51 : return MEDIA_HD_DVD_R ;
case 0x52 : return MEDIA_HD_DVD_RAM ;
default : return MEDIA_UNKNOWN ;
}
}
}
K3bDevice : : DiskInfo K3bDevice : : Device : : diskInfo ( ) const
{
DiskInfo inf ;
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
if ( open ( ) ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
//
// The first thing to do should be: checking if a media is loaded
// We cannot rely on the profile here since at least some Plextor
// drives return the NO MEDIUM profile for CD media
//
if ( ! testUnitReady ( ) ) {
// no disk or tray open
inf . m_diskState = STATE_NO_MEDIA ;
inf . m_mediaType = MEDIA_NONE ;
inf . m_currentProfile = MEDIA_NONE ;
}
else
inf . m_currentProfile = currentProfile ( ) ;
if ( inf . diskState ( ) ! = STATE_NO_MEDIA ) {
if ( readDiscInformation ( & data , dataLen ) ) {
disc_info_t * dInf = ( disc_info_t * ) data ;
//
// Copy the needed values from the disk_info struct
//
switch ( dInf - > status ) {
case 0 :
inf . m_diskState = STATE_EMPTY ;
break ;
case 1 :
inf . m_diskState = STATE_INCOMPLETE ;
break ;
case 2 :
inf . m_diskState = STATE_COMPLETE ;
break ;
default :
inf . m_diskState = STATE_UNKNOWN ;
break ;
}
switch ( dInf - > border ) {
case 0 :
inf . m_lastSessionState = STATE_EMPTY ;
break ;
case 1 :
inf . m_lastSessionState = STATE_INCOMPLETE ;
break ;
case 2 :
inf . m_lastSessionState = STATE_COMPLETE ;
break ;
default :
inf . m_lastSessionState = STATE_UNKNOWN ;
break ;
}
switch ( dInf - > bg_f_status & 0x3 ) {
case 0x0 :
inf . m_bgFormatState = BG_FORMAT_NONE ;
break ;
case 0x1 :
inf . m_bgFormatState = BG_FORMAT_INCOMPLETE ;
break ;
case 0x2 :
inf . m_bgFormatState = BG_FORMAT_IN_PROGRESS ;
break ;
case 0x3 :
inf . m_bgFormatState = BG_FORMAT_COMPLETE ;
break ;
}
inf . m_numTracks = ( dInf - > last_track_l & 0xff ) | ( dInf - > last_track_m < < 8 & 0xff00 ) ;
if ( inf . diskState ( ) = = STATE_EMPTY )
inf . m_numTracks = 0 ;
// FIXME: I am not sure if this is accurate. Better test the last track's RT field
else if ( inf . diskState ( ) = = STATE_INCOMPLETE )
inf . m_numTracks - - ; // do not count the invisible track
inf . m_rewritable = dInf - > erasable ;
//
// This is the Last Possible Lead-Out Start Address in HMSF format
// This is only valid for CD-R(W) and DVD+R media.
// For complete media this shall be filled with 0xff
//
if ( dInf - > lead_out_m ! = 0xff & &
dInf - > lead_out_r ! = 0xff & &
dInf - > lead_out_s ! = 0xff & &
dInf - > lead_out_f ! = 0xff )
inf . m_capacity = K3b : : Msf ( dInf - > lead_out_m + dInf - > lead_out_r * 60 ,
dInf - > lead_out_s ,
dInf - > lead_out_f ) - 150 ;
//
// This is the position where the next Session shall be recorded in HMSF format
// This is only valid for CD-R(W) and DVD+R media.
// For complete media this shall be filled with 0xff
//
if ( dInf - > lead_in_m ! = 0xff & &
dInf - > lead_in_r ! = 0xff & &
dInf - > lead_in_s ! = 0xff & &
dInf - > lead_in_f ! = 0xff )
inf . m_usedCapacity = K3b : : Msf ( dInf - > lead_in_m + dInf - > lead_in_r * 60 ,
dInf - > lead_in_s ,
dInf - > lead_in_f ) - 4500 ;
delete [ ] data ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " fabricating disk information for a stupid device. " < < endl ;
Toc toc = readToc ( ) ;
if ( ! toc . isEmpty ( ) ) {
inf . m_diskState = STATE_COMPLETE ;
inf . m_lastSessionState = STATE_COMPLETE ;
inf . m_numTracks = toc . count ( ) ;
inf . m_capacity = inf . m_usedCapacity = toc . length ( ) ;
}
}
//
// The mediatype needs to be set
//
inf . m_mediaType = mediaType ( ) ;
// At least some Plextor drives return profile NONE for CD media
// or CD_ROM for writable media
if ( inf . m_mediaType & ( MEDIA_UNKNOWN | MEDIA_NONE | MEDIA_CD_ROM ) ) {
// probably it is a CD
if ( inf . rewritable ( ) )
inf . m_mediaType = MEDIA_CD_RW ;
else if ( inf . empty ( ) | | inf . appendable ( ) )
inf . m_mediaType = MEDIA_CD_R ;
else
inf . m_mediaType = MEDIA_CD_ROM ;
}
if ( inf . m_mediaType & MEDIA_DVD_ALL ) {
if ( readDvdStructure ( & data , dataLen ) ) {
// some debugging stuff
K3b : : Msf sda , eda , ea0 ;
sda = ( data [ 4 + 5 ] < < 16 | data [ 4 + 6 ] < < 8 | data [ 4 + 7 ] ) ;
eda = ( data [ 4 + 9 ] < < 16 | data [ 4 + 10 ] < < 8 | data [ 4 + 11 ] ) ;
ea0 = ( data [ 4 + 13 ] < < 16 | data [ 4 + 14 ] < < 8 | data [ 4 + 15 ] ) ;
k3bDebug ( ) < < " First sec data area: " < < sda . toString ( )
< < " (LBA " < < TQString : : number ( sda . lba ( ) )
< < " ) ( " < < TQString : : number ( sda . mode1Bytes ( ) ) < < endl ;
k3bDebug ( ) < < " Last sec data area: " < < eda . toString ( )
< < " (LBA " < < TQString : : number ( eda . lba ( ) )
< < " ) ( " < < TQString : : number ( eda . mode1Bytes ( ) ) < < " Bytes) " < < endl ;
k3bDebug ( ) < < " Last sec layer 1: " < < ea0 . toString ( )
< < " (LBA " < < TQString : : number ( ea0 . lba ( ) )
< < " ) ( " < < TQString : : number ( ea0 . mode1Bytes ( ) ) < < " Bytes) " < < endl ;
K3b : : Msf da0 = ea0 - sda + 1 ;
K3b : : Msf da1 = eda - ea0 ;
k3bDebug ( ) < < " Layer 1 length: " < < da0 . toString ( )
< < " (LBA " < < TQString : : number ( da0 . lba ( ) )
< < " ) ( " < < TQString : : number ( da0 . mode1Bytes ( ) ) < < " Bytes) " < < endl ;
k3bDebug ( ) < < " Layer 2 length: " < < da1 . toString ( )
< < " (LBA " < < TQString : : number ( da1 . lba ( ) )
< < " ) ( " < < TQString : : number ( da1 . mode1Bytes ( ) ) < < " Bytes) " < < endl ;
inf . m_numLayers = ( ( data [ 6 ] & 0x60 ) = = 0 ? 1 : 2 ) ;
bool otp = ( data [ 4 + 2 ] & 0xF ) ;
// ea0 is 0 if the medium does not use Opposite track path
if ( otp & & ea0 > 0 )
inf . m_firstLayerSize = da0 ;
else
inf . m_firstLayerSize = 0 ;
delete [ ] data ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) Unable to read DVD structure for num of layers. " < < endl ;
inf . m_numLayers = ( ( inf . m_mediaType & MEDIA_WRITABLE_DVD_DL ) ? 2 : 1 ) ;
}
}
//
// Number of sessions for non-empty disks
//
if ( inf . diskState ( ) ! = STATE_EMPTY ) {
int sessions = numSessions ( ) ;
if ( sessions > = 0 )
inf . m_numSessions = sessions ;
else
k3bDebug ( ) < < " (K3bDevice::Device) could not get session info via READ TOC/PMA/ATIP. " < < endl ;
}
else
inf . m_numSessions = 0 ;
inf . m_mediaId = mediaId ( inf . mediaType ( ) ) ;
//
// Now we determine the size:
// for all empty and appendable media READ FORMAT CAPACITIES should return the proper unformatted size
// for complete disks we may use the READ_CAPACITY command or the start sector from the leadout
//
int media = inf . mediaType ( ) ;
//
// Use the profile if available because DVD-ROM units need to treat DVD+-R(W) media as DVD-ROM
// if supported at all
//
if ( inf . currentProfile ( ) = = MEDIA_DVD_ROM )
media = MEDIA_DVD_ROM ;
switch ( media ) {
case MEDIA_CD_R :
case MEDIA_CD_RW :
if ( inf . m_capacity = = 0 ) {
if ( readTocPmaAtip ( & data , dataLen , 0x4 , true , 0 ) ) {
struct atip_descriptor * atip = ( struct atip_descriptor * ) data ;
if ( dataLen > = 11 ) {
inf . m_capacity = K3b : : Msf ( atip - > lead_out_m , atip - > lead_out_s , atip - > lead_out_f ) - 150 ;
debugBitfield ( & atip - > lead_out_m , 3 ) ;
k3bDebug ( ) < < blockDeviceName ( ) < < " : ATIP capacity: " < < inf . m_capacity . toString ( ) < < endl ;
}
delete [ ] data ;
}
}
//
// for empty and appendable media capacity and usedCapacity should be filled in from
// diskinfo above. If not they are both still 0
//
if ( inf . m_capacity ! = 0 & &
( inf . diskState ( ) = = STATE_EMPTY | | inf . m_usedCapacity ! = 0 ) ) {
// done.
