  CD-Writing HOWTO
  Winfried Trmper <winni@xpilot.org>
  v2.8.8, 19 September 1999

  This document explains how to write CD-ROMs under Linux.
  ______________________________________________________________________

  Table of Contents


  1. Introduction

     1.1 Copyright, license and terms of usage
     1.2 Contacting me
     1.3 Suggested readings
     1.4 Terminology ... lasers at maximum ... fire!
     1.5 Supported CD-writers
     1.6 Supported "features"
     1.7 Mailing Lists

  2. Setup the Linux-system for writing CD-ROMs

     2.1 Set up the Linux kernel
        2.1.1 Special hints up to kernel version 2.2.9
        2.1.2 Special hints with kernel version 2.2.10 and later
        2.1.3 Special hints for the 2.0.x-series
     2.2 Hardware and device files
        2.2.1 IDE/ATAPI CD-writers
        2.2.2 SCSI CD-writers
           2.2.2.1 Generic SCSI devices
        2.2.3 CD-writers for the parallel port
     2.3 Get the user software for burning CD-Rs
        2.3.1 Command line utilities
        2.3.2 Graphical user interfaces (optional)

  3. Burning CD-Rs

     3.1 Writing CD-ROMs (pure data)
        3.1.1 Creating an image of the later CD-ROM
        3.1.2 Test the CD-image
        3.1.3 Write the CD-image to a CD
     3.2 Writing audio CDs
        3.2.1 DAO
     3.3 Mixed mode CD-ROMs

  4. Dear Winfried,...

     4.1 How sensitive is the burning process?
     4.2 Has file fragmentation a bad impact on the throughput?
     4.3 Is it possible to store the CD-image on an UMSDOS-filesystem?
     4.4 Isn't there some way to get around the ISO-9660 limitations?
     4.5 How to read the tracks from audio CDs?
     4.6 How to probe for SCSI devices after boot?
     4.7 Is it possible to make a 1:1 copy of a data CD?
     4.8 Can Linux read Joliet CD-ROMs?
     4.9 How do I read/mount CD-ROMs with the CD-writer?
     4.10 How to put even more data on the CD-R?
     4.11 How to make bootable CD-ROMs?
     4.12 How to make CD-ROMs writable somehow?
     4.13 Is it possible to use several writers at once?
     4.14 Which media is the best?
     4.15 What about Solaris, *BSD, AIX, HP-UX, etc.?
     4.16 Where to store the local configuration permanently?
     4.17 How can the CD-info be retrieved?
     4.18 What about re-writing
     4.19 How to create a multi-session CD?

  5. Troubleshooting

     5.1 It doesn't work: under Linux
     5.2 Error-message: No read access for 'dev=0,6,0'.
     5.3 It doesn't work: under DOS and friends
     5.4 SCSI errors during the burning phase

  6. Credits

  ______________________________________________________________________

  11..  IInnttrroodduuccttiioonn

  Many people use Linux to burn CD-ROMs, because it is reliable and
  easy. No bluescreens while burning and no headaches about getting the
  right combination of hard- and software. It just works once properly
  set up. The CD-writing HOWTO explains the setup,  how to put data on
  the media and gives some interesting applications kindly submitted by
  the readers.


  11..11..  CCooppyyrriigghhtt,, lliicceennssee aanndd tteerrmmss ooff uussaaggee

  Copyright Winfried Trmper 1996,1997,1998,1999. All rights reserved.

  Redistribution and use, with or without modification, are permitted
  provided that the name of the author may not be used to endorse or
  promote products derived from this software without specific prior
  written permission. In this sense, translations are welcome and need
  not to be authorized by me.

  TThhee aauutthhoorr ddiissccllaaiimmss aallll wwaarrrraannttiieess wwiitthh rreeggaarrdd ttoo tthhiiss ddooccuummeenntt,,
  iinncclluuddiinngg aallll iimmpplliieedd wwaarrrraannttiieess ooff mmeerrcchhaannttaabbiilliittyy aanndd ffiittnneessss ffoorr aa
  cceerrttaaiinn ppuurrppoossee;; iinn nnoo eevveenntt sshhaallll tthhee aauutthhoorr bbee lliiaabbllee ffoorr aannyy
  ssppeecciiaall,, iinnddiirreecctt oorr ccoonnsseeqquueennttiiaall ddaammaaggeess oorr aannyy ddaammaaggeess wwhhaattssooeevveerr
  rreessuullttiinngg ffrroomm lloossss ooff uussee,, ddaattaa oorr pprrooffiittss,, wwhheetthheerr iinn aann aaccttiioonn ooff
  ccoonnttrraacctt,, nneegglliiggeennccee oorr ootthheerr ttoorrttiioouuss aaccttiioonn,, aarriissiinngg oouutt ooff oorr iinn
  ccoonnnneeccttiioonn wwiitthh tthhee uussee ooff tthhiiss ddooccuummeenntt..

  Short: read and use at your own risk. No money-back guarantee.


  11..22..  CCoonnttaaccttiinngg mmee

  I get several hundred e-mails concerning the CD-Writing HOWTO each
  year.  So please be patient with me, as I cannot always answer within
  hours.  However, I read everything immediatly and put you on my CDR-
  queue. Before you ask a question, please make sure you are aware of
  the the newest version of this document; it is always available from
  <http://www.guug.de/~winni/linux/>.


  11..33..  SSuuggggeesstteedd rreeaaddiinnggss


  The CD-R FAQ <http://www.fadden.com/cdrfaq/> is a general FAQ about
  compact-disk recordables (CD-R), CD-writers and the required software.
  As most CD-writers can be used to read CD-ROMs, too, you may want to
  read the _L_i_n_u_x _C_D_-_R_O_M _H_O_W_T_O, the _L_i_n_u_x _S_C_S_I _H_O_W_T_O and the _L_i_n_u_x _K_e_r_n_e_l
  _H_O_W_T_O.


  11..44..  TTeerrmmiinnoollooggyy ...... llaasseerrss aatt mmaaxxiimmuumm ...... ffiirree!!


  _C_D_-_R_O_M stands for _C_o_m_p_a_c_t _D_i_s_c _R_e_a_d _O_n_l_y _M_e_m_o_r_y, a storage medium
  utilizing an optical laser to sense microscopic pits on a silver
  shimmering disk. The silver shimmering comes from an aluminized layer
  which is the carrier. The pits represent the bits of the information
  and are so petite that some billions of them fit on the disc. Thus a
  CD is a mass-storage medium.
  The term _C_D_-_R is a short form of _C_D_-_R_O_M _r_e_c_o_r_d_a_b_l_e and refers to a CD
  that doesn't have those "microscopic pits" on its surface.  Thus it is
  empty. Instead of the silver aluminium layer a CD-R has a special film
  (colored) into which pits can be burned. This is done by giving the
  laser which normally just senses the pits a little bit more power so
  it burns the pits. This action can only be taken oonnccee on a CD-R.
  Although you can leave out some areas for later writing, creating a so
  called _m_u_l_t_i_-_s_e_s_s_i_o_n _C_D.

  The _C_D_-_R_O_M _r_e_w_r_i_t_a_b_l_e (short: _C_D_-_R_W) was developed to work around the
  limitation of CD-R media. With a CD-RW burner the laser can not even
  burn pits into the media, but it can also melt the media back into its
  original state. This is possible, because the laser does not really
  burn holes into the media, which would get lost in a puff of smoke.  A
  decent analogy for the technique is an ice-hockey game: by driving
  over the ice, a players (laser) leave scratches in it. The pattern in
  the ice (media) is a recording of what happened on the ice during one
  round.  In between the periods of the game, the Zamboni cleaning car
  drives over the ice and fills the scratches by melting the very top
  layer of the ice.  (Zamboni is _t_h_e brand name for cleaning cars in
  ice-hockey stadiums).  This way the pattern on the ice is cleared and
  a new round can begin. The scientific term for (evaporating,
  condensing,) melting and freezing is "phase change", thus the name
  "phase change devices" for CD-RW-writers.

  This HOWTO deals with the task of writing CD-Rs and CD-RWs.  Welcome
  on board, captain.


