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k3bdevice.cpp

/*
 *
 * $Id: k3bdevice.cpp 423353 2005-06-08 06:20:40Z trueg $
 * Copyright (C) 2003 Sebastian Trueg <trueg@k3b.org>
 *
 * This file is part of the K3b project.
 * Copyright (C) 1998-2004 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 <qstringlist.h>
#include <qfile.h>
#include <qglobal.h>
#include <qvaluevector.h>

#include <kdebug.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>


#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 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
  };


#ifdef Q_OS_LINUX
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 );
  kdDebug() << "(K3bDevice::Device) resmgr open: " << fd << endl;
#endif

  if( fd < 0 )
    fd = ::open( name, flags );

  if( fd < 0 ) {
    kdDebug() << "(K3bDevice::Device) Error: could not open device " 
            << name << ( write ? "for writing" : "for reading" ) << 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()
    : deviceType(0),
      supportedProfiles(0),
#ifdef Q_OS_LINUX
      deviceFd(-1),
#endif
#ifdef Q_OS_FREEBSD
      cam(0),
#endif
      burnfree(false) {
  }

  int deviceType;
  int supportedProfiles;
  QString mountPoint;
  QString mountDeviceName;
  QStringList allNodes;
#ifdef Q_OS_LINUX
  int deviceFd;
#endif
#ifdef Q_OS_FREEBSD
  struct cam_device *cam;
#endif
  bool openedReadWrite;
  bool burnfree;
};


00168 K3bDevice::Device::Device( const QString& devname )
  : m_bus(-1),
    m_target(-1),
    m_lun(-1),
    m_writeModes(0),
    m_automount(false)
{
  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;
}


00197 bool K3bDevice::Device::init( bool bCheckWritingModes )
{
  kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": init()" << endl;

  //
  // they all should read CD-ROM.
  //
  d->deviceType = DEVICE_CD_ROM;

  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_INQUIRY;
  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 = QString::fromLocal8Bit( (char*)(inq->vendor), 8 ).stripWhiteSpace();
    m_description = QString::fromLocal8Bit( (char*)(inq->product), 16 ).stripWhiteSpace();
    m_version = QString::fromLocal8Bit( (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();

  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 ) {
    kdDebug() << "Error while retrieving capabilities." << endl;
    close();
    return false;
  }

  d->deviceType |= DEVICE_CD_ROM;

  if (drivetype & CDC_CD_R)
    d->deviceType |= DEVICE_CD_R;
  if (drivetype & CDC_CD_RW)
    d->deviceType |= DEVICE_CD_RW;
  if (drivetype & CDC_DVD_R)
    d->deviceType |= DEVICE_DVD_R;
  if (drivetype & CDC_DVD_RAM)
    d->deviceType |= DEVICE_DVD_RAM;
  if (drivetype & CDC_DVD)
    d->deviceType |= DEVICE_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->deviceType = DEVICE_CD_ROM|DEVICE_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->deviceType |= CDROM|CDR;
      m_maxWriteSpeed = 6;
      m_maxReadSpeed = 24;
      m_bufferSize = 1302;
      d->burnfree = false;
    }
    if( description().startsWith("CD-R58S") ) {
      m_writeModes |= TAO;
      d->deviceType |= CDROM|CDR;
      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->deviceType = DEVICE_CD_ROM|DEVICE_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->deviceType = DEVICE_CD_ROM|DEVICE_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->deviceType |= DEVICE_CD_ROM|DEVICE_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->deviceType = DEVICE_CD_ROM|DEVICE_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->deviceType = DEVICE_CD_ROM|DEVICE_CD_R;
      m_maxWriteSpeed = 2;
      m_maxReadSpeed = 6;
      m_bufferSize = 1024;
      d->burnfree = false;
    }
  }
}


00416 K3bDevice::Interface K3bDevice::Device::interfaceType()
{
  if( m_bus != -1 && m_target != -1 && m_lun != -1 )
    return SCSI;
  else
    return IDE;
}


00425 bool K3bDevice::Device::dao() const
{
  return m_writeModes & WRITINGMODE_SAO;
}


00431 bool K3bDevice::Device::supportsRawWriting() const
{
  return( writingModes() & (WRITINGMODE_RAW|WRITINGMODE_RAW_R16|WRITINGMODE_RAW_R96P|WRITINGMODE_RAW_R96R) );
}


00437 bool K3bDevice::Device::writesCd() const
{
  return ( d->deviceType & DEVICE_CD_R ) && ( m_writeModes & WRITINGMODE_TAO );
}


00443 bool K3bDevice::Device::burner() const
{
  return ( writesCd() || writesDvd() );
}


00449 bool K3bDevice::Device::writesCdrw() const
{
  return d->deviceType & DEVICE_CD_RW;
}


00455 bool K3bDevice::Device::writesDvd() const
{
  return ( writesDvdPlus() || writesDvdMinus() );
}


00461 bool K3bDevice::Device::writesDvdPlus() const
{
  return d->deviceType & (DEVICE_DVD_PLUS_R|DEVICE_DVD_PLUS_RW);
}


00467 bool K3bDevice::Device::writesDvdMinus() const
{
  return d->deviceType & (DEVICE_DVD_R|DEVICE_DVD_RW);
}


00473 bool K3bDevice::Device::readsDvd() const
{
  return d->deviceType & (DEVICE_DVD_ROM|DEVICE_DVD_R|DEVICE_DVD_RAM|DEVICE_DVD_PLUS_R);
}