break ;
}
default :
case MEDIA_CD_ROM :
if ( inf . m_capacity > 0 & & inf . m_usedCapacity = = 0 )
inf . m_usedCapacity = inf . m_capacity ;
if ( inf . m_usedCapacity = = 0 ) {
K3b : : Msf readCap ;
if ( readCapacity ( readCap ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) READ CAPACITY: " < < readCap . toString ( )
< < " other capacity: " < < inf . m_capacity . toString ( ) < < endl ;
//
// READ CAPACITY returns the last written sector
// that means the size is actually readCap + 1
//
inf . m_usedCapacity = readCap + 1 ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " Falling back to readToc for capacity. " < < endl ;
inf . m_usedCapacity = readToc ( ) . length ( ) ;
}
}
case MEDIA_DVD_ROM : {
K3b : : Msf readCap ;
if ( readCapacity ( readCap ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) READ CAPACITY: " < < readCap . toString ( )
< < " other capacity: " < < inf . m_capacity . toString ( ) < < endl ;
//
// READ CAPACITY returns the last written sector
// that means the size is actually readCap + 1
//
inf . m_usedCapacity = readCap + 1 ;
}
else {
//
// Only one track, use it's size
//
if ( readTrackInformation ( & data , dataLen , 0x1 , 0x1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
inf . m_usedCapacity = from4Byte ( trackInfo - > track_size ) ;
delete [ ] data ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " READ TRACK INFORMATION for DVD-ROM failed. " < < endl ;
}
break ;
}
case MEDIA_DVD_PLUS_R :
case MEDIA_DVD_PLUS_R_DL :
if ( inf . appendable ( ) | | inf . empty ( ) ) {
//
// get remaining space via the invisible track
//
if ( readTrackInformation ( & data , dataLen , 0x1 , /*0xff*/ inf . numTracks ( ) + 1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
inf . m_usedCapacity = from4Byte ( trackInfo - > track_start ) ;
inf . m_capacity = from4Byte ( trackInfo - > track_start ) + from4Byte ( trackInfo - > track_size ) ;
delete [ ] data ;
}
}
else {
if ( readTrackInformation ( & data , dataLen , 0x1 , inf . numTracks ( ) ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
inf . m_capacity = inf . m_usedCapacity
= from4Byte ( trackInfo - > track_start ) + from4Byte ( trackInfo - > track_size ) ;
delete [ ] data ;
}
}
break ;
case MEDIA_DVD_R :
case MEDIA_DVD_R_SEQ :
case MEDIA_DVD_R_DL :
case MEDIA_DVD_R_DL_JUMP :
case MEDIA_DVD_R_DL_SEQ :
//
// get data from the incomplete track (which is NOT the invisible track 0xff)
// This will fail in case the media is complete!
//
if ( readTrackInformation ( & data , dataLen , 0x1 , inf . numTracks ( ) + 1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
inf . m_usedCapacity = from4Byte ( trackInfo - > track_start ) ;
inf . m_capacity = from4Byte ( trackInfo - > free_blocks ) + from4Byte ( trackInfo - > track_start ) ;
delete [ ] data ;
}
//
// Get the "really" used space without border-out
//
if ( ! inf . empty ( ) ) {
K3b : : Msf readCap ;
if ( readCapacity ( readCap ) ) {
//
// READ CAPACITY returns the last written sector
// that means the size is actually readCap + 1
//
inf . m_usedCapacity = readCap + 1 ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " READ CAPACITY for DVD-R failed. " < < endl ;
}
break ;
case MEDIA_DVD_RW_OVWR :
inf . m_numSessions = 1 ;
case MEDIA_DVD_RW :
case MEDIA_DVD_RW_SEQ :
// only one track on a DVD-RW media
if ( readTrackInformation ( & data , dataLen , 0x1 , 0x1 ) ) {
track_info_t * trackInfo = ( track_info_t * ) data ;
inf . m_capacity = from4Byte ( trackInfo - > track_size ) ;
if ( ! inf . empty ( ) ) {
if ( readFormatCapacity ( 0x10 , inf . m_capacity ) )
k3bDebug ( ) < < blockDeviceName ( ) < < " : Format capacity 0x10: " < < inf . m_capacity . toString ( ) < < endl ;
inf . m_usedCapacity = from4Byte ( trackInfo - > track_size ) ;
}
delete [ ] data ;
}
break ;
case MEDIA_DVD_PLUS_RW : {
K3b : : Msf currentMax ;
int currentMaxFormat = 0 ;
if ( readFormatCapacity ( 0x26 , inf . m_capacity , & currentMax , & currentMaxFormat ) ) {
if ( currentMaxFormat = = 0x1 ) { // unformatted or blank media
inf . m_usedCapacity = 0 ;
inf . m_capacity = currentMax ;
}
else {
inf . m_usedCapacity = currentMax ;
// Plextor drives tend to screw things up and report invalid values
// for the max format capacity of 1.4 GB DVD media
if ( inf . bgFormatState ( ) = = BG_FORMAT_COMPLETE ) {
inf . m_capacity = currentMax ;
}
}
}
else
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " READ FORMAT CAPACITIES for DVD+RW failed. " < < endl ;
break ;
}
case MEDIA_BD_R :
case MEDIA_BD_R_SRM :
case MEDIA_BD_R_SRM_POW :
case MEDIA_BD_R_RRM :
case MEDIA_BD_RE :
//
// get the invisible track's first sector
// or the next writable address of the last open track
//
if ( readDiscInformation ( & data , dataLen ) ) {
int lastTrack = ( int ) ( data [ 11 ] < < 8 | data [ 6 ] ) ;
delete [ ] data ;
if ( readTrackInformation ( & data , dataLen , 1 , lastTrack ) ) {
// capacity: last track's start address + last track's size
inf . m_capacity = from4Byte ( data + 8 ) + from4Byte ( data + 24 ) ;
if ( data [ 6 ] & 0x80 )
inf . m_usedCapacity = from4Byte ( data + 8 ) ;
else if ( data [ 7 ] & 0x1 )
inf . m_usedCapacity = from4Byte ( data + 12 ) ;
delete [ ] data ;
}
}
break ;
case MEDIA_BD_ROM : {
K3b : : Msf readCap ;
if ( readCapacity ( readCap ) ) {
//
// READ CAPACITY returns the last written sector
// that means the size is actually readCap + 1
//
inf . m_usedCapacity = readCap + 1 ;
}
break ;
}
}
}
if ( needToClose )
close ( ) ;
}
return inf ;
}
int K3bDevice : : Device : : mediaType ( ) const
{
int m = MEDIA_UNKNOWN ;
if ( testUnitReady ( ) ) {
m = currentProfile ( ) ;
if ( m & ( MEDIA_UNKNOWN | MEDIA_DVD_ROM | MEDIA_HD_DVD_ROM ) ) {
//
// We prefere the mediatype as reported by the media since this way
// even ROM drives may report the correct type of writable media.