  11..55..  SSuuppppoorrtteedd CCDD--wwrriitteerrss


  You can safely assume that most newer IDE/ATAPI- and SCSI-writers work
  under Linux.  Newer drives are mostly MMC-compliant and therefore
  supported.  If the SCSI-version of a particular writer works, the
  IDE/ATAPI-version will most likely work and vice versa.  However, some
  people want to get a warm and fuzzy feeling by reading the exact model
  of their writer in some sort of compatibilty list.  That is the reason
  why I didn't throw the following list out of the HOWTO:

  Here is a comprehensive summary of drives reported to work with
  cdrecord:


  Acer:           CDRW 6206A
  BTC:            BCE 621E (IDE)
  Compro:         CW-7502, CW-7502B
  Creative:       RW 4224E, MK 4211
  Dysan:          CRW-1622
  Elite:          Elite b444.41
  Grundig:        CDR 100 IPW
  Guillemot:      Maxi CD-R 4X/8X
  HP:             SureStore 4020i, SureStore 6020i,
                  C4324, C4325
                  CD-writer+ 7100, CD-writer+ 7200i, CD-writer+ 7500e,
                  CD-writer+ 8100i, CD-writer+ 8110i,
  Hi-Val:         CDD 2242, CDD-3610,
  JVC:            XR-W2001, XR-W2010, XR-W2042, R-2626
  Kodak:          PCD 200, PCD 225, PCD 260, PCD 600
  Matsushita:     CW-7502
  Memorex:        CRW-620, CRW-1622, CRW-2224
  Microboards:    PlayWrite 2000, PlayWrite 4000RW, PlayWrite 4001RW
  MicroNet:       MasterCD Plus 4x4, MasterCD Plus 4x6
  Mitsubishi:     CDRW-226
  Mitsumi:        CR-2401-TS, CR-2600 TE,  CR-2801 TE,
                  CR-4801 TE, CR-4802 TE
  Nomai:          680.RW
  Olympus:        CDS 615E, CDS 620E
  Optima:         DisKovery 650 CD-R
  OTI:            CDRW 965, CDRW 975 (Socrates 1.0)
  Panasonic:      CW-7502, CW-7582
  Philips:        CDD-521/10, CDD-522
                  CDD-2000, CDD-2600, CDD-3600, CDD-3610
                  Omniwriter 26, Omniwriter 26A
  Plasmon:        CDR 480, CDR 4220, RF-4100, RF-4102, CDR 4400
  Plextor:        CDR PX-24 CS, PX-412 C, PX-R412 C
                  PX-R810Ti, PleXwriter 412C
  Procom:         PCDR 4
  Ricoh:          RO-1420C+, MP 1420C, MP 6200S, MP 6201S, MP 7040A
  Samsung:        SW-204
  Sanyo:          CRD-R24S
  Smart and
  Friendly:       CD-RW226, CD-R1002, CD-R1002/PRO, CD-R1004,
                  CD-R2004, CD-R2006 PLUS, CD-R2006 PRO,
                  CD-R4000, CD-R4006, CD-R4012
  Sony:           CDU 920S, CDU 924, CDU 926S, CDU-928E,
                  CDU 948S, CDRX 100E, CDRX 120E
  Taiyo Yuden:    EW-50
  TEAC:           CD-R50S, CD-R55S, CDR-55S, CDR-56S-400
  Traxdata:       CRW 2260, CDR 4120, CDR 4120 Pro, CDRW 4260,
  Turtle Beach:   2040R
  WPI (Wearnes):  CDRW-622, CDR-632P
  YAMAHA:         CDR-100, CDR 102, CDR-200, CDR-200t, CDR-200tx
                  CDR-400, CDR-400c, CDR-400t, CDR-400tx, CDR-400Atx
                  CRW-2260, CRW-2260t,
                  CRW-4250tx, CRW-4260 t, CRW-4260 tx, CRW-4261,
                  CRW-4416 S


  The detailed list of models which have been reported to work or not to
  work under various Unix-like operating systems is available online
  from <http://www.guug.de:8080/cgi-bin/winni/lsc.pl>.


  If your hardware isn't supported you can still use Linux to create an
  image of the CD. You may wish to do so because most burning software
  for DOS does not deal with RockRidge-extensions. In a second step, you
  can use DOS or Macintosh software to write the image to the CD-R.


  11..66..  SSuuppppoorrtteedd ""ffeeaattuurreess""

  There are two classes of utilities for writing CD-Rs: the hardware
  drivers and the data-formatters. The hardware drivers support the
  following features:


       Supported Feature   cdwrite-2.1     cdrecord-1.6    cdrdao
       ----------------------------------------------------------
       IDE/ATAPI           no              yes             yes
       Parallel Port       no              yes             yes
       CD-RW               no              yes             yes
       Audio CD            yes             yes             yes
       Data CD-ROM         yes             yes             partial
       Multisession        partial         yes             no
       TAO (Track at once) yes             yes             yes
       DAO (Disk at once)  no              no              yes


  cdwrite is unmaintained software referenced only for completeness.
  Please use cdrecord instead, as it supports a wider range of hardware
  and has significantly more features. The main benefit of cdrdao is the
  ability to create audio CDs without two seconds of silence between the
  tracks (writing in disk-at-once mode).

  The tools classified as "data-formatters" organize the data on the
  media ("put a filesystem on it").


       Feature         mkisofs         mkhybrid
       ----------------------------------------
       ISO 9660        yes             yes
       RockRidge       yes             yes
       El Torito       yes             yes
       HFS             no              yes
       Joliet          yes             yes
       Multisession    yes             yes


  The most obvious difference between the ISO 9660 filesystem compared
  to the Extended-2 filesystem is: you can't modify files once they are
  written in ISO 9660. Other limitations of the ISO-9660-filesystem
  include:


  +o  only 8 levels of sub-directories allowed (counted from the top-
     level directory of the CD)

  +o  maximum length for filenames: 32 characters

  +o  650 MB capacity

  _R_o_c_k_R_i_d_g_e is an extension to allow longer filenames and a deeper
  directory hierarchy for the ISO-9660 filesystem. When reading a CD-ROM
  with RockRidge extensions under Linux, all the known properties of
  files like owner, group, permissions, symbolic links appear (feels
  like a Unix filesystem).  These extensions are not available when
  reading the CD-ROM under DOS or the Windows-family of operating
  systems.

  _E_l _T_o_r_i_t_o can be used to produce bootable CD-ROMs. In order to use
  this feature, the BIOS of your PC must support it. Roughly speaking,
  the first 1.44 (or 2.88 if supported) Mbytes of the CD-ROM contains a
  floppy-disk image supplied by you. This image is treated like a floppy
  by the BIOS and booted from. (As a consequence, while booting from
  this virtual floppy, your original drive A: (/dev/fd0) may not be
  accessible.)

  _H_F_S lets a Macintosh read the CD-ROM as if it were an HFS volume (the
  native filesystem for MacOS).

  _J_o_l_i_e_t brings long filenames (among other things) to newer variants of
  Windows (95, 98, NT). However, the author knows of no tool that allows
  long filenames under plain DOS or Windows 3.11.

  Section 2.8 lists the availability of the mentioned software.


  11..77..  MMaaiilliinngg LLiissttss

  If you want to join the development team (with the intention to
  actively _h_e_l_p them), send e-mail to cdwrite-request@other.debian.org
  and put the word subscribe in body of the message.


  22..  SSeettuupp tthhee LLiinnuuxx--ssyysstteemm ffoorr wwrriittiinngg CCDD--RROOMMss


  This section applies to all types of CD-writers, including devices for
  SCSI, IDE/ATAPI and the parallel port. The later two types of devices
  require compatibility drivers, which make them appear as if they were
  real SCSI devices. On the one side such a unifying strategy is easy
  ("everything is SCSI"), because on the application level you can share
  your knowledge with other users regardless of their kind of CD-writer.
  On the other side, you have to reconfigure applications like audio CD
  players or the mount utility to reflect the change of the driver name.
  For example, if you accessed your ATAPI CD-writer through the device
  file /dev/hdc before, you will have to access it through /dev/scd0
  after activating the SCSI compatibility drivers.