00479 int K3bDevice::Device::type() const
{
  return d->deviceType;
}


00485 const QString& K3bDevice::Device::devicename() const
{
  return blockDeviceName();
}


00491 QString K3bDevice::Device::busTargetLun() const
{
  return QString("%1,%2,%3").arg(m_bus).arg(m_target).arg(m_lun);
}


00497 int K3bDevice::Device::cdTextCapable() const
{
  if( cdrdaoDriver() == "auto" )
    return 0;
  else
    return m_cdTextCapable;
}


00506 void K3bDevice::Device::setCdTextCapability( bool b )
{
  m_cdTextCapable = ( b ? 1 : 2 );
}


void K3bDevice::Device::setMountPoint( const QString& mp )
{
  d->mountPoint = mp;
}

void K3bDevice::Device::setMountDevice( const QString& md )
{
  d->mountDeviceName = md;
}


00523 const QString& K3bDevice::Device::mountDevice() const
{
  return d->mountDeviceName;
}


00529 const QString& K3bDevice::Device::mountPoint() const
{
  return d->mountPoint;
}



00536 bool K3bDevice::Device::burnproof() const
{
  return burnfree();
}


00542 bool K3bDevice::Device::burnfree() const
{
  return d->burnfree;
}


00548 bool K3bDevice::Device::isDVD() const
{
  if( readsDvd() )
    return( dvdMediaType() != MEDIA_UNKNOWN );
  else
    return false;
}


00557 int K3bDevice::Device::isEmpty() const
{
  // if the device is already opened we do not close it
  // to allow fast multible 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;
  int dataLen = 0;

  if( readDiscInfo( &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;
}


00600 K3b::Msf K3bDevice::Device::discSize() const
{
  // if the device is already opened we do not close it
  // to allow fast multible method calls in a row
  bool needToClose = !isOpen();

  K3b::Msf ret(0);
  if( !open() )
    return ret;

  unsigned char* data = 0;
  int dataLen = 0;

  if( readDiscInfo( &data, dataLen ) ) {
    disc_info_t* inf = (disc_info_t*)data;
    if ( inf->lead_out_m != 0xFF && inf->lead_out_s != 0xFF && inf->lead_out_f != 0xFF ) {
      ret = K3b::Msf( inf->lead_out_m, inf->lead_out_s, inf->lead_out_f );
      ret -= 150;
    }

    delete [] data;
  }

  if( ret == 0 ) {
    kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
            << "READ DISC INFORMATION failed. getting disk size via toc." << endl;
    Toc toc = readToc();
    ret = toc.lastSector();
  }

  if( needToClose )
    close();

  return ret;
}


00637 K3b::Msf K3bDevice::Device::remainingSize() const
{
  K3b::Msf ret, size;
  bool empty = false;
  bool appendable = false;

  unsigned char* data = 0;
  int dataLen = 0;

  if( readDiscInfo( &data, dataLen ) ) {
    disc_info_t* inf = (disc_info_t*)data;
    if ( inf->lead_in_m != 0xFF && inf->lead_in_s != 0xFF && inf->lead_in_f != 0xFF ) {
      ret = K3b::Msf( inf->lead_in_m, inf->lead_in_s, inf->lead_in_f );
    }
    if ( inf->lead_out_m != 0xFF && inf->lead_out_s != 0xFF && inf->lead_out_f != 0xFF ) {
      size = K3b::Msf( inf->lead_out_m, inf->lead_out_s, inf->lead_out_f );
    }

    empty = !inf->status;
    appendable = ( inf->status == 1 );

    delete [] data;
  }
  else
    return 0;

  if( empty )
    return size - 150;
  else if( appendable )
    return size - ret - 4650;
  else
    return 0;
}

00671 int K3bDevice::Device::numSessions() const
{
  //
  // 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 :()
  //

  //
  // 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* dat = 0;
  int len = 0;
  if( readTocPmaAtip( &dat, len, 1, 0, 0 ) ) {
    ret = dat[3];

    delete [] dat;
  }
  else {
    kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": could not get session info !" << endl;
  }

  return ret;
}


00704 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;
}



00755 int K3bDevice::Device::getTrackDataMode( const K3bDevice::Track& track ) const
{
  return getDataMode( track.firstSector() );
}


00761 K3bDevice::Toc K3bDevice::Device::readToc() const
{
  // if the device is already opened we do not close it
  // to allow fast multible method calls in a row
  bool needToClose = !isOpen();

  Toc toc;

  if( !open() )
    return toc;

  if( isDVD() ) {
    int mediaType = dvdMediaType();
    //
    // 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 )
      mediaType = MEDIA_DVD_ROM;

    // FIXME: add DVD-R Dual Layer

   switch( mediaType ) {

    case MEDIA_DVD_ROM:
    case MEDIA_DVD_RW_OVWR:
    case MEDIA_DVD_PLUS_RW:
      {
//    unsigned char* data = 0;
//    int dataLen = 0;
//    if( readTrackInformation( &data, dataLen, 0x1, 0x1 ) ) {
//      track_info_t* trackInfo = (track_info_t*)data;

//      Track track;
//      track.m_firstSector = 0;
//      track.m_lastSector = from4Byte( trackInfo->track_size ) - 1;
//      track.m_session = 1;
//      track.m_type = Track::DATA;
//      track.m_mode = Track::DVD;
//      track.m_copyPermitted = ( mediaType != MEDIA_DVD_ROM );
//      track.m_preEmphasis = ( mediaType != MEDIA_DVD_ROM );

//      delete [] data;