//
// 4 bytes header + 2048 bytes layer descriptor
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDvdStructure ( & data , dataLen ) ) {
switch ( data [ 4 ] & 0xF0 ) {
case 0x00 : m = MEDIA_DVD_ROM ; break ;
case 0x10 : m = MEDIA_DVD_RAM ; break ;
case 0x20 : m = MEDIA_DVD_R ; break ; // there seems to be no value for DVD-R DL, it reports DVD-R
case 0x30 : m = MEDIA_DVD_RW ; break ;
case 0x40 : m = MEDIA_HD_DVD_ROM ; break ;
case 0x50 : m = MEDIA_HD_DVD_R ; break ;
case 0x60 : m = MEDIA_HD_DVD_RAM ; break ;
case 0x90 : m = MEDIA_DVD_PLUS_RW ; break ;
case 0xA0 : m = MEDIA_DVD_PLUS_R ; break ;
case 0xE0 : m = MEDIA_DVD_PLUS_R_DL ; break ;
default :
k3bDebug ( ) < < " (K3bDevice::Device) unknown dvd media type: " < < TQString : : number ( data [ 4 ] & 0xF0 , 8 ) < < endl ;
break ; // unknown
}
delete [ ] data ;
}
}
if ( m & ( MEDIA_UNKNOWN | MEDIA_BD_ROM ) ) {
//
// We prefere the mediatype as reported by the media since this way
// even ROM drives may report the correct type of writable media.
//
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDiscStructure ( & data , dataLen , 1 , 0 ) ) {
if ( dataLen > 4 + 12 & &
data [ 4 + 8 ] = = ' B ' & & data [ 4 + 9 ] = = ' D ' ) {
switch ( data [ 4 + 10 ] ) {
case ' O ' : m = MEDIA_BD_ROM ; break ;
case ' W ' : m = MEDIA_BD_RE ; break ;
case ' R ' : m = MEDIA_BD_R ; break ;
}
}
delete [ ] data ;
}
}
//
// Only old CD or DVD devices do not report a current profile
// or report CD-ROM profile for all CD types
//
if ( m & ( MEDIA_UNKNOWN | MEDIA_CD_ROM ) ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readTocPmaAtip ( & data , dataLen , 4 , false , 0 ) ) {
if ( ( data [ 6 ] > > 6 ) & 1 )
m = MEDIA_CD_RW ;
else
m = MEDIA_CD_R ;
delete [ ] data ;
}
else
m = MEDIA_CD_ROM ;
}
}
return m ;
}
bool K3bDevice : : Device : : readSectorsRaw ( unsigned char * buf , int start , int count ) const
{
return readCd ( buf , count * 2352 ,
0 , // all sector types
false , // no dap
start ,
count ,
true , // SYNC
true , // HEADER
true , // SUBHEADER
true , // USER DATA
true , // EDC/ECC
0 , // no c2 info
0 ) ;
}
void K3bDevice : : Device : : checkForJustLink ( )
{
unsigned char * ricoh = 0 ;
unsigned int ricohLen = 0 ;
if ( modeSense ( & ricoh , ricohLen , 0x30 ) ) {
//
// 8 byte mode header + 6 byte page data
//
if ( ricohLen > = 14 ) {
ricoh_mode_page_30 * rp = ( ricoh_mode_page_30 * ) ( ricoh + 8 ) ;
d - > burnfree = rp - > BUEFS ;
}
delete [ ] ricoh ;
}
}
void K3bDevice : : Device : : checkFeatures ( )
{
unsigned char header [ 1024 ] ;
: : memset ( header , 0 , 1024 ) ;
ScsiCommand cmd ( this ) ;
cmd [ 0 ] = MMC_GET_CONFIGURATION ;
cmd [ 1 ] = 2 ;
cmd [ 9 ] = 0 ; // Necessary to set the proper command length
//
// CD writing features
//
cmd [ 2 ] = FEATURE_CD_MASTERING > > 8 ;
cmd [ 3 ] = FEATURE_CD_MASTERING ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " CD Mastering " < < endl ;
# ifdef WORDS_BIGENDIAN
struct cd_mastering_feature {
unsigned char reserved1 : 1 ;
unsigned char BUF : 1 ; // Burnfree
unsigned char SAO : 1 ; // Session At Once writing
unsigned char raw_ms : 1 ; // Writing Multisession in Raw Writing Mode
unsigned char raw : 1 ; // Writing in WRITINGMODE_RAW mode
unsigned char testwrite : 1 ; // Simulation write support
unsigned char cd_rw : 1 ; // CD-RW support
unsigned char rw_sub : 1 ; // Write R-W sub channels with user data
unsigned char max_cue_length [ 3 ] ;
} ;
# else
struct cd_mastering_feature {
unsigned char rw_sub : 1 ; // Write R-W sub channels with user data
unsigned char cd_rw : 1 ; // CD-RW support
unsigned char testwrite : 1 ; // Simulation write support
unsigned char raw : 1 ; // Writing in WRITINGMODE_RAW mode
unsigned char raw_ms : 1 ; // Writing Multisession in Raw Writing Mode
unsigned char SAO : 1 ; // Session At Once writing
unsigned char BUF : 1 ; // Burnfree
unsigned char reserved1 : 1 ;
unsigned char max_cue_length [ 3 ] ;
} ;
# endif
struct cd_mastering_feature * p = ( struct cd_mastering_feature * ) & header [ 12 ] ;
if ( p - > BUF ) d - > burnfree = true ;
d - > writeCapabilities | = MEDIA_CD_R ;
if ( p - > cd_rw )
d - > writeCapabilities | = MEDIA_CD_RW ;
// if( p->WRITINGMODE_SAO ) m_writeModes |= WRITINGMODE_SAO;
// if( p->raw || p->raw_ms ) m_writeModes |= WRITINGMODE_RAW; // WRITINGMODE_RAW16 always supported when raw is supported?
}
}
cmd [ 2 ] = FEATURE_CD_TRACK_AT_ONCE > > 8 ;
cmd [ 3 ] = FEATURE_CD_TRACK_AT_ONCE ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " CD Track At Once " < < endl ;
# ifdef WORDS_BIGENDIAN
struct cd_track_at_once_feature {
unsigned char reserved1 : 1 ;
unsigned char BUF : 1 ; // Burnfree
unsigned char reserved2 : 1 ;
unsigned char rw_raw : 1 ; // Writing R-W subcode in Raw mode
unsigned char rw_pack : 1 ; // Writing R-W subcode in Packet mode
unsigned char testwrite : 1 ; // Simulation write support
unsigned char cd_rw : 1 ; // CD-RW support
unsigned char rw_sub : 1 ; // Write R-W sub channels with user data
unsigned char reserved3 ;
unsigned char data_type [ 2 ] ;
} ;
# else
struct cd_track_at_once_feature {
unsigned char rw_sub : 1 ; // Write R-W sub channels with user data
unsigned char cd_rw : 1 ; // CD-RW support
unsigned char testwrite : 1 ; // Simulation write support
unsigned char rw_pack : 1 ; // Writing R-W subcode in Packet mode
unsigned char rw_raw : 1 ; // Writing R-W subcode in Raw mode
unsigned char reserved2 : 1 ;
unsigned char BUF : 1 ; // Burnfree
unsigned char reserved1 : 1 ;
unsigned char reserved3 ;
unsigned char data_type [ 2 ] ;
} ;
# endif
struct cd_track_at_once_feature * p = ( struct cd_track_at_once_feature * ) & header [ 12 ] ;
m_writeModes | = WRITINGMODE_TAO ;
if ( p - > BUF ) d - > burnfree = true ;
d - > writeCapabilities | = MEDIA_CD_R ;
if ( p - > cd_rw )
d - > writeCapabilities | = MEDIA_CD_RW ;
// is the following correct? What exactly does rw_sub tell us?