  Once you succeed setting up your hardware and the rest of your Linux-
  system, the command cdrecord -scanbus shows you a list of devices on
  your SCSI busses.  The goal of this section is to guide you in setting
  up your Linux-system, so that you finally end up seeing something
  like:


  shell> cdrecord -scanbus
  Cdrecord release 1.7a1 Copyright (C) 1995-1998 Jrg Schilling
  scsibus0:
            0) 'Quantum ' 'XP34300         ' 'F76D' Disk
            1) 'SEAGATE ' 'ST11200N        ' '8334' Disk
            2) *
            3) 'TOSHIBA ' 'MK537FB/        ' '6258' Disk
            4) 'WANGTEK ' '5150ES SCSI 36  ' 'ESB6' Removable Tape
            5) 'EXABYTE ' 'EXB-8500-85QUE  ' '0428' Removable Tape
            6) 'TOSHIBA ' 'XM-3401TASUNSLCD' '3593' Removable CD-ROM
            7) *
  scsibus1:
          100) 'Quantum ' 'XP31070W        ' 'L912' Disk
          101) *
          102) *
          103) 'TEAC    ' 'CD-R55S         ' '1.0H' Removable CD-ROM
          104) 'MATSHITA' 'CD-R   CW-7502  ' '4.02' Removable CD-ROM
          105) *
          106) 'YAMAHA  ' 'CDR400t         ' '1.0d' Removable CD-ROM
          107) *


  The example was provided by Jrg Schilling and shows a total of four
  CD-writers. Please note that -scanbus also reports other devices, e.g.
  regular CD-ROMs and hard disk drives. The last column gives the SCSI
  description of the device, from which you cannot clearly distinguish
  ordinary CD-ROM drives from those with burning capability. But the
  product identification (middle column) often has hints about the
  feature in form of a R, -R or -RW.


  22..11..  SSeett uupp tthhee LLiinnuuxx kkeerrnneell


  The Linux kernel can be equipped with drivers for various features.
  You can compile the drivers into the kernel image statically or you
  can compile them as a module for on-demand loading. The last method is
  preferred for drivers not essential for bringing your Linux-system
  into life, because your kernel will be smaller and faster then.
  However, some drivers are essential for the system to come up and you
  shouldn't compile them as a module. Example: if your system lives on
  an IDE hard disk, you must have the driver for IDE hard disks in the
  kernel -- not as a module.

  There are three different types of CD-writers: SCSI, IDE/ATAPI and
  external writers that work through the parallel port. The table shows
  how to configure the Linux kernel for those hardware types. The first
  column of the table is the section of the kernel configuration menu,
  where you can find the setting. The second column is the description
  of the feature (taken from the kernel configuration menu, too). The
  third column gives the name of the resulting module. The columns named
  SCSI, IDE and PP contain the necessary options for the associated
  hardware (PP = parallel port).


  Sect.  Description                 Module   SCSI  IDE   PP
  ------------------------------------------------------------
  BLOCK  Enhanced IDE/MFM/RLL...                     Y
  BLOCK  IDE/ATAPI CDROM             ide-cd          M
  BLOCK  SCSI hostadaptor emulation  ide-scsi        M
  BLOCK  Loopback device             loop       M    M     M

  PARIDE Parallel port IDE device    paride               Y/M
  PARIDE Parallel port ATAPI CD-ROMs                       M
  PARIDE Parallel port generic ATAPI                       M
  PARIDE (select a low-level driver)                       Y

  SCSI   SCSI support                scsi_mod  Y/M  Y/M
  SCSI   SCSI CD-ROM support         sr_mod    Y/M  Y/M
  SCSI     Enable vendor-specific               Y    Y
  SCSI   SCSI generic support        sg        Y/M  Y/M
  SCSI   (select a low-level driver)            Y

  FS     ISO 9660 CDROM filesystem   iso9660    Y    Y     Y
  FS     Microsoft Joliet cdrom...   joliet    M/Y  M/Y   M/Y


  Y stands for yes and means you should put the beast into the kernel.
  M stands for module and means you should or must compile this feature
  as a module.  Y/M gives you the option to decide between either (order
  indicates choices with less potential problems). Empty settings don't
  need to be modified and not changing them increases the chance that
  the resulting kernel will work for you (if it did before...).
  Especially in environments where SCSI and ATAPI devices are mixed, you
  better build most things as modules.

  Compiling loopback device is optional.  It allows you to test the
  image before writing it to the media. If you want to be able to read
  CD-ROMs, you need support for the ISO 9660 filesystem. This driver
  automatically includes RockRidge Extensions. The Microsoft Joliet CD-
  ROM extensions have to be explicitely added to the ISO 9660
  filesystem. In any case, you need a low-level driver for your
  hardware. Low-level refers to the driver, which interacts directly
  with the hardware.  For SCSI and the parallel port, there are a lot of
  low-level drivers available.

  _T_o _h_a_v_e _t_h_e _m_o_d_u_l_e_s _l_o_a_d_e_d_, _y_o_u _s_h_o_u_l_d _e_i_t_h_e_r _l_i_s_t _t_h_e_m _i_n _a
  _c_o_n_f_i_g_u_r_a_t_i_o_n _f_i_l_e _l_i_k_e _/_e_t_c_/_m_o_d_u_l_e_s _o_r _r_u_n _t_h_e _d_a_e_m_o_n_s _k_e_r_n_e_l_d _o_r
  _k_m_o_d_, _w_h_i_c_h _b_o_t_h _l_o_a_d _t_h_e _r_e_q_u_i_r_e_d _m_o_d_u_l_e_s _a_u_t_o_m_a_t_i_c_a_l_l_y _f_o_r _y_o_u _w_h_e_n
  _t_h_e _k_e_r_n_e_l _s_e_e_s _a _n_e_e_d_s _f_o_r _t_h_e_m_. To make your life with modules
  easier, you can add the following lines to /etc/conf.modules:


       alias   scd0 sr_mod                  # load sr_mod upon access of scd0
       alias   scsi_hostadaptor ide-scsi    # SCSI host adaptor emulation
       options ide-cd ignore=hdb            # if /dev/hdb is your CD-writer


  The aliases provide alternate names for the same module and are not
  essential. The options provide a way to make options for module
  loading permanent, i.e. after you have sucessfully used them with
  modprobe/insmod.  To learn about different options for different
  modules, read on.


  Description                     command
  -------------------------------------------------
  Show active drivers             cat /proc/devices
  List active modules             cat /proc/modules
  List available modules          modprobe -l
  Remove a module                 modprobe -r
  Load a module manually          modprobe
  Load a module upon startup      echo "list it in /etc/modules"
                                  (please consult the docs of your distr.)
  Load modules on demand          echo "have kmod or kerneld running"


  If you need a module not available on your system, you must recompile
  and reinstall the kernel. Please read the Kernel HOWTO for more
  information on this. The most recent information about handling of
  kernel modules can be read in the Module HOWTO. If you succeed in
  building or finding the required modules, either add their names to
  /etc/modules or let an automatic facility (kmod, kerneld) load them
  for you. Consult the documentation of your Linux-distribution if you
  are unsure.

  If you are on your own, then try to install a package called "Linux
  Kernel source", which was shipped with your distribution.  Afterwards
  issue the following commands:


       cd /usr/src/linux
       make menuconfig  # follow instructions and menu
       make dep
       make zImage      # or "make bzImage"
       # insert a floppy-disk before proceding
       dd if=arch/i386/boot/zImage of=/dev/fd0
       make modules
       make modules_install


  This will produce a bootable floppy disk. If you are really clueless
  about this whole stuff, you better read other documentation like the
  Kernel HOWTO or get help from a friend before you completely mess up
  your system. Remember the kernel is the heart of the system.


  22..11..11..  SSppeecciiaall hhiinnttss uupp ttoo kkeerrnneell vveerrssiioonn 22..22..99


  Owners of ATAPI CD-writers beware: if your kernel detects your writer
  as an ATAPI device during system startup, you have no chance of
  getting it to work as a CD-writer under Linux. Once the IDE/ATAPI
  driver grabs the device, the SCSI driver (on the top of the host
  adaptor emulation) can no longer do so. Please recompile a kernel with
  the CD-ROM stuff as a module like it is shown in the table above.

  With 2.2 and above, you can control the greediness of the ide-cd
  driver with the parameter "ignore=". If you enable this, the driver
  won't grab the specified device, so it will be available when the SCSI
  host adaptor emulation is activated. Example: use "modprobe ide-cd
  ignore=hdb", if your ATAPI writer is hdb and you want the ide-scsi
  driver to treat hdb as a scsi device [usually sr0]. There is no way to
  specify this on the kernel commandline (like in 2.0).


  Up to kernel version 2.2.9, don't enable CONFIG_SCSI_MULTI_LUN ('probe
  for multiple luns')  and ide-scsi support at the same time, there is
  an ide-scsi bug that prevents this.

  Some users reported conflicts with pre-compiled binaries and the
  2.2-release. This is a problem with the Linux kernel. Possible
  solutions:

  +o  It may go away if you recompile cdrecord so that it adopts to the
     actual values in linux/include/scsi/sg.h.  These values must be the
     values of the runing kernel due to the dumb sg user interface.