//      //
//      // There seem to be devices that report a bogus track length here...
//      // In that case we just fall through :(
//      // Maybe we should try readFormattedToc here and do this check there
//      //
//      if( track.length() > 1 ) {
//        toc.append( track );          
//        break;
//      }
//    }
//    else
//      kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
//              << "READ TRACK INFORMATION for toc failed." << endl;

// FIXME: why not use this for all cases. In the end we always do a readFormattedToc anyway...
      if( !readFormattedToc( toc, true ) ) {
        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 = ( mediaType != MEDIA_DVD_ROM );
          track.m_preEmphasis = ( mediaType != MEDIA_DVD_ROM );
          
          toc.append( track );
          
          break;
        }
        else
          kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
                  << "READ CAPACITY for toc failed." << endl;
      }
      else
        break;
      }

      // fallthrough...

    case MEDIA_DVD_R:
    case MEDIA_DVD_R_DL:
    case MEDIA_DVD_R_DL_SEQ:
    case MEDIA_DVD_R_DL_JUMP:
    case MEDIA_DVD_R_SEQ:
      // multisession possible
      readFormattedToc( toc, true );
      break;

    case MEDIA_DVD_RW:
    case MEDIA_DVD_RW_SEQ:
      // is multisession possible?
      readFormattedToc( toc, true );
      break;

    case MEDIA_DVD_PLUS_R:
    case MEDIA_DVD_PLUS_R_DL:
      //
      // a DVD+R disk may have multible 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 refers to the incomplete fragment (track)
      // READ TOC/PMA/ATIP: form 0 refers to all closed sessions
      //                    form 1 refers to the last closed session
      //
      readFormattedToc( toc, true );
      break;

    case MEDIA_DVD_RAM:
      kdDebug() << "(K3bDevice::readDvdToc) no dvdram support" << endl;
      break;
    default:
      kdDebug() << "(K3bDevice::readDvdToc) no dvd." << endl;
    }
  }
  else {
    bool success = readRawToc( toc );
    if( !success ) {
      success = readFormattedToc( toc );

#ifdef Q_OS_LINUX
      if( !success ) {
      kdDebug() << "(K3bDevice::Device) MMC READ TOC failed. falling back to cdrom.h." << endl;
      readTocLinux(toc);
      }
#endif

      if( success )
      fixupToc( toc );
    }
  }

  if( needToClose )
    close();

  return toc;
}


00910 void K3bDevice::Device::readIsrcMcn( K3bDevice::Toc& toc ) const
{
  // read MCN and ISRC of all tracks
  QCString mcn;
  if( readMcn( mcn ) ) {
    toc.setMcn( mcn );
    kdDebug() << "(K3bDevice::Device) found MCN: " << mcn << endl;
  }
  else
    kdDebug() << "(K3bDevice::Device) no MCN found." << endl;

  for( unsigned int i = 1; i <= toc.count(); ++i ) {
    QCString isrc;
    if( toc[i-1].type() == Track::AUDIO ) {
      if( readIsrc( i, isrc ) ) {
      kdDebug() << "(K3bDevice::Device) found ISRC for track " << i << ": " << isrc << endl;
      toc[i-1].setIsrc( isrc );
      }
      else
      kdDebug() << "(K3bDevice::Device) no ISRC found for track " << i << endl;
    }
  }
}


bool K3bDevice::Device::readFormattedToc( K3bDevice::Toc& toc, bool dvd ) const
{
  // if the device is already opened we do not close it
  // to allow fast multible method calls in a row
  bool needToClose = !isOpen();

  bool success = false;

  toc.clear();

  unsigned char* data = 0;
  int dataLen = 0;
  if( readTocPmaAtip( &data, dataLen, 0, 0, 1 ) ) {

    if( dataLen < 4 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": formatted toc data too small." << endl;
    }
    else if( dataLen != ( (int)sizeof(toc_track_descriptor) * ((int)data[3]+1) ) + 4 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": invalid formatted toc data length: "
            << (dataLen-2) << endl;
    }
    else {
      int lastTrack = data[3];
      toc_track_descriptor* td = (toc_track_descriptor*)&data[4];
      for( int i = 0; i < lastTrack; ++i ) {

      Track track;
      unsigned int control = 0;

      //
      // In case READ TRACK INFORMATION failes:
      // 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;

      unsigned char* trackData = 0;
      int trackDataLen = 0;
      if( readTrackInformation( &trackData, trackDataLen, 1, i+1 ) ) {
        track_info_t* trackInfo = (track_info_t*)trackData;

        track.m_firstSector = from4Byte( trackInfo->track_start );

        // There are drives that return 0 track length here!
        if( from4Byte( trackInfo->track_size ) > 0 )
          track.m_lastSector = track.m_firstSector + from4Byte( trackInfo->track_size ) - 1;

        track.m_session = (int)(trackInfo->session_number_m<<8 & 0xf0 |
                          trackInfo->session_number_l & 0x0f);  //FIXME: is this BCD?