// if( m_writeModes & WRITINGMODE_RAW ) {
// if( p->rw_raw ) m_writeModes |= WRITINGMODE_RAW_R96R;
// if( p->rw_pack ) m_writeModes |= WRITINGMODE_RAW_R96P;
// }
// // check the data types for 1, 2, and 3 (raw16, raw96p, and raw96r)
// debugBitfield( p->data_type, 2 );
// if( m_writeModes & WRITINGMODE_RAW ) {
// if( p->data_type[1] & 0x20 ) m_writeModes |= WRITINGMODE_RAW_R16;
// if( p->data_type[1] & 0x40 ) m_writeModes |= WRITINGMODE_RAW_R96P;
// if( p->data_type[1] & 0x80 ) m_writeModes |= WRITINGMODE_RAW_R96R;
// }
}
}
cmd [ 2 ] = FEATURE_CD_RW_MEDIA_WRITE_SUPPORT > > 8 ;
cmd [ 3 ] = FEATURE_CD_RW_MEDIA_WRITE_SUPPORT ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " CD-RW Media Write Support " < < endl ;
d - > writeCapabilities | = ( MEDIA_CD_R | MEDIA_CD_RW ) ;
}
}
//
// DVD-ROM
//
// FIXME: since MMC5 the feature descr. is 8 bytes in length including a dvd dl read bit at byte 6
cmd [ 2 ] = FEATURE_DVD_READ > > 8 ;
cmd [ 3 ] = FEATURE_DVD_READ ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD Read (MMC5) " < < endl ;
d - > readCapabilities | = MEDIA_DVD_ROM ;
if ( header [ 8 + 6 ] & 0x1 )
d - > readCapabilities | = MEDIA_WRITABLE_DVD_DL ;
}
}
else {
// retry with pre-MMC5 length
cmd [ 8 ] = 8 + 4 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 12 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 8 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD Read (pre-MMC5) " < < endl ;
d - > readCapabilities | = MEDIA_DVD_ROM ;
}
}
}
//
// DVD+R(W) writing features
//
cmd [ 2 ] = FEATURE_DVD_PLUS_R > > 8 ;
cmd [ 3 ] = FEATURE_DVD_PLUS_R ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD+R " < < endl ;
d - > readCapabilities | = MEDIA_DVD_PLUS_R ;
if ( header [ 12 ] & 0x1 )
d - > writeCapabilities | = MEDIA_DVD_PLUS_R ;
}
}
cmd [ 2 ] = FEATURE_DVD_PLUS_RW > > 8 ;
cmd [ 3 ] = FEATURE_DVD_PLUS_RW ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD+RW " < < endl ;
# ifdef WORDS_BIGENDIAN
struct dvd_plus_rw_feature {
unsigned char reserved1 : 7 ;
unsigned char write : 1 ;
unsigned char reserved2 : 6 ;
unsigned char quick_start : 1 ;
unsigned char close_only : 1 ;
// and some stuff we do not use here...
} ;
# else
struct dvd_plus_rw_feature {
unsigned char write : 1 ;
unsigned char reserved1 : 7 ;
unsigned char close_only : 1 ;
unsigned char quick_start : 1 ;
unsigned char reserved2 : 6 ;
// and some stuff we do not use here...
} ;
# endif
struct dvd_plus_rw_feature * p = ( struct dvd_plus_rw_feature * ) & header [ 12 ] ;
d - > readCapabilities | = MEDIA_DVD_PLUS_RW ;
if ( p - > write )
d - > writeCapabilities | = MEDIA_DVD_PLUS_RW ;
}
}
// some older DVD-ROM drives claim to support DVD+R DL
if ( d - > writeCapabilities & MEDIA_DVD_PLUS_R ) {
cmd [ 2 ] = FEATURE_DVD_PLUS_RW_DUAL_LAYER > > 8 ;
cmd [ 3 ] = FEATURE_DVD_PLUS_RW_DUAL_LAYER ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD+RW Double Layer " < < endl ;
d - > readCapabilities | = MEDIA_DVD_PLUS_RW_DL ;
if ( header [ 12 ] & 0x1 )
d - > writeCapabilities | = MEDIA_DVD_PLUS_RW_DL ;
}
}
cmd [ 2 ] = FEATURE_DVD_PLUS_R_DUAL_LAYER > > 8 ;
cmd [ 3 ] = FEATURE_DVD_PLUS_R_DUAL_LAYER ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD+R Double Layer " < < endl ;
d - > readCapabilities | = MEDIA_DVD_PLUS_R_DL ;
if ( header [ 12 ] & 0x1 )
d - > writeCapabilities | = MEDIA_DVD_PLUS_R_DL ;
}
}
}
//
// Blue Ray
//
// We do not care for the different BD classes and versions here
//
cmd [ 2 ] = FEATURE_BD_READ > > 8 ;
cmd [ 3 ] = FEATURE_BD_READ ;
cmd [ 8 ] = 8 + 32 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 40 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 36 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " BD Read " < < endl ;
if ( header [ 8 + 8 ] | | header [ 8 + 9 ] | | header [ 8 + 10 ] | | header [ 8 + 11 ] | | header [ 8 + 12 ] | | header [ 8 + 13 ] | | header [ 8 + 14 ] | | header [ 8 + 15 ] )
d - > readCapabilities | = MEDIA_BD_RE ;
if ( header [ 8 + 16 ] | | header [ 8 + 17 ] | | header [ 8 + 18 ] | | header [ 8 + 19 ] | | header [ 8 + 20 ] | | header [ 8 + 21 ] | | header [ 8 + 22 ] | | header [ 8 + 23 ] )
d - > readCapabilities | = MEDIA_BD_R ;
if ( header [ 8 + 24 ] | | header [ 8 + 25 ] | | header [ 8 + 26 ] | | header [ 8 + 27 ] | | header [ 8 + 28 ] | | header [ 8 + 29 ] | | header [ 8 + 30 ] | | header [ 8 + 31 ] )
d - > readCapabilities | = MEDIA_BD_ROM ;
}
}
cmd [ 2 ] = FEATURE_BD_WRITE > > 8 ;
cmd [ 3 ] = FEATURE_BD_WRITE ;
cmd [ 8 ] = 8 + 24 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 32 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 28 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " BD Write " < < endl ;
if ( header [ 8 + 8 ] | | header [ 8 + 9 ] | | header [ 8 + 10 ] | | header [ 8 + 11 ] | | header [ 8 + 12 ] | | header [ 8 + 13 ] | | header [ 8 + 14 ] | | header [ 8 + 15 ] )
d - > writeCapabilities | = MEDIA_BD_RE ;
if ( header [ 8 + 16 ] | | header [ 8 + 17 ] | | header [ 8 + 18 ] | | header [ 8 + 19 ] | | header [ 8 + 20 ] | | header [ 8 + 21 ] | | header [ 8 + 22 ] | | header [ 8 + 23 ] ) {
d - > writeCapabilities | = MEDIA_BD_R ;
m_writeModes | = WRITINGMODE_SRM ;
cmd [ 2 ] = FEATURE_BD_PSEUDO_OVERWRITE > > 8 ;
cmd [ 3 ] = FEATURE_BD_PSEUDO_OVERWRITE ;
cmd [ 8 ] = 8 + 8 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 8 + 8 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 4 + 8 ) {
m_writeModes | = WRITINGMODE_SRM_POW ;
}
}
cmd [ 2 ] = FEATURE_RANDOM_WRITABLE > > 8 ;
cmd [ 3 ] = FEATURE_RANDOM_WRITABLE ;
cmd [ 8 ] = 8 + 16 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 8 + 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 4 + 16 ) {
m_writeModes | = WRITINGMODE_RRM ;
}
}
}
}
}
//
// DVD-R(W)
//
cmd [ 2 ] = FEATURE_DVD_R_RW_WRITE > > 8 ;
cmd [ 3 ] = FEATURE_DVD_R_RW_WRITE ;
cmd [ 8 ] = 16 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " DVD-R/-RW Write " < < endl ;
