CD-Writing HOWTO Winfried Trümper v2.4.1, 16 December 1997 This document deals with the process of writing CDs under Linux. 1. Introduction My first experience with CD Writers was guided by the "Linux CD Writer mini-HOWTO" by Matt Cutts . Thanks Matt! Although my intention was only to upgrade his document, I rewrote it from the scratch after I realized how much changed since 1994. 1.1. Disclaimer I (Winfried Truemper) DISCLAIM ALL WARRANTIES WITH REGARD TO THIS DOCUMENT, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A CERTAIN PURPOSE; IN NO EVENT SHALL I BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OF THIS DOCUMENT. Short: read and use at your own risk. 1.2. Suggested readings The CD-R FAQ is a general FAQ about compact-disk recordables (CD-R). The Linux CD-ROM HOWTO explains everything one should know about CD- ROM drives under Linux. As a supplement, you may want to take a look at the Linux SCSI HOWTO and the Linux Kernel HOWTO. 1.3. Terminology ... lasers at maximum ... fire! CD-ROM stands for Compact Disc Read Only Memory, 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 (in some way) and are so petite that some billions of them fit on the disc. Thus a CD is a mass-storage medium. The Term CD-R is a short form of CD-ROM recordable and refers to a CD that doesn't have those "microscopic pits" on it's surface... thus it's empty. Instead of the aluminium layer (silver) a CD-R has a special film (colored) into which "microscopic pits" can be burned in. This is done by giving the laser which normally only senses the pits a little bit more power so he burns the pits. This action can only be taken once on a CD-R. You can leave out some areas for later writing, though, creating a so called multi-session CD. This mini-HOWTO deals with the task of writing a CD-R. Welcome on board, captain. 1.4. Supported CD-Writers The detailed list of models which have been reported (not) to work successfully is available from The list will be included in future versions of this mini-HOWTO. Most SCSI cd-writers are supported and the newest version of cdrecord even supports ATAPI cd-writers. If your hardware isn't supported you can still use Linux to create an image of the later CD but then you have to use DOS-Software to write the image to the CD-R. You may wish to do so because most DOS-software cannot deal with long filenames available in Linux. In this case you can skip all hardware-related sections (those about generic SCSI devices and cdwrite/cdrecord). 1.5. Supported "features" Currently the software for burning CDs under Linux does support the following main features: Feature cdwrite-2.1 cdrecord-1.7 -------------------------------------------- ATAPI support no yes Multisession only partial yes RockRidge yes (mkisofs) yes (mkisofs) El Torito yes (mkisofs) yes (mkisofs) HFS yes (mkhybrid) yes (mkhybrid) Joliet yes (mkhybrid) yes (mkhybrid) RockRidge is an extension to allow longer filenames and a deeper directory hierarchy. El Torito can be used to produce bootable CDs. Please see the accompanied documentation for further details upon this special features. HFS lets a macintosh read the CD-ROM as if it were an HFS volume. Joliet brings long filenames (among other things) to some variants of Windows (95, NT). Section 2.8 lists the availability of the mentioned software. 1.6. Mailinglists If you want to join the development team (with the intention to actively _help_ them), send e-mail to cdwrite-request@pixar.com and put the word subscribe in body of the message. 1.7. Availability The newest version of this document is always available from 2. Prepare your Linux-box for writing CD-ROMs Before November 1997, the software for Linux didn't support ATAPI cd- writers. As a result, the current release of the HOWTO concentrates on dealing with SCSI devices. The good news is, that dealing with ATAPI devices is much easier and you can still use this HOWTO if you just forget about the "generic SCSI devices". To find out how to address ATAPI devices you can issue the command cdrecord -scanbus. Future versions of this HOWTO will contain more details of dealing with ATAPI cd-writers. 