  +o  It may be caused by a loadable sg driver which cannot get enough
     memory that is suitable for DMA (Kernel releases up to 2.2.5).


  22..11..22..  SSppeecciiaall hhiinnttss wwiitthh kkeerrnneell vveerrssiioonn 22..22..1100 aanndd llaatteerr


  It was reported to me that kernels from 2.2.10 onwards provide you
  with both the option from the 2.0.x-series and the option from the
  earlier 2.2.x-series. The author recommends the strategy of telling
  the kernel which device should be managed by which driver, like it is
  done in 2.0.37. The following describes that method:


  22..11..33..  SSppeecciiaall hhiinnttss ffoorr tthhee 22..00..xx--sseerriieess


  Kernels prior to 2.0.31 have several bugs and can't read the last file
  on a CD-ROM. Please upgrade to 2.0.37 or higher. For this version, the
  feature which used to be named "SCSI emulation" has been more
  accurately renamed "SCSI host adaptor emulation.

  With kernels 2.0.37 and above, you can select which driver (IDE or
  SCSI) to use for which ATAPI device. To be more precise, you can add
  the feature "SCSI hostadaptor emulation" to your kernel and activate
  the emulation for specific devices on the kernel command line (while
  booting). For example, if your CD-writer has the device file name
  /dev/hdb, then add the statement hdb=ide-scsi. The following listings
  show how to make this setting permanent through the bootmanagers LILO
  and chos.


       image=/boot/zImage-2.0.37
         label=Linux
         read-only
         append="hdb=ide-scsi"


       linux "Linux 2.0.37" {
               image=/boot/zImage-2.0.37
               cmdline= root=/dev/hda5 readonly hdb=ide-scsi
       }


  22..22..  HHaarrddwwaarree aanndd ddeevviiccee ffiilleess

  After you have installed all necessary drivers, boot the new kernel.
  It should have all the features you need for the following sections.

  [Users of devfs need not bother with the following steps of manually
  setting up device files. If you use devfs, everything will
  automagically appear in the right place.]

  Go to the /dev directory and check for _l_o_o_p_b_a_c_k _d_e_v_i_c_e_s.  It's not
  critical if you don't have these devices, but it's convenient if you
  do (see 3.5).  If you already have them, the ls command should show
  loop0-loop7:


       shell> cd /dev
       shell> ls loop*
       loop0 loop1 loop2 loop3 loop4 loop5 loop6 loop7


  If you don't have those device files, then create them by using the
  /dev/MAKEDEV script:


       shell> cd /dev/
       shell> modprobe loop   # load the module called "loop"
       shell> ./MAKEDEV loop


  The last command only succeeds if you have the loop module in your
  kernel. What you read so far about handling of loop device files can
  be applied to all other device files (sg*, pg*, hd*, ...) and is not
  explicitely mentioned again in this document.

  In case your Linux distribution does not contain the script
  /dev/MAKEDEV, then create the devices manually with this loop:


       for i in 0 1 2 3 4 5 6 7
       do
               mknod /dev/loop$i c 7 $i
       done


  22..22..11..  IIDDEE//AATTAAPPII CCDD--wwrriitteerrss


  ATAPI is an extension for IDE devices which is found in all newer IDE
  devices. The extension allows the SCSI protocol to be used on the IDE
  bus. Together with the kernel module ide-scsi, which turns your IDE-
  controller partly into a SCSI-controller, you can treat your IDE/ATAPI
  devices as if they were SCSI. So just load this module and proceed as
  if you had a SCSI writer.


  22..22..22..  SSCCSSII CCDD--wwrriitteerrss


  Please make sure that your writer is recognized by the BIOS of your
  computer. It makes no sense to proceed if your computer does not
  accept the hardware (the fact that it doesn't spit it out should not
  be interpreted as a sign of confirmation; a message on the screen is
  required).

  If you plan to connect your SCSI through the parallel port (not to
  confuse with the IDE drives for the parallel port), you need a special
  active cable and a special kernel driver. Read
  <http://www.torque.net/parport/parscsi.html> to learn more about this
  option.


  22..22..22..11..  GGeenneerriicc SSCCSSII ddeevviicceess

  The device files /dev/sd* and /dev/sr* for accessing SCSI hard disks
  and SCSI CD-ROM drives are limited to block-oriented data transfer.
  This makes them so fast and well suited for data storage. Driving the
  laser of a CD-writer is a more complicated task and requires more than
  block-oriented data transfer. To keep the sd* and sr* devices clean
  and fast, a seperate type of SCSI device was introduced, the so called
  _g_e_n_e_r_i_c _S_C_S_I _d_e_v_i_c_e_s.  As everthing can be done to SCSI hardware
  through the generic devices, they are not fixed to a certain purpose
  -- therefore the name _g_e_n_e_r_i_c.

  As true for other devices, you should find them in the /dev directory
  (by convention):


       shell> cd /dev
       shell> ls sg*
       sg0  sg1  sg2  sg3  sg4  sg5  sg6  sg7


  If you don't have those device files then create them by using the
  /dev/MAKEDEV script:


       shell> cd /dev/
       shell> ./MAKEDEV sg


  If your Linux distribution does not have the script /dev/MAKEDEV, then
  create the devices manually with this loop:


       for i in 0 1 2 3 4 5 6 7
       do
               mknod /dev/sg$i c 21 $i
       done


  22..22..33..  CCDD--wwrriitteerrss ffoorr tthhee ppaarraalllleell ppoorrtt


  I have no clue about this, sorry. Please read
  <http://www.torque.net/parport/paride.html> or your local file
  /usr/src/linux/Documentation/paride.txt.


  22..33..  GGeett tthhee uusseerr ssooffttwwaarree ffoorr bbuurrnniinngg CCDD--RRss

  A more detailed survey of tools related to produce CD-ROMs is
  available from
  <http://www.fokus.gmd.de/research/cc/glone/employees/joerg.schilling/private/cdb.html>.


  22..33..11..  CCoommmmaanndd lliinnee uuttiilliittiieess

  One of the following packages are required to generate images of CD-Rs
  (only required for data CD-ROMs):


       <ftp://tsx-11.mit.edu/pub/linux/packages/mkisofs/> (mkisofs)

       <ftp://ftp.ge.ucl.ac.uk/pub/mkhfs> (mkhybrid)


  To write images to the CD-R, you need one of the following software
  packages:


       <ftp://ftp.fokus.gmd.de/pub/unix/cdrecord/> (cdrecord)

       <http://www.ping.de/sites/daneb/cdrdao.html> (cdrdao)


  Don't trust the man page of (old) mkisofs which states you need
  version 1.5 of cdwrite. Just use cdrecord and you are fine.  Please
  note that newer versions of cdrecord ship with an enhanced version of
  mkisofs and some extra tools in the subdirectory misc/ (readcd,
  isosize) not found elsewhere.


  22..33..22..  GGrraapphhiiccaall uusseerr iinntteerrffaacceess ((ooppttiioonnaall))

  Front-ends are really front-ends under Linux. That means, you still
  have to install the command-line utilities, but you access them in a
  better looking manner.

  _X_-_C_D_-_R_o_a_s_t is a program package dedicated to easy CD creation under
  Linux. It combines command line tools like cdrecord and mkisofs into a
  nice graphical user interface.


       <http://www.fh-muenchen.de/home/ze/rz/services/pro-
       jects/xcdroast/e_overview.html>


  _B_u_r_n_I_T is a JAVA front-end to cdrecord, mksiofs and cdda2wav-0.95
  making it a complete package for burning CDs on the Unix platform. It
  is available from


  <http://sunsite.auc.dk/BurnIT/>


  _X_D_a_o_d_i_o

  This is a graphical frontend for cdrdao. Its main purpose is to make
  1:1-copies of audio CDs.


       <http://www.lrz-muenchen.de/~MarkusTschan/>


  33..  BBuurrnniinngg CCDD--RRss


       _"_I_f _t_o _s_m_o_k_e _y_o_u _t_u_r_n _I _s_h_a_l_l _n_o_t _c_e_a_s_e _t_o _f_i_d_d_l_e _w_h_i_l_e _y_o_u
       _b_u_r_n_._" (Roman emperor Nero about burning his own classic-
       CDs, AD64. He misunderstood it completely and burned Rome
       down.)


  Writing CD-ROMs consists of two steps under Linux:


  +o  packaging the desired data (files, music or both) into files with
     special formats

  +o  writing the data from the files to the CD-R with the utility
     cdrecord

  This chapter describes the steps for data and audio CDs in greater
  detail.