# ifdef WORDS_BIGENDIAN
struct dvd_r_rw_write_feature {
unsigned char reserved1 : 1 ;
unsigned char BUF : 1 ; // Burnfree
unsigned char reserved2 : 2 ;
unsigned char RDL : 1 ;
unsigned char testwrite : 1 ; // Simulation write support
unsigned char dvd_rw : 1 ; // DVD-RW Writing
unsigned char reserved3 : 1 ;
unsigned char reserved4 [ 3 ] ;
} ;
# else
struct dvd_r_rw_write_feature {
unsigned char reserved3 : 1 ;
unsigned char dvd_rw : 1 ; // DVD-RW Writing
unsigned char testwrite : 1 ; // Simulation write support
unsigned char RDL : 1 ;
unsigned char reserved2 : 2 ;
unsigned char BUF : 1 ; // Burnfree
unsigned char reserved1 : 1 ;
unsigned char reserved4 [ 3 ] ;
} ;
# endif
struct dvd_r_rw_write_feature * p = ( struct dvd_r_rw_write_feature * ) & header [ 12 ] ;
if ( p - > BUF ) d - > burnfree = true ;
d - > writeCapabilities | = ( MEDIA_DVD_R | MEDIA_DVD_R_SEQ ) ;
if ( p - > dvd_rw )
d - > writeCapabilities | = ( MEDIA_DVD_RW | MEDIA_DVD_RW_SEQ ) ;
if ( p - > RDL )
d - > writeCapabilities | = ( MEDIA_DVD_R_DL | MEDIA_DVD_R_DL_SEQ ) ;
m_dvdMinusTestwrite = p - > testwrite ;
}
}
//
// DVD-RW restricted overwrite check
//
cmd [ 2 ] = FEATURE_RIGID_RESTRICTED_OVERWRITE > > 8 ;
cmd [ 3 ] = FEATURE_RIGID_RESTRICTED_OVERWRITE ;
cmd [ 8 ] = 16 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " Rigid Restricted Overwrite " < < endl ;
m_writeModes | = WRITINGMODE_RES_OVWR ;
d - > writeCapabilities | = ( MEDIA_DVD_RW | MEDIA_DVD_RW_OVWR ) ;
}
}
//
// DVD-R Dual Layer Layer
//
cmd [ 2 ] = FEATURE_LAYER_JUMP_RECORDING > > 8 ;
cmd [ 3 ] = FEATURE_LAYER_JUMP_RECORDING ;
cmd [ 8 ] = 12 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 12 ) ) {
// Now the jump feature is longer than 4 bytes but we don't need the link sizes.
unsigned int len = from4Byte ( header ) ;
if ( len > = 8 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " Layer Jump Recording " < < endl ;
d - > writeCapabilities | = ( MEDIA_DVD_R_DL | MEDIA_DVD_R_DL_JUMP ) ;
m_writeModes | = WRITINGMODE_LAYER_JUMP ;
}
}
//
// HD-DVD-ROM
//
cmd [ 2 ] = FEATURE_HD_DVD_READ > > 8 ;
cmd [ 3 ] = FEATURE_HD_DVD_READ ;
cmd [ 8 ] = 16 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " HD-DVD Read " < < endl ;
d - > readCapabilities | = MEDIA_HD_DVD_ROM ;
if ( header [ 8 + 4 ] & 0x1 )
d - > readCapabilities | = MEDIA_HD_DVD_R ;
if ( header [ 8 + 6 ] & 0x1 )
d - > readCapabilities | = MEDIA_HD_DVD_RAM ;
}
}
//
// HD-DVD-R(AM)
//
cmd [ 2 ] = FEATURE_HD_DVD_WRITE > > 8 ;
cmd [ 3 ] = FEATURE_HD_DVD_WRITE ;
cmd [ 8 ] = 16 ;
if ( ! cmd . transport ( TR_DIR_READ , header , 16 ) ) {
unsigned int len = from4Byte ( header ) ;
if ( len > = 12 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " feature: " < < " HD-DVD Write " < < endl ;
if ( header [ 8 + 4 ] & 0x1 )
d - > writeCapabilities | = MEDIA_HD_DVD_R ;
if ( header [ 8 + 6 ] & 0x1 )
d - > writeCapabilities | = MEDIA_HD_DVD_RAM ;
}
}
//
// Get the profiles
//
// the max len of the returned data is 8 (header) + 4 (feature) + 255 (additional length)
//
cmd [ 2 ] = FEATURE_PROFILE_LIST > > 8 ;
cmd [ 3 ] = FEATURE_PROFILE_LIST ;
cmd [ 8 ] = 12 ; // get the number of returned profiles first
if ( ! cmd . transport ( TR_DIR_READ , header , 12 ) ) {
unsigned int len = from4Byte ( header ) + 4 ;
if ( len > = 12 ) {
cmd [ 7 ] = len > > 8 ;
cmd [ 8 ] = len ;
if ( ! cmd . transport ( TR_DIR_READ , header , len ) ) {
int featureLen ( header [ 11 ] ) ;
for ( int j = 0 ; j < featureLen ; j + = 4 ) {
short profile = from2Byte ( & header [ 12 + j ] ) ;
switch ( profile ) {
case 0x08 :
d - > supportedProfiles | = MEDIA_CD_ROM ;
break ;
case 0x09 :
d - > supportedProfiles | = MEDIA_CD_R ;
break ;
case 0x0A :
d - > supportedProfiles | = MEDIA_CD_RW ;
break ;
case 0x10 :
d - > supportedProfiles | = MEDIA_DVD_ROM ;
// d->readCapabilities |= MEDIA_DVD_ROM;
break ;
case 0x11 :
d - > supportedProfiles | = MEDIA_DVD_R_SEQ ;
// d->writeCapabilities |= (MEDIA_DVD_R|MEDIA_DVD_R_SEQ);
break ;
case 0x12 :
d - > supportedProfiles | = MEDIA_DVD_RAM ;
// d->readCapabilities |= (MEDIA_DVD_RAM|MEDIA_DVD_ROM);
// d->writeCapabilities |= MEDIA_DVD_RAM;
break ;
case 0x13 :
d - > supportedProfiles | = MEDIA_DVD_RW_OVWR ;
// d->writeCapabilities |= (MEDIA_DVD_RW|MEDIA_DVD_RW_OVWR);
break ;
case 0x14 :
d - > supportedProfiles | = MEDIA_DVD_RW_SEQ ;
// d->writeCapabilities |= (MEDIA_DVD_RW|MEDIA_DVD_R|MEDIA_DVD_RW_SEQ|MEDIA_DVD_R_SEQ);
break ;
case 0x15 :
d - > supportedProfiles | = MEDIA_DVD_R_DL_SEQ ;
// d->writeCapabilities |= (MEDIA_DVD_R|MEDIA_DVD_R_DL|MEDIA_DVD_R_SEQ|MEDIA_DVD_R_DL_SEQ);
break ;
case 0x16 :
d - > supportedProfiles | = MEDIA_DVD_R_DL_JUMP ;
// d->writeCapabilities |= (MEDIA_DVD_R|MEDIA_DVD_R_DL||MEDIA_DVD_R_DL_JUMP);
break ;
case 0x1A :
d - > supportedProfiles | = MEDIA_DVD_PLUS_RW ;
// d->writeCapabilities |= MEDIA_DVD_PLUS_RW;
break ;
case 0x1B :
d - > supportedProfiles | = MEDIA_DVD_PLUS_R ;
// d->writeCapabilities |= MEDIA_DVD_PLUS_R;
break ;
case 0x2A :
d - > supportedProfiles | = MEDIA_DVD_PLUS_RW_DL ;
// d->writeCapabilities |= MEDIA_DVD_PLUS_RW_DL;
break ;
case 0x2B :
d - > supportedProfiles | = MEDIA_DVD_PLUS_R_DL ;
// d->writeCapabilities |= MEDIA_DVD_PLUS_R_DL;
break ;
case 0x40 :
d - > supportedProfiles | = MEDIA_BD_ROM ;
break ;
case 0x41 :
d - > supportedProfiles | = MEDIA_BD_R_SRM ;
break ;
case 0x42 :
d - > supportedProfiles | = MEDIA_BD_R_RRM ;
break ;
case 0x43 :
d - > supportedProfiles | = MEDIA_BD_RE ;
break ;
case 0x50 :
d - > supportedProfiles | = MEDIA_HD_DVD_ROM ;
break ;
case 0x51 :
d - > supportedProfiles | = MEDIA_HD_DVD_R ;
break ;
case 0x52 :
d - > supportedProfiles | = MEDIA_HD_DVD_RAM ;
break ;
default :
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " unknown profile: "
< < profile < < endl ;
}
}
// some older DVD-ROM drives claim to support DVD+R DL