        control = trackInfo->track_mode;

        delete [] trackData;
      }

      if( dvd ) {
        track.m_type = Track::DATA;
        track.m_mode = Track::DVD;
      }
      else {
        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;
  }


  if( needToClose )
    close();

  return success;
}


01021 bool K3bDevice::Device::readRawToc( K3bDevice::Toc& toc ) const
{
  // if the device is already opened we do not close it
  // to allow fast multible 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;
    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
      //
      kdDebug() << "Session |  ADR   | CONTROL|  TNO   | POINT  |  Min   |  Sec   | Frame  |  Zero  |  PMIN  |  PSEC  | PFRAME |" << endl;
      for( int i = 0; i < (dataLen-4)/(int)sizeof(toc_raw_track_descriptor); ++i ) {
        QString s;
        s += QString( " %1 |" ).arg( (int)tr[i].session_number, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].adr, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].control, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].tno, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].point, 6, 16 );
        s += QString( " %1 |" ).arg( (int)tr[i].min, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].sec, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].frame, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].zero, 6, 16 );
        s += QString( " %1 |" ).arg( (int)tr[i].p_min, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].p_sec, 6 );
        s += QString( " %1 |" ).arg( (int)tr[i].p_frame, 6 );
        kdDebug() << 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( int i = 0; i < (dataLen-4)/(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;
        }
      }

      // set the last track's last sector
      if( !toc.isEmpty() )
        toc[toc.count()-1].m_lastSector = sessionLeadOut - 1;
      }
      else
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " empty raw toc." << endl;

      delete [] data;
    }
  }

  if( needToClose )
    close();

  return success;
}


01149 int K3bDevice::Device::rawTocDataWithBcdValues( unsigned char* data, 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( int i = 0; i < (dataLen-4)/(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( int i = 0; i < (dataLen-4)/(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( int i = 0; i < (dataLen-4)/(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 ) {
    kdDebug() << "(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, false ) ) {
      for( int i = 0; i < (dataLen-4)/(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 )
    kdDebug() << "(K3bDevice::Device) found invalid bcd values. No bcd toc." << endl;
  if( notHex )
    kdDebug() << "(K3bDevice::Device) found invalid hex values. No hex toc." << endl;

  if( notBcd == notHex ) {
    kdDebug() << "(K3bDevice::Device) unable to determine if hex or bcd." << endl;
    return -1;
  }
  else if( notBcd )
    return 0;
  else
    return 1;
}


01295 K3bDevice::CdText K3bDevice::Device::readCdText() const
{
  // if the device is already opened we do not close it
  // to allow fast multible method calls in a row
  bool needToClose = !isOpen();

  K3bDevice::CdText textData;

  if( open() ) {
    unsigned char* data = 0;
    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 multible method calls in a row
  bool needToClose = !isOpen();

  bool success = true;

  toc.clear();

  struct cdrom_tochdr tochdr;
  struct cdrom_tocentry tocentry;

  if( open() ) {
    //
    // CDROMREADTOCHDR ioctl returns:
    // cdth_trk0: First Track Number
    // cdth_trk1: Last Track Number
    //
    if( ::ioctl(d->deviceFd,CDROMREADTOCHDR,&tochdr) ) {
      kdDebug() << "(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) ) {
          kdDebug() << "(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;

  return success;
}
#endif // Q_OS_LINUX


01423 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 ) {
    kdDebug() << "(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;
    int dataLen = 0;
    if( readTocPmaAtip( &data, dataLen, 1, false, 0 ) ) {

      //
      // data[6]    - first track number in last complete session
      // data[8-11] - start adress of first track in last session
      //

      toc[(unsigned int)data[6]-2].m_lastSector = from4Byte( &data[8] ) - 11400 - 1;

      delete [] data;
      success = true;
    }
    else
      kdDebug() << "(K3bDevice::Device) FIXUP TOC failed." << endl;
  }

  return success;
}


01466 bool K3bDevice::Device::block( bool b ) const
{
  ScsiCommand cmd( this );
  cmd[0] = MMC_PREVENT_ALLOW_MEDIUM_REMOVAL;
  if( b )
    cmd[4] = 0x01;
  int r = cmd.transport();

  if( r )
    kdDebug() << "(K3bDevice::Device) MMC ALLOW MEDIA REMOVAL failed." << endl;

  return ( r == 0 );
}

01480 bool K3bDevice::Device::rewritable() const
{
  unsigned char* data = 0;
  int dataLen = 0;

  if( readDiscInfo( &data, dataLen ) ) {
    disc_info_t* inf = (disc_info_t*)data;
    bool e = inf->erasable;

    delete [] data;

    return e;
  }
  else
    return false;
}

01497 bool K3bDevice::Device::eject() const
{
  ScsiCommand cmd( this );
  cmd[0] = MMC_START_STOP_UNIT;

  // Since all other eject methods I saw also start the unit before ejecting
  // we do it also although I don't know why...
  cmd[4] = 0x1;      // Start unit
  cmd.transport();

  cmd[4] = 0x2;    // LoEj = 1, Start = 0

  return !cmd.transport();
}


01513 bool K3bDevice::Device::load() const
{
  ScsiCommand cmd( this );
  cmd[0] = MMC_START_STOP_UNIT;
  cmd[4] = 0x3;    // LoEj = 1, Start = 1
  return !cmd.transport();
}


01522 void K3bDevice::Device::addDeviceNode( const QString& n )
{
  if( !d->allNodes.contains( n ) )
    d->allNodes.append( n );
}


01529 const QStringList& K3bDevice::Device::deviceNodes() const
{
  return d->allNodes;
}


01535 K3bDevice::Device::Handle K3bDevice::Device::handle() const
{
#ifdef Q_OS_FREEBSD
  return d->cam;
#else
  return d->deviceFd;
#endif
}


01545 bool K3bDevice::Device::open( bool write ) const
{
  if( d->openedReadWrite != write )
    close();

  d->openedReadWrite = write;