  33..11..  WWrriittiinngg CCDD--RROOMMss ((ppuurree ddaattaa))

  Note that collecting the data to put onto a CD usually takes longer
  than one expects. Consider that missing files cannot be added once the
  CD is written and fixated.  Also keep in mind that a certain amount of
  the free space of a CD is used for storing the information of the
  ISO-9660-filesystem (usually a few MB).  620 MB data will always fit
  on a 650 MB CD-R.


  33..11..11..  CCrreeaattiinngg aann iimmaaggee ooff tthhee llaatteerr CCDD--RROOMM

  Before any storage medium (e.g. floppy disk, hard disk or CD) can be
  used, it must get a filesystem (DOS speak: get formatted).  The
  filesystem is responsible for organizing and incorporating the files
  that should be stored on the medium.

  The usual utilities for creating filesystems on hard disk partitions
  write an empty filesystem onto them, which is then mounted and filled
  with files by the user as they need it. A writable CD is only writable
  once so if we wrote an empty filesystem to it, it would get formatted
  and remain completely empty forever. This is also true for rewritable
  media as you cannot change arbitrary sectors; you must erase their
  whole content.

  So what we need is a tool that creates the filesystem while copying
  the files to the CD. This tool is called mkisofs.  A sample usage
  looks as follows:


       mkisofs  -r   -o cd_image   private_collection/
                     `---------'   `-----------------'
                          |               |
                 write output to   take directory as input


  The option '-r' sets the permissions of all files to be public
  readable on the CD and enables RockRidge-extensions. You probably want
  to use this option unless you really know what you're doing (hint:
  without '-r' the mount point gets the permissions of
  private_collection!).

  mkisofs will try to map all filenames to the 8.3 format used by DOS to
  ensure the highest possible compatibility. In case of naming conflicts
  (different files have the same 8.3 name), numbers are used in the
  filenames and information about the chosen filename is printed via
  STDERR (usually the screen). Don't panic: Under Linux you will never
  see these 8.3 filenames because Linux makes use of the Rock Ridge
  extensions which contain the original file information (permissions,
  filename, etc.).

  Now you may wonder why the output of mkisofs is not directly sent to
  the writer device. There are three reasons:


  +o  mkisofs knows nothing about driving CD-writers.

  +o  You may want to test the image before burning it.

  +o  On slow machines it would not be reliable (see section 4.).

  There is a method to write a CD-R in one go which will be described
  below.

  One also could think of creating an extra partition and writing the
  image to that partition instead to a file. I vote against such a
  strategy because if you write to the wrong partition (due to a typo),
  you can lose your complete Linux system (read: that happened to
  me...). Furthermore, it is a waste of disk space because the CD-image
  is temporary data that can be deleted after writing the CD. However,
  using raw partitions saves you the time for deleting files of 650 MB
  size.


  33..11..22..  TTeesstt tthhee CCDD--iimmaaggee

  Linux has the ability to mount files as if they were disk partitions.
  This feature is useful to check that the directory layout and file
  access permissions of the CD image matches your wishes. Although media
  is very cheap today, the writing process is still time consuming, and
  you may at least want to save your time by doing a quick test.

  To mount the file cd_image created above on the directory /cdrom, give
  the command


       mount -t iso9660 -o ro,loop=/dev/loop0 cd_image /cdrom

  Now you can inspect the files under /cdrom -- they appear exactly as
  they were on a real CD. To umount the CD-image, just say umount
  /cdrom. (Warning: On Linux kernels prior to 2.0.31 the last file on
  /cdrom may not be fully readable. Please use a more recent kernel like
  2.0.36. The option -pad for cdrecord applies to audio CDs only and the
  option -pad for mkisofs requires a patch, which is as much work to
  apply than to upgrade to a bug-free Linux kernel.)

  Note:

       Some ancient versions of mount are not able to deal with
       loopback devices. If you have such an old version of mount,
       then upgrade your Linux-system.  Several people have already
       suggested putting information about how to get the newest
       mount utilities into this HOWTO. I always refuse this.  If
       your Linux distribution ships with an ancient mount, report
       it as a bug.  If your Linux distribution is not easily
       upgradable, report it as a bug.

       If I include all the information that is necessary to work
       around bugs in badly designed Linux distributions, this
       HOWTO would be a lot bigger and harder to read.


  33..11..33..  WWrriittee tthhee CCDD--iimmaaggee ttoo aa CCDD

  Not much more left to do. If you haven't already tried, it's a good
  time for the command


       cdrecord -scanbus


  This will tell you to which SCSI device your CD-writer is attached to.
  All other methods of guessing the information printed so nicely by
  cdrecord have been removed from the HOWTO (especially the somewhat
  dangerous naming scheme for generic SCSI devices).

  Before showing you the last command, let me warn you that CD-writers
  want to be fed with a constant stream of data because they only have
  small data buffers.  So the process of writing the CD image to the CD
  must not be interupted or a corrupt CD will result. It's easy to
  interrupt the data stream by deleting a very large file. Example: if
  you delete a previous image of 650 Mbyte size, the kernel must update
  information about 650,000 blocks on the harddisk (assuming you have a
  blocksize of 1 Kbyte for your filesystem). That takes some time and is
  very likely to slow down disk activity long enough for the data stream
  to pause for a few seconds.  However, reading mail, browsing the web,
  or even compiling a kernel generally will not affect the writing
  process (on modern machines).

  Please note that no writer can re-position its laser and continue at
  the original spot on the CD when it gets disturbed.  Therefore any
  strong vibrations or other mechanical shocks will probably destroy the
  CD you are writing.

  When you are mentally prepared, dress up in a black robe, multiply the
  SCSI-id of the CD-writer with its SCSI-revision and light as many
  candles, speak two verses of the ASR-FAQ (newsgroup
  alt.sysadmin.recovery) and finally type:

       shell> SCSI_BUS=0   # taken from listing 1 "scsibus0:"
       shell> SCSI_ID=6    # taken from listing 1 "TOSHIBA XM-3401"
       shell> SCSI_LUN=0
       shell> cdrecord -v speed=2 dev=$SCSI_BUS,$SCSI_ID,$SCSI_LUN \
                          -data  cd_image

       # same as above, but shorter:
       shell> cdrecord -v speed=2 dev=0,6,0  -data  cd_image


  For better readability, the coordinates of the writer are stored in
  three environment variables with natural names: SCSI_BUS, SCSI_ID,
  SCSI_LUN.  The option -data is not mandatory but is given to make the
  commandline comparable to the one used for writing audio CDs.

  If you use cdrecord to overwrite a CD-RW, you must add the option
  "blank=..." to erase the old content.  Please read the man page to
  learn more about the various methods to blank the CD-RW.

  In times where everybody except me owns a 400 Mhz machine, people feed
  the output of mkisofs directly into cdrecord:


       shell> IMG_SIZE=`mkisofs -R -q -print-size private_collection/  2>&1 \
       | sed -e "s/.* = //"`
       shell> echo $IMG_SIZE
       shell> [ "0$IMG_SIZE" -ne 0 ] && mkisofs -r  private_collection/  \
       |cdrecord  speed=2  dev=0,6,0
                   tsize=${IMG_SIZE}s  -data  -
       #       don't forget the s --^         ^-- read data from STDIN


  The first command is an empty run to determine the size of the image
  (you need the mkisofs from the cdrecord distribution for this to
  work). Maybe your writer does not need to know the size of the image
  to be written, so you can leave this out. The printed size must be
  passed as a tsize-parameter to cdrecord (it is stored in the
  enviroment variable IMG_SIZE). The second command is a sequence of
  mkisofs and cdrecord, coupled via a pipe.


  33..22..  WWrriittiinngg aauuddiioo CCDDss


  Writing audio CDs is very similar to the steps described above for
  data CDs. There are two main differences. One, the audio CD consists
  of audio tracks, which are organized as separate images. So if you
  want to have ten tracks on your CD, you have to make ten images. The
  other differnce is that the format of the images is not ISO-9660 (or
  whatever filesystem you prefer), but it is "16 bit stereo samples in
  PCM coding at 44100 samples/second (44.1 kHz)".

  One utility to convert your sound files into the required format is
  sox.  Its usage is straightforward:


       shell> sox  killing-my-software.wav  killing-my-software.cdr


  This command would convert the song killing-my-software from the WAV-
  format into the CDR audio-format. See the man page for sox for more
  details about formats and filename-extensions sox recognizes. Because
  the output of the conversion takes up much disk space, it was made a
  built-in feature of cdrecord for the formats WAV and AU. So as long as
  your soundfiles have the extensions .wav or .au (and the samplerate
  "stereo, 16 bit, 44.1 kHz"), you can use them as images without manual
  conversion.