if ( ! ( d - > supportedProfiles & MEDIA_DVD_PLUS_R ) ) {
// remove DVD+R DL capability
// d->writeCapabilities &= ~MEDIA_DVD_PLUS_R_DL;
d - > supportedProfiles & = ~ MEDIA_DVD_PLUS_R_DL ;
}
}
}
}
}
void K3bDevice : : Device : : checkFor2AFeatures ( )
{
unsigned char * mm_cap_buffer = 0 ;
unsigned int mm_cap_len = 0 ;
if ( modeSense ( & mm_cap_buffer , mm_cap_len , 0x2A ) ) {
mm_cap_page_2A * mm_p = ( mm_cap_page_2A * ) ( mm_cap_buffer + 8 ) ;
if ( mm_p - > BUF )
d - > burnfree = true ;
if ( mm_p - > cd_r_write )
d - > writeCapabilities | = MEDIA_CD_R ;
else
d - > writeCapabilities & = ~ MEDIA_CD_R ;
if ( mm_p - > cd_rw_write )
d - > writeCapabilities | = MEDIA_CD_RW ;
else
d - > writeCapabilities & = ~ MEDIA_CD_RW ;
if ( mm_p - > dvd_r_write )
d - > writeCapabilities | = MEDIA_DVD_R ;
else
d - > writeCapabilities & = ~ MEDIA_DVD_R ;
if ( mm_p - > dvd_rom_read | | mm_p - > dvd_r_read )
d - > readCapabilities | = MEDIA_DVD_ROM ;
m_maxReadSpeed = from2Byte ( mm_p - > max_read_speed ) ;
m_bufferSize = from2Byte ( mm_p - > buffer_size ) ;
delete [ ] mm_cap_buffer ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : read mode page 2A failed! " < < endl ;
}
}
void K3bDevice : : Device : : checkWritingModes ( )
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
if ( ! open ( ) )
return ;
// header size is 8
unsigned char * buffer = 0 ;
unsigned int dataLen = 0 ;
if ( ! modeSense ( & buffer , dataLen , 0x05 ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : modeSense 0x05 failed! " < < endl
< < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : Cannot check write modes. " < < endl ;
}
else if ( dataLen < 18 ) { // 8 bytes header + 10 bytes used modepage
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : Missing modepage 0x05 data. " < < endl
< < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : Cannot check write modes. " < < endl ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : dataLen: " < < dataLen < < endl ;
wr_param_page_05 * mp = ( struct wr_param_page_05 * ) ( buffer + 8 ) ;
// reset some stuff to be on the safe side
mp - > PS = 0 ;
mp - > BUFE = 0 ;
mp - > multi_session = 0 ;
mp - > test_write = 0 ;
mp - > LS_V = 0 ;
mp - > copy = 0 ;
mp - > fp = 0 ;
mp - > host_appl_code = 0 ;
mp - > session_format = 0 ;
mp - > audio_pause_len [ 0 ] = 0 ;
mp - > audio_pause_len [ 1 ] = 150 ;
// WRITINGMODE_TAO
mp - > write_type = 0x01 ; // Track-at-once
mp - > track_mode = 4 ; // MMC-4 says: 5, cdrecord uses 4 ?
mp - > dbtype = 8 ; // Mode 1
// k3bDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": modeselect WRITINGMODE_TAO data: " << endl;
// debugBitfield( buffer, dataLen );
//
// if a writer does not support WRITINGMODE_TAO it surely does not support WRITINGMODE_SAO or WRITINGMODE_RAW writing since WRITINGMODE_TAO is the minimal
// requirement
//
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for TAO " < < endl ;
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_TAO ;
d - > writeCapabilities | = MEDIA_CD_R ;
// WRITINGMODE_SAO
mp - > write_type = 0x02 ; // Session-at-once
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for SAO " < < endl ;
if ( modeSelect ( buffer , dataLen , 1 , 0 ) )
m_writeModes | = WRITINGMODE_SAO ;
// mp->dbtype = 1; // Raw data with P and Q Sub-channel (2368 bytes)
// if( modeSelect( buffer, dataLen, 1, 0 ) ) {
// m_writeModes |= WRITINGMODE_RAW_R16;
// }
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for SAO_R96P " < < endl ;
mp - > dbtype = 2 ; // Raw data with P-W Sub-channel (2448 bytes)
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_SAO_R96P ;
}
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for SAO_R96R " < < endl ;
mp - > dbtype = 3 ; // Raw data with P-W raw Sub-channel (2448 bytes)
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_SAO_R96R ;
}
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for RAW_R16 " < < endl ;
// WRITINGMODE_RAW
mp - > write_type = 0x03 ; // WRITINGMODE_RAW
mp - > dbtype = 1 ; // Raw data with P and Q Sub-channel (2368 bytes)
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_RAW ;
m_writeModes | = WRITINGMODE_RAW_R16 ;
}
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for RAW_R96P " < < endl ;
mp - > dbtype = 2 ; // Raw data with P-W Sub-channel (2448 bytes)
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_RAW ;
m_writeModes | = WRITINGMODE_RAW_R96P ;
}
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : checking for RAW_R96R " < < endl ;
mp - > dbtype = 3 ; // Raw data with P-W raw Sub-channel (2448 bytes)
if ( modeSelect ( buffer , dataLen , 1 , 0 ) ) {
m_writeModes | = WRITINGMODE_RAW ;
m_writeModes | = WRITINGMODE_RAW_R96R ;
}
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( ) < < " : modeSelect with WRITINGMODE_TAO failed. No writer " < < endl ;
}
delete [ ] buffer ;
}
if ( needToClose )
close ( ) ;
}
int K3bDevice : : Device : : determineMaximalWriteSpeed ( ) const
{
int ret = 0 ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( mediaType ( ) & MEDIA_CD_ALL ) {
if ( modeSense ( & data , dataLen , 0x2A ) ) {
mm_cap_page_2A * mm = ( mm_cap_page_2A * ) & data [ 8 ] ;
// MMC1 used byte 18 and 19 for the max write speed
if ( dataLen > 19 )
ret = from2Byte ( mm - > max_write_speed ) ;
delete [ ] data ;
if ( ret > 0 )
return ret ;
}
}
TQValueList < int > list = determineSupportedWriteSpeeds ( ) ;
if ( ! list . isEmpty ( ) ) {
for ( TQValueList < int > : : const_iterator it = list . constBegin ( ) ; it ! = list . constEnd ( ) ; + + it )
ret = TQMAX ( ret , * it ) ;
}
if ( ret > 0 )
return ret ;
else
return m_maxWriteSpeed ;
}
TQValueList < int > K3bDevice : : Device : : determineSupportedWriteSpeeds ( ) const
{
TQValueList < int > ret ;
if ( burner ( ) ) {
//
// Tests with all my drives resulted in 2A for CD and GET PERFORMANCE for DVD media
// as the valid method of speed detection.