2.1. Set up the hardware Shut down your computer, switch it off and hook CD writer to the SCSI- bus. Make sure the SCSI-bus is properly terminated and choose a free SCSI- ID for the writer. Look at the Linux SCSI-HOWTO if you're not sure. If you're completly clueless, ask an expert. Switch the power on again and check the messages that the BIOS of the SCSI-controller prints immediatly after switching the power on. If it doesn't recognize you writer, go back to step (b). You should see a message like missing picture; has anyone a screenshot of it? 2.2. A note on writing CDs under Linux In contrast to other rumors, the Linux-kernel does _not_ require a patch in order to write to CDs. Although the file drivers/scsi/scsi.c from the kernel-sources contains the lines case TYPE_WORM: case TYPE_ROM: SDpnt->writeable = 0; this does only mean that that CDs and WORMs are not writeable through the standard-devices /dev/sda-/dev/sdh - which is ok. Instead of using these devices the writing of CDs is done through the so called generic SCSI-devices which permit nearly everything - even writing to CDs. 2.3. Create the generic devices The Linux SCSI-HOWTO says about generic SCSI-devices: The Generic SCSI device driver provides an interface for sending SCSI commands to all SCSI devices - disks, tapes, CDROMs, media changer robots, etc. Speaking of the generic devices as interfaces means that they provide an alternate way of accessing SCSI-hardware than through the standard devices. This alternate way is required because the standard devices are designed to read data block-wise from a disk, tape or cd-rom. Compared to this, driving a cd-writer (or a scanner) is more exotic, e.g commands to position the laser must be transmitted. To have a clean (and therefore fast) implementation of standard-devices, all such exotic actions must be done through the generic SCSI devices. As everthing can be done to SCSI-hardware through the generic devices they are not fixed to a certain purpose - therefore the name generic. Goto the /dev-directory and check for generic SCSI devices; ls-command should show sga-sgh: bash> cd /dev bash> ls -l sg* crw------- 1 root sys 21, 0 Jan 1 1970 sga crw------- 1 root sys 21, 1 Jan 1 1970 sgb crw------- 1 root sys 21, 2 Jan 1 1970 sgc crw------- 1 root sys 21, 3 Jan 1 1970 sgd crw------- 1 root sys 21, 4 Jan 1 1970 sge crw------- 1 root sys 21, 5 Jan 1 1970 sgf crw------- 1 root sys 21, 6 Jan 1 1970 sgg crw------- 1 root sys 21, 7 Jan 1 1970 sgh If you don't have those device-files then create them by using the /dev/MAKEDEV-script: bash> cd /dev/ bash> ./MAKEDEV sg Now the device-files should show up. 2.4. Enable usage of the generic SCSI and loopback devices The Linux-kernel needs a module that lends it the ability to deal with generic SCSI devices. If your running kernel has this feature, it should be listed in the pseudo-file /proc/devices: bash> cat /proc/devices Character devices: 1 mem 2 pty 3 ttyp 4 ttyp 5 cua 7 vcs 21 sg <----- stands for "SCSI Generic device" 30 socksys Block devices: 2 fd 7 loop <----- we even can use the loop-devices 8 sd 11 sr <----- stands for "SCSI cd-Rom" Maybe you have to issue the commands insmod sg, insmod loop or insmod sr_mod to load the modules into the kernel. Check again after you've tried this. If one of them doesn't succeed, you must re-configure your kernel and re-compile it. bash> cd /usr/src/linux bash> make config [..] * * Additional Block Devices * Loopback device support (CONFIG_BLK_DEV_LOOP) [M/n/y/?] M [..] * * SCSI support * SCSI support (CONFIG_SCSI) [Y/m/n/?] Y * * SCSI support type (disk, tape, CD-ROM) * SCSI disk support (CONFIG_BLK_DEV_SD) [Y/m/n/?] Y SCSI tape support (CONFIG_CHR_DEV_ST) [M/n/y/?] M SCSI CD-ROM support (CONFIG_BLK_DEV_SR) [M/n/y/?] M SCSI generic support (CONFIG_CHR_DEV_SG) [M/n/y/?] M [..] ISO9660 cdrom filesystem (CONFIG_ISO9660_FS) [Y/m/n/?] M Please note that I omitted the not-so-important questions. 2.5. Build and install the kernel If you have questions regarding to this the Linux Kernel-HOWTO is the suggested reading. Furthermore your Linux-distribution should ship with some documentation about this issue. Hint: while re-compiling, you can continue with steps 2.7-2.9 2.6. Reboot the computer for the changes to take effect. Don't panic if the Linux-kernel prints the messages faster than you can read them, at least the initialization of SCSI-devices can be re- displayed with the command dmesg: scsi0 : NCR53c{7,8}xx (rel 17) scsi : 1 host. scsi0 : target 0 accepting period 100ns offset 8 10.00MHz scsi0 : setting target 0 to period 100ns offset 8 10.00MHz Vendor: FUJITSU Model: M1606S-512 Rev: 6226 Type: Direct-Access ANSI SCSI Detected scsi disk sda at scsi0, channel 0, id 0, lun 0 Vendor: NEC Model: CD-ROM DRIVE:84 Rev: 1.0a Type: CD-ROM ANSI SCSI Detected scsi CD-ROM sr0 at scsi0, channel 0, id 4, lun 0 scsi : detected 1 SCSI disk total. SCSI device sda: hdwr sector= 512 bytes. Sectors= 2131992 Shown above is only that part of the initialization-messages that report the detection of physically present SCSI-devices. 