#ifdef Q_OS_FREEBSD
  if( !d->cam ) {
    d->cam = cam_open_pass (m_passDevice.latin1(), O_RDWR,0 /* NULL */);
    kdDebug() << "(K3bDevice::openDevice) open device " << m_passDevice
            << ((d->cam)?" succeeded.":" failed.") << endl;
  }
  return (d->cam != 0);
#endif
#ifdef Q_OS_LINUX
  if( d->deviceFd == -1 )
    d->deviceFd = openDevice( QFile::encodeName(devicename()), write );

  return ( d->deviceFd != -1 );
#endif
}


01569 void K3bDevice::Device::close() const
{
#ifdef Q_OS_FREEBSD
  if( d->cam ) {
    cam_close_device(d->cam);
    d->cam = 0;
  }
#endif
#ifdef Q_OS_LINUX
  if( d->deviceFd != -1 ) {
    ::close( d->deviceFd );
    d->deviceFd = -1;
  }
#endif
}


01586 bool K3bDevice::Device::isOpen() const
{
#ifdef Q_OS_FREEBSD
  return d->cam;
#endif
#ifdef Q_OS_LINUX
  return ( d->deviceFd != -1 );
#endif
}


01597 int K3bDevice::Device::supportedProfiles() const
{
  return d->supportedProfiles;
}


01603 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;

  if( cmd.transport( TR_DIR_READ, profileBuf, 8 ) ) {
    kdDebug() << "(K3bDevice::Device) GET_CONFIGURATION failed." << endl;

    return MEDIA_UNKNOWN;
  }
  else {
    short profile = from2Byte( &profileBuf[6] );
    switch (profile) {
    case 0x00: return MEDIA_NONE;
    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 0x08: return MEDIA_CD_ROM;
    case 0x09: return MEDIA_CD_R;
    case 0x0A: return MEDIA_CD_RW;
    default: return MEDIA_UNKNOWN;
    }
  }
}


01641 K3bDevice::DiskInfo K3bDevice::Device::diskInfo() const
{
  DiskInfo inf;
  inf.m_diskState = STATE_UNKNOWN;

  // if the device is already opened we do not close it
  // to allow fast multible method calls in a row
  bool needToClose = !isOpen();

  if( open() ) {

    unsigned char* data = 0;
    int dataLen = 0;

//     //
//     // Set writing mode to WRITINGMODE_TAO.
//     // In WRITINGMODE_RAW writing mode we do not get the values we want.
//     //
//     if( modeSense( &data, dataLen, 0x05 ) ) {
//       wr_param_page_05* mp = (struct wr_param_page_05*)(data+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;

//       mp->write_type = 0x01;  // WRITINGMODE_TAO
//       mp->track_mode = 4;     // MMC-4 says: 5, cdrecord uses 4 ???
//       mp->dbtype = 8;         // Mode 1

//       if( !modeSelect( data, dataLen, 1, 0 ) ) {
//    kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
//            << ": modeSelect 0x05 failed!" << endl;
//       }

//       delete [] data;
//     }
//     else
//       kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
//          << ": modeSense 0x05 failed!" << endl;


    //
    // The first thing to do should be: checking if a media is loaded
    // We do this with requesting the current profile. If it is 0 no media
    // should be loaded. On an error we just go on.
    //
    if( !testUnitReady() ) {
      // no disk or tray open
      inf.m_diskState = STATE_NO_MEDIA;
      inf.m_mediaType = MEDIA_NONE;
    }
    else {
      int profile = currentProfile();
      if( profile == MEDIA_NONE ) {
      inf.m_diskState = STATE_NO_MEDIA;
      inf.m_mediaType = MEDIA_NONE;
      }
      inf.m_currentProfile = profile;
    }

    if( inf.diskState() != STATE_NO_MEDIA ) {

      if( readDiscInfo( &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 0x00:
        inf.m_lastSessionState = STATE_EMPTY;
        break;
      case 0x01:
        inf.m_lastSessionState = STATE_INCOMPLETE;
        break;
      case 0x11:
        inf.m_lastSessionState = STATE_COMPLETE;
        break;
      default:
        inf.m_lastSessionState = STATE_UNKNOWN;
        break;
      }

      inf.m_bgFormatState = dInf->bg_f_status&0x3;

      inf.m_numTitles = (dInf->last_track_l & 0xff) | (dInf->last_track_m<<8 & 0xff00);
      if( inf.diskState() == STATE_EMPTY )
        inf.m_numTitles = 0;
      else if( inf.diskState() == STATE_INCOMPLETE )
        inf.m_numTitles--;  // do not count the invisible track

      inf.m_rewritable = dInf->erasable;

      //
      // This is the Last Possible Lead-Out Start Adress 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;
      }



      //
      // The mediatype needs to be set
      //
      inf.m_mediaType = dvdMediaType();

      if( inf.m_mediaType == MEDIA_UNKNOWN ) {
      // 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;
      }
      else {
      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] );

        kdDebug() << "First sec data area: " << sda.toString()
                << " (LBA " << QString::number(sda.lba())
                << ") (" << QString::number(sda.mode1Bytes()) << " Bytes) ("
                << KIO::convertSize(sda.mode1Bytes()) << ")" << endl;
        kdDebug() << "Last sec data area: " << eda.toString()
                << " (LBA " << QString::number(eda.lba())
                << ") (" << QString::number(eda.mode1Bytes()) << " Bytes) ("
                << KIO::convertSize(eda.mode1Bytes()) << ")" << endl;
        kdDebug() << "Last sec layer 1: " << ea0.toString()
                << " (LBA " << QString::number(ea0.lba())
                << ") (" << QString::number(ea0.mode1Bytes()) << " Bytes) ("
                << KIO::convertSize(ea0.mode1Bytes()) << ")" << endl;