  Cdrecord writes CD images as audio tracks if the option -audio is
  specified. The other options are identical to those used for writing
  data-CDs (unless you have very special requirements). These three
  examples all do the same thing, but read the tracks from different
  sound file formats:


       shell> cdrecord -v speed=2 dev=0,6,0  -audio  track1.cdr track2.cdr...
       shell> cdrecord -v speed=2 dev=0,6,0  -audio  track1.wav track2.wav...
       shell> cdrecord -v speed=2 dev=0,6,0  -audio  track1.au  track2.au...


  One notable exception are MPEG Layer 3 files, which can be converted
  to the CD format with the command "mpg123 -s track1.mp3 > track1.cdr".
  (Warning: this creates a file with a byte order which needs to be
  reversed by using the option -swab in cdrecord.)  Converting the other
  direction can be done with "8hz-mp3" for WAV-files (extract the track
  with cdda2wav from the audio CD and encode it into MP3 with 8hz-mp3).
  To create a CD-R from a whole bunch of MP3-files, you can use the
  following command sequence:


       for I in *.mp3
       do
           mpg123 -s $I | cdrecord -audio -pad -swab -nofix -
       done
       cdrecord -fix


  Depending on the speed of your machine, you may want to slow down
  writing to "speed=1" (cdrecord-Option). If you use "speed=4", your
  machine must be able to play the MP3-file at quadruple speed. mpg123
  consumes much CPU-time! If you are in doubt, try an empty run with
  -dummy (keeps the laser switched off). By doing this, you will produce
  an audio CD which has a 2 seconds of pause between audio tracks.


  33..22..11..  DDAAOO

  If you want to get rid of the pauses between the audio tracks, you
  have to use disk-at-once (DAO) recording versus the (individual)
  track-at-once (TAO) recording described above. Support for DAO is
  currently most advanced in cdrdao. Please see its homepage for
  details.

  Using the parameter read-cd, you are even able to produce 1:1 copies
  of audio CDs.


  33..33..  MMiixxeedd mmooddee CCDD--RROOMMss


  There is not much to say about this topic. Just indicate the type of
  the (subse quent) images with the options -data and -audio. Example:


       cdrecord  -v dev=0,6,0  -data  cd_image  -audio  track*.cdr


  44..  DDeeaarr WWiinnffrriieedd,,......

  This is the section usually known as "frequently asked questions with
  answers". If you have a problem with your partner, kids or dog, just
  send it in, as long as it is related to writing CD-Rs or is otherwise
  entertaining.


  44..11..  HHooww sseennssiittiivvee iiss tthhee bbuurrnniinngg pprroocceessss??

  Test it. Use the option -dummy to do an empty run of cdrecord. Do
  everything you would do otherwise and watch if the burning process
  survives.

  If you feed cdrecord directly from mkisofs, then disk intensive
  processes such as updating the _l_o_c_a_t_e database lower the maximum flow
  rate and may corrupt the CD. You better check such processes are not
  started via cron, at or anacron while you burn CD-Rs.


  44..22..  HHaass ffiillee ffrraaggmmeennttaattiioonn aa bbaadd iimmppaacctt oonn tthhee tthhrroouugghhppuutt??

  Fragmentation of files is usually so low that its impact isn't
  noticed. However, you can easily construct pathological cases of
  fragmentation, which lower the throughput of your hard disks under 100
  kbyte/second. So don't do that. :-) Yes, files on a hard disk get
  fragmented over the years. The faster, the fuller the filesystem is.
  Always leave 10% or 20% free space, and you should run fine with
  respect to writing CD-Rs.

  If you're uncertain then look at the messages printed while booting.
  The percentage of fragmentation is reported while checking the
  filesystems. You can check for this value with the very dangerous
  command


       shell> e2fsck -n  /dev/sda5        # '-n' is important!
       [stuff deleted -- ignore any errors]
       /dev/sda5: 73/12288 files (12.3% non-contiguous)


  In this example the fragmentation seems to be very high -- but there
  are only 73 very small files on the filesystem. So the value is _n_o_t
  alarming.

  There is an experimental utility called e2defrag to defragment
  extended-2 filesystems. The current version does not work reliable
  enough to use it even for private environments. If you really want to
  defragment your filesystem, make a backup copy (better: two copies),
  practise restoring the data, then create a new filesystem (that will
  destroy the old) and restore the data. This sketch is currently the
  safest technique.


  44..33..  IIss iitt ppoossssiibbllee ttoo ssttoorree tthhee CCDD--iimmaaggee oonn aann UUMMSSDDOOSS--ffiilleessyysstteemm??

  Yes. The only filesystem that isn't reliable and fast enough for
  writing CD-ROMs from is the _n_e_t_w_o_r_k _f_i_l_e_s_y_s_t_e_m (_N_F_S).  I used UMSDOS
  myself to share the disk-space between Linux and DOS/Win on a PC
  (486/66) dedicated for writing CD-ROMs.


  44..44..  IIssnn''tt tthheerree ssoommee wwaayy ttoo ggeett aarroouunndd tthhee IISSOO--99666600 lliimmiittaattiioonnss??

  Yes. You can put any filesystem you like on the CD. But other
  operating systems than Linux won't be able to deal with this CD.  Here
  goes the recipe:


  +o  Create an empty file of 650MB size.


       dd if=/dev/zero of="empty_file" bs=1024k count=650


  +o  Create an extended-2 filesystem on this file


       shell> /sbin/mke2fs  -b 2048  empty_file
       empty_file is not a block special device.
       Proceed anyway? (y,n) y


  +o  Mount this empty file through the loopback devices (you need a
     reasonable new mount for this; read above).


       mount -t ext2 -o loop=/dev/loop1 empty_file /mnt


  +o  Copy files to /mnt and umount it afterwards.

  +o  Use cdrecord on empty_file (which is no longer empty) as if it were
     an ISO-9660-image.

  If you want to make an entry in /etc/fstab for such a CD, then disable
  the checking of the device file on system startup. For example:


       /dev/cdrom  /cdrom  ext2  defaults,ro  0 0

  The first 0 means "don't include in dumps", the second (=important)
  one means "don't check for errors on startup" (fsck will fail to check
  the CD for errors).


  44..55..  HHooww ttoo rreeaadd tthhee ttrraacckkss ffrroomm aauuddiioo CCDDss??

  There are several software packages available. The newest one is
  "cdpranoia" and can be downloaded from


       <http://www.xiph.org/paranoia/>


  Or you want to try the combination of "cdda2wav" and "sox", available
  from sunsite and its mirrors:


       <ftp://sun-
       site.unc.edu/pub/Linux/apps/sound/cdrom/cdda2wav0.71.src.tar.gz>

       <ftp://sunsite.unc.edu/pub/Linux/apps/sound/convert/sox-11gamma-
       cb3.tar.gz>


  cdda2wav enables you to get a specific interval (or a whole track)
  from your audio CD and converts it into a .wav-file.  sox converts the
  WAV files back into the (audio CD) cdda-format so it can be written to
  the CD-R using cdrecord. You don't necessarily need sox if you use a
  recent version of cdrecord, because it has built-in support for .au
  and .wav files.


  44..66..  HHooww ttoo pprroobbee ffoorr SSCCSSII ddeevviicceess aafftteerr bboooott??

  The file drivers/scsi/scsi.c contains the information


       /*
        * Usage: echo "scsi add-single-device 0 1 2 3" >/proc/scsi/scsi
        * with  "0 1 2 3" replaced by your "Host Channel Id Lun".
        * Consider this feature BETA.
        *     CAUTION: This is not for hotplugging your peripherals. As
        *     SCSI was not designed for this you could damage your
        *     hardware !
        * However perhaps it is legal to switch on an
        * already connected device. It is perhaps not
        * guaranteed this device doesn't corrupt an ongoing data transfer.
        */


  Please note that this should only be used if your add SCSI devices to
  the end of the chain. Inserting new SCSI devices into an existing
  chain disturbs the naming of devices (directory /dev) and may destroy
  the complete content of your hard disk.


  44..77..  IIss iitt ppoossssiibbllee ttoo mmaakkee aa 11::11 ccooppyy ooff aa ddaattaa CCDD??