//
if ( mediaType ( ) & MEDIA_CD_ALL ) {
if ( ! getSupportedWriteSpeedsVia2A ( ret , false ) )
getSupportedWriteSpeedsViaGP ( ret , false ) ;
// restrict to max speed, although deprecated in MMC3 is still used everywhere and
// cdrecord also uses it as the max writing speed.
int max = 0 ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( modeSense ( & data , dataLen , 0x2A ) ) {
mm_cap_page_2A * mm = ( mm_cap_page_2A * ) & data [ 8 ] ;
// MMC1 used byte 18 and 19 for the max write speed
if ( dataLen > 19 )
max = from2Byte ( mm - > max_write_speed ) ;
delete [ ] data ;
if ( max > 0 ) {
while ( ! ret . isEmpty ( ) & & ret . last ( ) > max ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " writing speed " < < ret . last ( ) < < " higher than max " < < max < < endl ;
ret . pop_back ( ) ;
}
}
}
}
else {
if ( ! getSupportedWriteSpeedsViaGP ( ret , true ) )
getSupportedWriteSpeedsVia2A ( ret , true ) ;
}
}
return ret ;
}
bool K3bDevice : : Device : : getSupportedWriteSpeedsVia2A ( TQValueList < int > & list , bool dvd ) const
{
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( modeSense ( & data , dataLen , 0x2A ) ) {
mm_cap_page_2A * mm = ( mm_cap_page_2A * ) & data [ 8 ] ;
if ( dataLen > 32 ) {
// we have descriptors
unsigned int numDesc = from2Byte ( mm - > num_wr_speed_des ) ;
// Some CDs writer returns the number of bytes that contain
// the descriptors rather than the number of descriptors
// Ensure number of descriptors claimed actually fits in the data
// returned by the mode sense command.
if ( numDesc > ( ( dataLen - 32 - 8 ) / 4 ) )
numDesc = ( dataLen - 32 - 8 ) / 4 ;
cd_wr_speed_performance * wr = ( cd_wr_speed_performance * ) mm - > wr_speed_des ;
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " : Number of supported write speeds via 2A: "
< < numDesc < < endl ;
for ( unsigned int i = 0 ; i < numDesc ; + + i ) {
int s = ( int ) from2Byte ( wr [ i ] . wr_speed_supp ) ;
//
// some DVD writers report CD writing speeds here
// If that is the case we cannot rely on the reported speeds
// and need to use the values gained from GET PERFORMANCE.
//
if ( dvd & & s < 1352 ) {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " Invalid DVD speed: " < < s < < " KB/s " < < endl ;
list . clear ( ) ;
break ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " : " < < s < < " KB/s " < < endl ;
if ( dvd )
s = fixupDvdWritingSpeed ( s ) ;
// sort the list
TQValueList < int > : : iterator it = list . begin ( ) ;
while ( it ! = list . end ( ) & & * it < s )
+ + it ;
list . insert ( it , s ) ;
}
}
}
delete [ ] data ;
}
return ! list . isEmpty ( ) ;
}
bool K3bDevice : : Device : : getSupportedWriteSpeedsViaGP ( TQValueList < int > & list , bool dvd ) const
{
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( getPerformance ( & data , dataLen , 0x3 , 0x0 ) ) {
int numDesc = ( dataLen - 8 ) / 16 ;
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " : Number of supported write speeds via GET PERFORMANCE: "
< < numDesc < < endl ;
for ( int i = 0 ; i < numDesc ; + + i ) {
int s = from4Byte ( & data [ 20 + i * 16 ] ) ;
// Looks as if the code below does not make sense with most drives
// if( !( data[4+i*16] & 0x2 ) ) {
// k3bDebug() << "(K3bDevice::Device) " << blockDeviceName()
// << " No write speed: " << s << " KB/s" << endl;
// continue;
// }
if ( dvd & & s < 1352 ) {
//
// Does this ever happen?
//
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " Invalid DVD speed: " < < s < < " KB/s " < < endl ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) " < < blockDeviceName ( )
< < " : " < < s < < " KB/s " < < endl ;
if ( dvd )
s = fixupDvdWritingSpeed ( s ) ;
TQValueList < int > : : iterator it = list . begin ( ) ;
while ( it ! = list . end ( ) & & * it < s )
+ + it ;
// the speed might already have been found in the 2a modepage
if ( it = = list . end ( ) | | * it ! = s )
list . insert ( it , s ) ;
}
}
delete [ ] data ;
}
return ! list . isEmpty ( ) ;
}
int K3bDevice : : Device : : getIndex ( unsigned long lba ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
if ( ! open ( ) )
return - 1 ;
int ret = - 1 ;
//
// first try readCd
//
unsigned char readData [ 16 ] ;
: : memset ( readData , 0 , 16 ) ;
//
// The index is found in the Mode-1 Q which occupies at least 9 out of 10 successive CD frames
// It can be indentified by ADR == 1
//
// So if the current sector does not provide Mode-1 Q subchannel we try the previous.
//
if ( readCd ( readData ,
16 ,
1 , // CD-DA
0 , // no DAP
lba ,
1 ,
false ,
false ,
false ,
false ,
false ,
0 ,
2 // Q-Subchannel
) ) {
// byte 0: 4 bits CONTROL (MSB) + 4 bits ADR (LSB)
if ( ( readData [ 0 ] & 0x0f ) = = 0x1 )
ret = readData [ 2 ] ;
// search previous sector for Mode1 Q Subchannel
else if ( readCd ( readData ,
16 ,
1 , // CD-DA
0 , // no DAP
lba - 1 ,
1 ,
false ,
false ,
false ,
false ,
false ,
0 ,
2 // Q-Subchannel
) ) {
if ( ( readData [ 0 ] & 0x0f ) = = 0x1 )
ret = readData [ 2 ] ;
else
ret = - 2 ;
}
}
else {
k3bDebug ( ) < < " (K3bDevice::Device::getIndex) readCd failed. Trying seek. " < < endl ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( seek ( lba ) & & readSubChannel ( & data , dataLen , 1 , 0 ) ) {
// byte 5: 4 bits ADR (MSB) + 4 bits CONTROL (LSB)
if ( dataLen > 7 & & ( data [ 5 ] > > 4 & 0x0F ) = = 0x1 ) {
ret = data [ 7 ] ;
}
else if ( seek ( lba - 1 ) & & readSubChannel ( & data , dataLen , 1 , 0 ) ) {
if ( dataLen > 7 & & ( data [ 5 ] > > 4 & 0x0F ) = = 0x1 )
ret = data [ 7 ] ;
else
ret = - 2 ;
}
delete [ ] data ;
}
else
k3bDebug ( ) < < " (K3bDevice::Device::getIndex) seek or readSubChannel failed. " < < endl ;
}
if ( needToClose )
close ( ) ;
return ret ;
}
bool K3bDevice : : Device : : searchIndex0 ( unsigned long startSec ,
unsigned long endSec ,
long & pregapStart ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
if ( ! open ( ) )
return false ;
bool ret = false ;
int lastIndex = getIndex ( endSec ) ;
if ( lastIndex = = 0 ) {
// there is a pregap
// let's find the position where the index turns to 0
// we jump in 1 sec steps backwards until we find an index > 0
unsigned long sector = endSec ;
while ( lastIndex = = 0 & & sector > startSec ) {
sector - = 75 ;
if ( sector < startSec )
sector = startSec ;
lastIndex = getIndex ( sector ) ;
}
if ( lastIndex = = 0 ) {
k3bDebug ( ) < < " (K3bDevice::Device) warning: no index != 0 found. " < < endl ;
}
else {
// search forward to the first index = 0
while ( getIndex ( sector ) ! = 0 & & sector < endSec )
sector + + ;
pregapStart = sector ;