        K3b::Msf da0 = ea0 - sda + 1;
        K3b::Msf da1 = eda - ea0;
        kdDebug() << "Layer 1 length: " << da0.toString()
                << " (LBA " << QString::number(da0.lba())
                << ") (" << QString::number(da0.mode1Bytes()) << " Bytes) ("
                << KIO::convertSize(da0.mode1Bytes()) << ")" << endl;
        kdDebug() << "Layer 2 length: " << da1.toString()
                << " (LBA " << QString::number(da1.lba())
                << ") (" << QString::number(da1.mode1Bytes()) << " Bytes) ("
                << KIO::convertSize(da1.mode1Bytes()) << ")" << endl;

        inf.m_numLayers = ((data[6]&0x60) == 0 ? 1 : 2);
        inf.m_firstLayerSize = da0;

        delete [] data;
      }
      else {
        kdDebug() << "(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
        kdDebug() << "(K3bDevice::Device) could not get session info via READ TOC/PMA/ATIP." << endl;
      }
      else
      inf.m_numSessions = 0;


      //
      // 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:
      //
      // 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 ) ) {
          kdDebug() << "(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 {
          kdDebug() << "(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 ) ) {
        kdDebug() << "(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
          kdDebug() << "(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 ) ) {
          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.numTitles() ) ) {
          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.numTitles()+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
          kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
                  << " READ CAPACITY for DVD-R failed." << endl;
      }

      break;

      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;
        if( inf.empty() )
          inf.m_capacity = from4Byte( trackInfo->track_size );
        else
          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( inf.bgFormatState() != BG_FORMAT_NONE )
          inf.m_usedCapacity = currentMax;
        else
          inf.m_usedCapacity = 0;
            }
      else
        kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
                << " READ FORMAT CAPACITIES for DVD+RW failed." << endl;

      break;
      }

      case MEDIA_DVD_RW_OVWR:
      inf.m_numSessions = 1;
      if( readTrackInformation( &data, dataLen, 0x1, 0x1 ) ) {
        track_info_t* trackInfo = (track_info_t*)data;
        inf.m_usedCapacity = inf.m_capacity = from4Byte( trackInfo->track_size );
        delete [] data;
      }
      break;
      }



//      // read next writable adress
//      if( readTrackInformation( &data, dataLen, 0x1, 0xff ) ) {
//        track_info_t* trackInfo = (track_info_t*)data;
//        if( trackInfo->nwa_v ) {
//          K3b::Msf nwa = from4Byte( trackInfo->next_writable );
//          kdDebug() << "(K3bDevice::Device) Next writale adress valid: " << nwa.toString() << endl;
//          inf.m_remaining = inf.m_capacity - nwa - 150;  // reserve space for pre-gap after lead-in (?)
//        }
//        else {
//          kdDebug() << "(K3bDevice::Device) Next writale adress invalid." << endl;
//        }

//        delete [] data;
//      }
//    }
//       }
//       else {
//    K3b::Msf readCap;
//    if( readCapacity( readCap ) ) {
//      kdDebug() << "(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_capacity = readCap + 1;
//    }
//    else {
//      kdDebug() << "(K3bDevice::Device) READ CAPACITY failed. Falling back to READ TRACK INFO." << endl;

//      if( readTrackInformation( &data, dataLen, 0x1, 0xff ) ) {
//        track_info_t* trackInfo = (track_info_t*)data;
//        inf.m_capacity = from4Byte( trackInfo->track_start );

//        delete [] data;
//      }
//      else {
//        kdDebug() << "(K3bDevice::Device) Falling back to readToc." << endl;
//        inf.m_capacity = readToc().length();
//      }
//    }
//       }
    }

    if( needToClose )
      close();
  }

  return inf;
}


02091 int K3bDevice::Device::cdMediaType() const
{
  int m = MEDIA_UNKNOWN;

  unsigned char* data = 0;
  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;
}


02112 int K3bDevice::Device::dvdMediaType() const
{
  int m = MEDIA_UNKNOWN;

  if( readsDvd() ) {
    m = currentProfile();
    if( !(m & (MEDIA_WRITABLE_DVD|MEDIA_DVD_ROM)) )
      m = MEDIA_UNKNOWN;  // no profile information or CD media

    if( m & (MEDIA_UNKNOWN|MEDIA_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;
      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 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: 
        kdDebug() << "(K3bDevice::Device) unknown dvd media type: " << QString::number(data[4]&0xF0, 8) << endl;
        break; // unknown
      }

      delete [] data;
      }
    }
  }

  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;
  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;


  //
  // CD writing features
  //
  cmd[2] = FEATURE_CD_MASTERING>>8;
  cmd[3] = FEATURE_CD_MASTERING;
  cmd[8] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(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->deviceType |= DEVICE_CD_R;
      if( p->cd_rw )
      d->deviceType |= DEVICE_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] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(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->deviceType |= DEVICE_CD_R;
      if( p->cd_rw )
      d->deviceType |= DEVICE_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] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "CD-RW Media Write Support" << endl;
      d->deviceType |= (DEVICE_CD_R|DEVICE_CD_RW);
    }
  }


  //
  // DVD-ROM
  //
  cmd[2] = FEATURE_DVD_READ>>8;
  cmd[3] = FEATURE_DVD_READ;
  cmd[8] = 12;
  if( !cmd.transport( TR_DIR_READ, header, 12 ) ) {
    int len = from4Byte( header );
    if( len == 8 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "DVD Read" << endl;
      d->deviceType |= DEVICE_DVD_ROM;
    }
  }