  Yes. But you should be aware of the fact that any errors while reading
  the original (due to dust or scratches) will result in a defective
  copy.  Please note that both methods will fail on audio CDs! You have
  to use cdrdao or cdda2wav on audio CDs.

  First case: you have a CD-writer and a separate CD-ROM drive. By
  issuing the command


       cdrecord -v dev=0,6,0 speed=2 -isosize /dev/scd0


  you read the data stream from the CD-ROM drive attached as /dev/scd0
  and write it directly to the CD-writer.

  Second case: you don't have a separate CD-ROM drive. In this case you
  have to use the CD-writer to read out the CD-ROM first:


       dd if=/dev/scd0 of=cdimage


  This command reads the content of the CD-ROM from the device /dev/scd0
  and writes it into the file "cdimage". The contents of this file are
  equivalent to what mkisofs produces, so you can proceede as described
  earlier in this document (which is to take the file cdimage as input
  for cdrecord).  If you want to see a progress-meter and other fancy
  stuff, then you can also use Jrg Schillings  sdd.

  In case you run into errors, then install a recent version of
  cdrecord, which ships a tool called "readcd" (found under misc/). It
  gives you the same result as dd, but reads sectors on the CD-ROM
  several times in case of errors.


  44..88..  CCaann LLiinnuuxx rreeaadd JJoolliieett CCDD--RROOMMss??

  Yes. Newer Kernels (2.0.36 and the upcoming 2.2) have built-in support
  for the joliet format. Remember you have to use both options in your
  /etc/fstab: the keywords iso9660 and joliet (later is really an
  extension).  For more details, see  <http://www-
  plateau.cs.berkeley.edu/people/chaffee/joliet.html>.


  44..99..  HHooww ddoo II rreeaadd//mmoouunntt CCDD--RROOMMss wwiitthh tthhee CCDD--wwrriitteerr??

  Just as you do with regular CD-ROM drives. No tricks at all. Note that
  you have to use the scd devices (SCSI CD-ROM) to mount CD-ROMs for
  reading, even if you have an ATAPI CD-ROM (remember you configured
  your ATAPI devices to act like SCSI). Example entry for /etc/fstab:


       /dev/scd0  /cdrom  iso9660  ro,user,noauto  0  0


  44..1100..  HHooww ttoo ppuutt eevveenn mmoorree ddaattaa oonn tthhee CCDD--RR??

  Use bzip2 instead of any other compressor like gzip or pkzip. It will
  save you up to 30% of disk-space for larger (>100kb) files. You can
  download it from


       <http://www.muraroa.demon.co.uk/>


  Instead of writing a true audio CD, you can optionally convert your
  WAV audio files into MP3 audio files and store them on a ISO-9660
  filesystem as regular files. Usually MPEG III give you a compression
  of 1:10. Of course, most CD-players are not able to read files... this
  is the drawback. On the other hand, why not running the music for your
  next party from hard disk? 18 Gbyte are enough for 3000-4000 titles.
  :-)

  A software MPEG III-encoder is available from

       <http://www.stud.ifi.uio.no/~larsi/other/8hz-
       mp3-cheng.tar.gz>


  A MPEG III-player is available from

       <http://homepages.uni-tuebingen.de/stu-
       dent/michael.hipp/mpg123/>


  For recorded speech, you may want to try to reduce its size using
  shorten or "GSM lossy speech compression":


       <ftp://svr-ftp.eng.cam.ac.uk/pub/comp.speech/>

       <http://kbs.cs.tu-berlin.de/~jutta/toast.html>


  44..1111..  HHooww ttoo mmaakkee bboooottaabbllee CCDD--RROOMMss??

  You must have an 1.44 MB bootable floppy-disk. Create an exact image
  of this floppy-disk by issuing the command


       dd if=/dev/fd0 of=boot.img bs=18k


  Place this floppy image into the directory holding the collection of
  your files (or into a subdirectory of it, just as you like). Tell
  mkisofs about this file with the option '-b' and also use '-c'. For
  details read the file README.eltorito in the mkisofs-distribution.

  An interesting application for a custom bootable CD is as a virus safe
  DOS- or Windows-system. It saves you the money for the hard disks (if
  you have a network and use samba to put the user-data on a
  fileserver). However, this is purely theoretical as nobody reported an
  actual recipe to me.

  Some details about the bootable RedHat CD-ROM is available from
  <http://members.bellatlantic.net/~smithrod/rhjol-technical.html>.


  44..1122..  HHooww ttoo mmaakkee CCDD--RROOMMss wwrriittaabbllee ssoommeehhooww??

  There is an _o_v_e_r_l_a_y _f_i_l_e_s_y_s_t_e_m available for Linux, which is mounted
  over the CD-ROM and intercepts all writing operations. New and
  modified files are stored elsewhere, but for the user it looks like
  the CD-ROM is modified. For more information, see
  <http://home.att.net/~artnaseef/ovlfs/ovlfs.html>.

  If that is not enough for your needs: wait for the UDF-filesystem to
  be supported by Linux or help developing it (see
  <http://trylinux.com/projects/udf/>.


  44..1133..  IIss iitt ppoossssiibbllee ttoo uussee sseevveerraall wwrriitteerrss aatt oonnccee??

  Yes. However, it has been only tested with two writers yet. You need
  either a recent version of the Linux kernel (2.2.10 as of writing) or
  a a kernel patch for more buffers in the SCSI generic driver (
  <ftp://ftp.fokus.gmd.de/pub/unix/cdrecord/alpha>; works up to 2.2.5).


  44..1144..  WWhhiicchh mmeeddiiaa iiss tthhee bbeesstt??

  The german computer magazine "c't" had a list of tips regarding the
  blank CD-Rs in their november 1996 issue:


  +o  "No name" discs are generally not of highest quality and should
     better not be used.

  +o  If a recordable CD is defective, this is likely to apply to the
     whole batch (if you bought more than one at a time); maybe you are
     lucky and can at least use the first 500MB of such CD-Rs ...

  +o  Don't touch the CD-Rs at their shimmering side before writing.


  44..1155..  WWhhaatt aabboouutt SSoollaarriiss,, **BBSSDD,, AAIIXX,, HHPP--UUXX,, eettcc..??

  Only chapter 2 is Linux-specific. You can apply chapter 3 and 4 even
  if you run another family of operating systems than Linux. Please see
  the files README.NetBSD, README.aix, README.hpux, README.next,
  README.solaris, README.sunos, README.vms or README.xxxBSD from the
  cdrecord-distribution.


  44..1166..  WWhheerree ttoo ssttoorree tthhee llooccaall ccoonnffiigguurraattiioonn ppeerrmmaanneennttllyy??


  You have two options. Either you use the built-in configuration file
  for cdrecord, or you use a shell wrapper like the one shown below.
  This shell script reads a configuration file, which lists the options
  and parameters for cdrecord line by line. The names are exactly the
  same as on the commandline, but without the leading dash. Comments are
  allowed.  Example:


       # be verbose
       v
       # set the speed of the writer
       speed=2
       # the device-coordinates in the form BUS,ID,LUN
       dev=0,6,0


  The configuration files for the wrapper belong into /etc/cdrecord and
  must be referenced on the commandline. Example: if you want to refer
  to the configuration /etc/cdrecord/mywriter.cfg, then you can issue
  the command "cdrecord.sh mywriter.cfg -audio track1...".  Everthing
  after mywrite.cfg is passed to cdrecord.


       #! /bin/bash

       CFGDIR="/etc/cdrecord"

       CFG="$1"
       shift
       ARGS_LEFT="$@"

       if [ ! -f "$CFGDIR/$CFG" ]
       then
           echo "Configuration file $CFGDIR/$CFG not found. Exiting."
           exit 1
       fi

       while read LINE
       do
           case $LINE in
               \#*|"") continue;;
           esac
           old_IFS="$IFS"
           IFS="$IFS="
           set -- $LINE
           IFS="$old_IFS"
           O_NAME="$1"
           O_VALUE=""
           while shift
           do
               case $1 in
                   "") continue;;
               esac
               O_VALUE="$1"
           done

           if [ -z "$O_VALUE" ]
           then
               O_CDRECORD="$O_CDRECORD -$O_NAME "
               continue
           fi
           O_CDRECORD="$O_CDRECORD $O_NAME=$O_VALUE "

       done < "$CFGDIR/$CFG"

       set -x    #DEBUG
       exec cdrecord $O_CDRECORD $ARGS_LEFT
       echo "Execution of cdrecord failed."


  44..1177..  HHooww ccaann tthhee CCDD--iinnffoo bbee rreettrriieevveedd??