ret = true ;
}
}
else if ( lastIndex > 0 ) {
// no pregap
pregapStart = - 1 ;
ret = true ;
}
if ( needToClose )
close ( ) ;
return ret ;
}
bool K3bDevice : : Device : : indexScan ( K3bDevice : : Toc & toc ) const
{
// if the device is already opened we do not close it
// to allow fast multiple method calls in a row
bool needToClose = ! isOpen ( ) ;
if ( ! open ( ) )
return false ;
bool ret = true ;
for ( Toc : : iterator it = toc . begin ( ) ; it ! = toc . end ( ) ; + + it ) {
Track & track = * it ;
if ( track . type ( ) = = Track : : AUDIO ) {
track . m_indices . clear ( ) ;
long index0 = - 1 ;
if ( searchIndex0 ( track . firstSector ( ) . lba ( ) , track . lastSector ( ) . lba ( ) , index0 ) ) {
k3bDebug ( ) < < " (K3bDevice::Device) found index 0: " < < index0 < < endl ;
}
if ( index0 > 0 )
track . m_index0 = K3b : : Msf ( index0 - track . firstSector ( ) . lba ( ) ) ;
else
track . m_index0 = 0 ;
if ( index0 > 0 )
searchIndexTransitions ( track . firstSector ( ) . lba ( ) , index0 - 1 , track ) ;
else
searchIndexTransitions ( track . firstSector ( ) . lba ( ) , track . lastSector ( ) . lba ( ) , track ) ;
}
}
if ( needToClose )
close ( ) ;
return ret ;
}
void K3bDevice : : Device : : searchIndexTransitions ( long start , long end , K3bDevice : : Track & track ) const
{
k3bDebug ( ) < < " (K3bDevice::Device) searching for index transitions between "
< < start < < " and " < < end < < endl ;
int startIndex = getIndex ( start ) ;
int endIndex = getIndex ( end ) ;
if ( startIndex < 0 | | endIndex < 0 ) {
k3bDebug ( ) < < " (K3bDevice::Device) could not retrieve index values. " < < endl ;
}
else {
k3bDebug ( ) < < " (K3bDevice::Device) indices: " < < start < < " - " < < startIndex
< < " and " < < end < < " - " < < endIndex < < endl ;
if ( startIndex ! = endIndex ) {
if ( start + 1 = = end ) {
k3bDebug ( ) < < " (K3bDevice::Device) found index transition: " < < endIndex < < " " < < end < < endl ;
track . m_indices . resize ( endIndex ) ;
// we save the index relative to the first sector
track . m_indices [ endIndex - 1 ] = K3b : : Msf ( end ) - track . firstSector ( ) ;
}
else {
searchIndexTransitions ( start , start + ( end - start ) / 2 , track ) ;
searchIndexTransitions ( start + ( end - start ) / 2 , end , track ) ;
}
}
}
}
int K3bDevice : : Device : : copyrightProtectionSystemType ( ) const
{
unsigned char * dvdheader = 0 ;
unsigned int dataLen = 0 ;
if ( readDvdStructure ( & dvdheader , dataLen , 0x1 ) ) {
int ret = - 1 ;
if ( dataLen > = 6 )
ret = dvdheader [ 4 ] ;
delete [ ] dvdheader ;
return ret ;
}
else
return - 1 ;
}
bool K3bDevice : : Device : : getNextWritableAdress ( unsigned int & lastSessionStart , unsigned int & nextWritableAdress ) const
{
bool success = false ;
// FIXME: add CD media handling
int m = mediaType ( ) ;
if ( m & MEDIA_DVD_ALL ) {
// DVD+RW always returns complete
if ( m & ( K3bDevice : : MEDIA_DVD_PLUS_RW | K3bDevice : : MEDIA_DVD_RW_OVWR ) )
return false ;
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDiscInformation ( & data , dataLen ) ) {
disc_info_t * inf = ( disc_info_t * ) data ;
//
// The state of the last session has to be "empty" (0x0) or "incomplete" (0x1)
// The procedure here is taken from the dvd+rw-tools
//
if ( ! ( inf - > border & 0x2 ) ) {
// the incomplete track number is the first track in the last session (the empty session)
int nextTrack = inf - > first_track_l | inf - > first_track_m < < 8 ;
unsigned char * trackData = 0 ;
unsigned int trackDataLen = 0 ;
// Read start address of the incomplete track
if ( readTrackInformation ( & trackData , trackDataLen , 0x1 , nextTrack ) ) {
nextWritableAdress = from4Byte ( & trackData [ 8 ] ) ;
delete [ ] trackData ;
// Read start address of the first track in the last session
if ( readTocPmaAtip ( & trackData , trackDataLen , 0x1 , false , 0x0 ) ) {
lastSessionStart = from4Byte ( & trackData [ 8 ] ) ;
delete [ ] trackData ;
success = true ;
}
}
}
}
delete [ ] data ;
}
return success ;
}
int K3bDevice : : Device : : nextWritableAddress ( ) const
{
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
int nwa = - 1 ;
if ( readDiscInformation ( & data , dataLen ) ) {
disc_info_t * inf = ( disc_info_t * ) data ;
//
// The state of the last session has to be "empty" (0x0) or "incomplete" (0x1)
// The procedure here is taken from the dvd+rw-tools and wodim
//
if ( ! ( inf - > border & 0x2 ) ) {
// the incomplete track number is the first track in the last session (the empty session)
int nextTrack = inf - > first_track_l | inf - > first_track_m < < 8 ;
unsigned char * trackData = 0 ;
unsigned int trackDataLen = 0 ;
// Read start address of the incomplete track
if ( readTrackInformation ( & trackData , trackDataLen , 0x1 , nextTrack ) ) {
nwa = from4Byte ( & trackData [ 8 ] ) ;
delete [ ] trackData ;
}
// Read start address of the invisible track
else if ( readTrackInformation ( & trackData , trackDataLen , 0x1 , 0xff ) ) {
nwa = from4Byte ( & trackData [ 8 ] ) ;
delete [ ] trackData ;
}
}
delete [ ] data ;
}
return nwa ;
}
TQCString K3bDevice : : Device : : mediaId ( int mediaType ) const
{
TQCString id ;
if ( mediaType & MEDIA_CD_ALL ) {
// FIXME:
}
else if ( mediaType & MEDIA_DVD_MINUS_ALL ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDvdStructure ( & data , dataLen , 0x0E ) ) {
if ( data [ 4 + 16 ] = = 3 & & data [ 4 + 24 ] = = 4 ) {
id . sprintf ( " %6.6s%-6.6s " , data + 4 + 17 , data + 4 + 25 ) ;
}
delete [ ] data ;
}
}
else if ( mediaType & MEDIA_DVD_PLUS_ALL ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDvdStructure ( & data , dataLen , 0x11 ) | |
readDvdStructure ( & data , dataLen , 0x0 ) ) {
id . sprintf ( " %8.8s/%3.3s " , data + 23 , data + 31 ) ;
delete [ ] data ;
}
}
else if ( mediaType & MEDIA_BD_ALL ) {
unsigned char * data = 0 ;
unsigned int dataLen = 0 ;
if ( readDiscStructure ( & data , dataLen , 1 , 0 ) ) {
if ( data [ 4 + 0 ] = = ' D ' & & data [ 4 + 1 ] = = ' I ' )
id . sprintf ( " %6.6s/%-3.3s " , data + 4 + 100 , data + 4 + 106 ) ;
delete [ ] data ;
}
}
return id ;
}
// int K3bDevice::Device::ioctl( int request, ... ) const
// {
// int r = -1;
// #if defined(Q_OS_LINUX) || defined(Q_OS_NETBSD)
// d->mutex.lock();
// va_list ap;
// va_start( ap, request );
// r = ::ioctl( d->deviceFd, request, ap );
// va_end( ap );
// d->mutex.unlock();
// #endif
// return r;
// }
void K3bDevice : : Device : : usageLock ( ) const
{
d - > mutex . lock ( ) ;
}
void K3bDevice : : Device : : usageUnlock ( ) const
{
d - > mutex . unlock ( ) ;
}