  //
  // DVD+R(W) writing features
  //
  cmd[2] = FEATURE_DVD_PLUS_R>>8;
  cmd[3] = FEATURE_DVD_PLUS_R;
  cmd[8] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "DVD+R" << endl;
      if( header[12] & 0x1 )
      d->deviceType |= DEVICE_DVD_PLUS_R;
    }
  }

  cmd[2] = FEATURE_DVD_PLUS_RW>>8;
  cmd[3] = FEATURE_DVD_PLUS_RW;
  cmd[8] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(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];
      if( p->write )
      d->deviceType |= DEVICE_DVD_PLUS_RW;
    }
  }


  cmd[2] = FEATURE_DVD_PLUS_R_DOUBLE_LAYER>>8;
  cmd[3] = FEATURE_DVD_PLUS_R_DOUBLE_LAYER;
  cmd[8] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "DVD+R Double Layer" << endl;
      if( header[12] & 0x1 )
      d->deviceType |= DEVICE_DVD_PLUS_R_DL;
    }
  }



  //
  // 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 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(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 : 3;
      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 reserved2 : 3;
      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->deviceType |= DEVICE_DVD_R;
      if( p->dvd_rw )
      d->deviceType |= DEVICE_DVD_RW;

      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 ) ) {
    int len = from4Byte( header );
    if( len == 12 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "Rigid Restricted Overwrite" << endl;
      m_writeModes |= WRITINGMODE_RES_OVWR;
    }
  }


  //
  // DVD-R Dual Layer Layer
  //
  cmd[2] = FEATURE_LAYER_JUMP_RECORDING>>8;
  cmd[3] = FEATURE_LAYER_JUMP_RECORDING;
  cmd[8] = 16;
  if( !cmd.transport( TR_DIR_READ, header, 16 ) ) {
    // Now the jump feature is longer than 8 bytes but we don't need the link sizes.
    int len = from4Byte( header );
    if( len >= 12 ) {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " feature: " << "Layer Jump Recording" << endl;
      d->deviceType |= DEVICE_DVD_R_DL;
      m_writeModes |= WRITINGMODE_LAYER_JUMP;
    }
  }


  //
  // 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 ) ) {
    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 0x10:
          d->supportedProfiles |= MEDIA_DVD_ROM;
          d->deviceType |= DEVICE_DVD_ROM;
          break;
        case 0x11:
          d->supportedProfiles |= MEDIA_DVD_R_SEQ;
          d->deviceType |= DEVICE_DVD_R;
          break;
        case 0x12:
          d->supportedProfiles |= MEDIA_DVD_RAM;
          d->deviceType |= DEVICE_DVD_RAM;
          break;
        case 0x13:
          d->supportedProfiles |= MEDIA_DVD_RW_OVWR;
          d->deviceType |= DEVICE_DVD_RW;
          break;
        case 0x14:
          d->supportedProfiles |= MEDIA_DVD_RW_SEQ;
          d->deviceType |= DEVICE_DVD_RW;
          break;
        case 0x15:
          d->supportedProfiles |= MEDIA_DVD_R_DL_SEQ;
          d->deviceType |= (DEVICE_DVD_R|DEVICE_DVD_R_DL);
          break;
        case 0x16:
          d->supportedProfiles |= MEDIA_DVD_R_DL_JUMP;
          d->deviceType |= (DEVICE_DVD_R|DEVICE_DVD_R_DL);
          break;
        case 0x1A:
          d->supportedProfiles |= MEDIA_DVD_PLUS_RW;
          d->deviceType |= DEVICE_DVD_PLUS_RW;
          break;
        case 0x1B: 
          d->supportedProfiles |= MEDIA_DVD_PLUS_R;
          d->deviceType |= DEVICE_DVD_PLUS_R;
          break;
        case 0x2B:
          d->supportedProfiles |= MEDIA_DVD_PLUS_R_DL;
          d->deviceType |= (DEVICE_DVD_PLUS_R|DEVICE_DVD_PLUS_R_DL);
          break;
        case 0x08:
          d->supportedProfiles |= MEDIA_CD_ROM;
          d->deviceType |= DEVICE_CD_ROM;
          break;
        case 0x09:
          d->supportedProfiles |= MEDIA_CD_R;
          d->deviceType |= DEVICE_CD_R;
          break;
        case 0x0A:
          d->supportedProfiles |= MEDIA_CD_RW;
          d->deviceType |= DEVICE_CD_RW;
          break;
        default:
          kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << " unknown profile: "
                  << profile << endl;
        }
      }
      }
    }
  }
}


void K3bDevice::Device::checkFor2AFeatures()
{
  unsigned char* mm_cap_buffer = 0;
  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->deviceType |= DEVICE_CD_R;
    else
      d->deviceType &= ~DEVICE_CD_R;

    if( mm_p->cd_rw_write )
      d->deviceType |= DEVICE_CD_RW;
    else
      d->deviceType &= ~DEVICE_CD_RW;

    if( mm_p->dvd_r_write )
      d->deviceType |= DEVICE_DVD_R;
    else
      d->deviceType &= ~DEVICE_DVD_R;

    if( mm_p->dvd_rom_read || mm_p->dvd_r_read )
      d->deviceType |= DEVICE_DVD_ROM;

    m_maxReadSpeed = from2Byte(mm_p->max_read_speed);
    m_bufferSize = from2Byte( mm_p->buffer_size );

    delete [] mm_cap_buffer;
  }
  else {
    kdDebug() << "(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 multible method calls in a row
  bool needToClose = !isOpen();

  if( !open() )
    return;