  Somewhere behind the first 32 k on the CD, a block with information
  about the CD is located. You can extract the information with the
  following shell script:


       #! /bin/bash

       RD=/dev/cdrom
       for i in 32768,7   32776,32 32808,32 32958,128 33086,128 33214,128 \
                33342,128 33470,32 33581,16 33598,16  33615,16  33632,16
       do
           old_IFS="$IFS"
           IFS=","
           set -- $i
           IFS="$old_IFS"
           OFFSET=$1
           LENGTH=$2
           echo "*`dd if=$RD bs=1 skip=$OFFSET count=$LENGTH   2> /dev/null`#"
       done


  44..1188..  WWhhaatt aabboouutt rree--wwrriittiinngg

  When overwriting  CD-RW media, specify the parameter blank=fast to
  cdrecord. That's all. See the man page of cdrecord for details about
  this parameter.


  44..1199..  HHooww ttoo ccrreeaattee aa mmuullttii--sseessssiioonn CCDD??

  First of all, the image for a multi-session CD must be formatted using
  the ISO-9660 filesystem using RockRidge-extensions. And you must use
  the option -multi for cdrecord as long as you want to add further
  sessions. So at least for the first session, you must use -multi.

  The images for the second and subsequent sessions are a little bit
  more complicated to generate. Mkisofs must know where the free space
  on the CD-R begins. That information can be gathered by using the
  option -msinfo on cdrecord (see example below).


       shell> NEXT_TRACK=`cdrecord -msinfo dev=0,6,0`
       shell> echo $NEXT_TRACK
       shell> mkisofs -R -o cd_image2 -C $NEXT_TRACK -M /dev/scd5
                private_collection/ \


  For more information, please read the file README.multi, which is
  distributed with cdrecord.


  55..  TTrroouubblleesshhoooottiinngg

  Always remember, that you can still use corrupt CD-ROMs as coasters.
  :-)
  55..11..  IItt ddooeessnn''tt wwoorrkk:: uunnddeerr LLiinnuuxx

  Please check first, that the writer works under the software it is
  shipped with (=under another operating system). Concretely:


  +o  Does the controller recognize the writer as a SCSI device?

  +o  Does the driver software recognize the writer?

  +o  Is it possible to make a CD using the accompanied software?

  If "it doesn't even work" with the accompanied software you have a
  hardware conflict or defective hardware. If it works and you use
  loadlin to boot Linux, then that is your problem. Loadlin makes a
  warm-boot with most of the hardware already initialized and that can
  confuse the Linux kernel.


  55..22..  EErrrroorr--mmeessssaaggee:: NNoo rreeaadd aacccceessss ffoorr ''ddeevv==00,,66,,00''..

  Under Linux, some versions of the C-library are incompatible (buggy),
  so that an application linked against one version will not work with
  another. An example for an error triggered by pre-compiled binaries is
  the following:


       [root@Blue /dev]# cdrecord -eject dev=0,6,0
       cdrecord: No such file or directory. No read access for 'dev=0,6,0'.


  55..33..  IItt ddooeessnn''tt wwoorrkk:: uunnddeerr DDOOSS aanndd ffrriieennddss

  Try to use Linux. Installation and configuration of SCSI drivers for
  DOS is the hell. Linux is too complicated? Ha!


  55..44..  SSCCSSII eerrrroorrss dduurriinngg tthhee bbuurrnniinngg pphhaassee

  Most likely those errors are caused by


  +o  missing dis-/reconnect feature on the SCSI bus

  +o  insufficiently cooled hardware

  +o  defective hardware (should be detected by 5.1.)

  Under various circumstances SCSI devices dis- and reconnect themselves
  (electronically) from the SCSI bus. If this feature is not available
  (check controller and kernel parameters) some writers run into trouble
  during burning or fixating the CD-R.

  Especially the NCR 53c7,8xx SCSI driver has the feature disabled by
  default, so you might want to check it first:


  NCR53c7,8xx SCSI support                  [N/y/m/?] y
     always negotiate synchronous transfers [N/y/?] (NEW) n
     allow FAST-SCSI [10MHz]                [N/y/?] (NEW) y
     allow DISCONNECT                       [N/y/?] (NEW) y


  66..  CCrreeddiittss


  Many thanks go to the readers of this HOWTO, who contributed actively
  to its contents. As I don't had access to a CD-writer myself for
  several years, reports about real live setups and experience have
  always been of great value to me.


     DDoouugg AAllccoorrnn <<ddoouugg@@llaatthhii..nneett>>
        helped to improve the handling of newer kernels


     KKaallllee AAnnddeerrssssoonn <<kkaallllee@@sssslluugg..ddkk>>
        How to write audio CDs directly from MP3.


     AAllaann BBrroowwnn <<aallaann@@mmaannaawwaattuu..nneett..nnzz>>

     RRiicckk CCoocchhrraann <<rriicckk@@mmsscc..ccoorrnneellll..eedduu>>
        hint about dis-/reconnect disabled by default in the ncr driver


     RRoobbeerrtt DDoooolliittttllee <<bboobb..ddoooolliittttllee@@ssuunn..ccoomm>>
        good arguments for dropping cdwrite from the HOWTO


     MMaarrkkuuss DDiicckkeebboohhmm <<mm..ddiicckkeebboohhmm@@uunnii--kkooeellnn..ddee>>

     TThhoommaass DDuuffffyy <<ttdduuffffyy@@ssggii..ccoomm>>
        major cleanup of syntax and spelling


     JJooss vvaann GGeeffffeenn <<jjooss@@ttnnjj..pphhyyss..ttuuee..nnll>>
        noted the problem in 4.9.


     BBeerrnnhhaarrdd GGuubbaannkkaa <<bbeegg@@iipppp--ggaarrcchhiinngg..mmppgg..ddee>>
        noticed the need of a recent version of mount to utilize the
        loopback device


     SStteepphheenn HHaarrrriiss <<sswweehh@@mmppnn..ccoomm>>
        contributed hint about writing audio CDs


     JJaannnnee HHiimmaannkkaa <<sshheemm@@ooyytt..oouulluu..ffii>>
        pointer to kernel patch to read Joliet CD-ROMs


     SStteepphhaann NNooyy <<ssttnnooyy@@mmii..uunnii--kkooeellnn..ddee>>
        information and experience about writing audio CDs


     DDoonn HH.. OOlliivvee <<ddoonn@@aannddrroommeeddaa..ccaammppbbeellllssvviill..eedduu>>
        URL of the mkhybrid tool
     JJeessppeerr PPeeddeerrsseenn <<jjeewwss@@iimmaaddaa..oouu..ddkk>>

     PPiieerrrree PPffiisstteerr <<pppp@@uupplliifftt..ffrr>>
        helped to develop the recipe on 1:1 copies.


     DDaanniieell AA.. QQuuiisstt <<ddqquuiisstt@@ccss..nnmmtt..eedduu>>
        information about IDE CD-R and newer kernel versions


     MMaarrttttii..RRaahhkkiillaa@@hhuutt..ffii
        Reported problem with pre-initialized writers when booting via
        loadlin.


     DDaallee SScchheeeettzz <<ddwwaarrff@@ppoollaarriiss..nneett>>

     JJooeerrgg SScchhiilllliinngg <<sscchhiilllliinngg@@ffookkuuss..ggmmdd..ddee>>
        information about cdrecord


     MMaarrttiinn SScchhuullzzee <<jjooeeyy@@IInnffooddrroomm..NNoorrtthh..DDEE>>
        gave information about the cdwrite-mailinglist


     GGeerraalldd CC SSnnyyddeerr <<ggccssnnyydd@@lloooopp..ccoomm>>
        tested writing of an ext2 CD-ROM (see 4.4)


     AArrtt SSttoonnee <<ssttoonnee@@mmaatthh..uubbcc..ccaa>>
        had the idea to put non-ISO-9660 filesystems on a CD


     TThhee SShheeeeppyy OOnnee <<kkeerroo@@eessccaappee..ccoomm>>
        suggested using defective CD-ROMs as coasters for drinks


     EErrwwiinn ZZooeerr <<eezzooeerr@@wwxxss..nnll>>

  Futhermore, I would like to thank the following people for reporting
  spelling mistakes: Bartosz Maruszewski
  <B.Maruszewski@zsmeie.torun.pl>, Ian Stirling <ian@opus131.com>, Brian
  H. Toby.

  End of the Linux CD-Writing HOWTO. (You can stop reading here.)