  // header size is 8
  unsigned char* buffer = 0;
  int dataLen = 0;

  if( !modeSense( &buffer, dataLen, 0x05 ) ) {
    kdDebug() << "(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
    kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": Missing modepage 0x05 data." << endl
            << "(K3bDevice::Device) " << blockDeviceName() << ": Cannot check write modes." << endl;
  }
  else {
    kdDebug() << "(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

    //    kdDebug() << "(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
    //

    kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": checking for TAO" << endl;
    if( modeSelect( buffer, dataLen, 1, 0 ) ) {
      m_writeModes |= WRITINGMODE_TAO;
      d->deviceType |= DEVICE_CD_R;

      // WRITINGMODE_SAO
      mp->write_type = 0x02; // Session-at-once

      kdDebug() << "(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;
//       }

      kdDebug() << "(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;
      }

      kdDebug() << "(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;
      }

      kdDebug() << "(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;
      }

      kdDebug() << "(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;
      }

      kdDebug() << "(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 {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName() << ": modeSelect with WRITINGMODE_TAO failed. No writer" << endl;
    }


    delete [] buffer;
  }

  if( needToClose )
    close();
}


02709 int K3bDevice::Device::determineMaximalWriteSpeed() const
{
  int ret = 0;
  unsigned char* data = 0;
  int dataLen = 0;

  QValueList<int> list = determineSupportedWriteSpeeds();
  if( !list.isEmpty() ) {
    for( QValueList<int>::iterator it = list.begin(); it != list.end(); ++it )
      ret = QMAX( ret, *it );
  }
  else 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;
  else
    return m_maxWriteSpeed;
}


02737 QValueList<int> K3bDevice::Device::determineSupportedWriteSpeeds() const
{
  QValueList<int> ret;

  if( burner() ) {
    bool dvd = isDVD();

    //
    // Tests with all my drives resulted in 2A for CD and GET PERFORMANCE for DVD media
    // as the valid method of speed detection.
    //
    if( !dvd ) {
      if( !getSupportedWriteSpeedsVia2A( ret, false ) )
      getSupportedWriteSpeedsViaGP( ret, false );
    }
    else {
      if( !getSupportedWriteSpeedsViaGP( ret, true ) )
      getSupportedWriteSpeedsVia2A( ret, true );
    }
  }

  return ret;
}


bool K3bDevice::Device::getSupportedWriteSpeedsVia2A( QValueList<int>& list, bool dvd ) const
{
  unsigned char* data = 0;
  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
      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;

      kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
            << ":  Number of supported write speeds via 2A: "
            << numDesc << endl;


      for( int i = 0; i < numDesc; ++i ) {
      int s = 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 ) {
        kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
                << " Invalid DVD speed: " << s << " KB/s" << endl;
        list.clear();
        break;
      }
      else {
        kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
                << " : " << s << " KB/s" << endl;

        if( dvd )
          s = fixupDvdWritingSpeed( s );

        // sort the list
        QValueList<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( QValueList<int>& list, bool dvd ) const
{
  unsigned char* data = 0;
  int dataLen = 0;
  if( getPerformance( &data, dataLen, 0x3, 0x0 ) ) {
    int numDesc = (dataLen-8)/16;
    kdDebug() << "(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] );
      if( dvd && s < 1352 ) {
      //
      // Does this ever happen?
      //
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
              << " Invalid DVD speed: " << s << " KB/s" << endl;
      }
      else {
      kdDebug() << "(K3bDevice::Device) " << blockDeviceName()
              << " : " << s << " KB/s" << endl;

      if( dvd )
        s = fixupDvdWritingSpeed( s );

      QValueList<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();
}


02865 int K3bDevice::Device::getIndex( unsigned long lba ) const
{
  // if the device is already opened we do not close it
  // to allow fast multible 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 {
    kdDebug() << "(K3bDevice::Device::getIndex) readCd failed. Trying seek." << endl;

    unsigned char* data = 0;
    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
      kdDebug() << "(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 multible 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 ) {
      kdDebug() << "(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;
}


03010 bool K3bDevice::Device::indexScan( K3bDevice::Toc& toc ) const
{
  // if the device is already opened we do not close it
  // to allow fast multible 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 ) ) {
      kdDebug() << "(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
{
  kdDebug() << "(K3bDevice::Device) searching for index transitions betweeen "
          << start << " and " << end << endl;
  int startIndex = getIndex( start );
  int endIndex = getIndex( end );

  if( startIndex < 0 || endIndex < 0 ) {
    kdDebug() << "(K3bDevice::Device) could not retrieve index values." << endl;
  }

  kdDebug() << "(K3bDevice::Device) indices: " << start << " - " << startIndex
          << " and " << end << " - " << endIndex << endl;

  if( startIndex != endIndex ) {
    if( start+1 == end ) {
      kdDebug() << "(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 );
    }
  }
}


03077 int K3bDevice::Device::copyrightProtectionSystemType() const
{
  unsigned char* dvdheader = 0;
  int dataLen = 0;
  if( readDvdStructure( &dvdheader, dataLen, 0x1 ) ) {
    int ret = -1;
    if( dataLen >= 6 )
      ret = dvdheader[4];
    delete [] dvdheader;
    return ret;
  }
  else
    return -1;
}

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