2.7. Create loopback devices Goto the /dev-directory and check for loopback devices. It's not critical if you don't have those devices, but it's convenient if you do (see 3.5). If you already have them, the ls-command should show loop0-loop7: bash> cd /dev bash> ls -l loop* brw-rw---- 1 root disk 7, 0 Sep 23 17:15 loop0 brw-rw---- 1 root disk 7, 1 Sep 23 17:15 loop1 brw-rw---- 1 root disk 7, 2 Sep 23 17:15 loop2 brw-rw---- 1 root disk 7, 3 Sep 23 17:15 loop3 brw-rw---- 1 root disk 7, 4 Sep 23 17:15 loop4 brw-rw---- 1 root disk 7, 5 Sep 23 17:15 loop5 brw-rw---- 1 root disk 7, 6 Sep 23 17:15 loop6 brw-rw---- 1 root disk 7, 7 Sep 23 17:15 loop7 If you don't have those device-files, then create them by using the /dev/MAKEDEV-script: bash> cd /dev/ bash> ./MAKEDEV loop The last command only succeeds if you have the loop-module in your kernel (see 2.4 for handling of modules). If insmod loop does not help, you must wait until the new kernel is properly installed (see 2.5). 2.8. Get the user-software for burning CDs 2.8.1. Command line utilities The following package is required to generate prototypes of CD-Rs: (mkisofs) (mkhybrid) Depending on the model of your cd-writer (see 1.3), one of the following software for writing prototypes to CD-Rs is required: (cdrecord) (cdwrite) Please use the nearest mirrors of these ftp-Servers or get them from a CD. Be absolutly sure you have version 2.0 of cdwrite or newer. No older version and especially no beta-versions will work properly! Don't trust the man-page of (old) mkisofs which states you need version 1.5 of cdwrite. For information about ports of cdwrite to Irix and AIX visit the URL If you are using a kernel prior to release 2.0.31, you may want to patch mkisofs to get along a bug in the Linux filesystem code. The Debian-Distribution ships a patch for release 1.05 of mkisofs (1.11 should work, too) of mkisofs that adds the option '-K' to it (see 3.4); it's available from This patch is only necassary if you want to mount the CD-image via the loopback-device (see 3.5.). 2.8.2. A graphical user interface (optional) X-CD-Roast is full X based CD-Writer-Program, and it is the successor of the cdwtools-0.93. It's available from Currently X-CD-Roast is based on a patched version of cdwrite-2.0 and thus comes with exactly the same features (see 1.4). Future versions may be based on the alternate cdrecord software. 3. Emperor nero about burning his own classic-CDs [AD64. He misunder­ stood it completly.] If to smoke you turn I shall not cease to fiddle while you burn." Usally the writing of a CD under Linux is done in 2 steps: · packaging the desired software into one big file using the mkisofs/mkhybrid-utility · writing the big file to the CD-R with cdwrite or cdrecord It is also possible to combine the 2 steps into one via a pipe but that is discouraged because it's not reliable. See below. 3.1. Determine which generic scsi device the writer is attached to Please note: the current scheme for naming scsi devices under Linux is unnecessary complicated and not reliable enough. The fact that I describe it in greater detail here should not be misinterpreted as a confirmation of this scheme. People with an ATAPI cd-writer can try "cdrecord -scanbus" to detect the right device and skip the rest of this section. After following all steps of the second chapter your system should be able to deal with the task of writing CDs. This section can be used as a proof that everything works as intended. Issue the command dmesg. It should report the messages of the Linux- kernel including those printed while booting (limitation: only the last 200) and contain some information about the CD-Writer connected to the SCSI-bus. Simple example: Vendor: YAMAHA Model: CDR100 Rev: 1.11 Type: WORM ANSI SCSI revision: 02 Detected scsi CD-ROM sr1 at scsi0, channel 0, id 3, lun 0 This machine has 4 SCSI-devices connected to it (you can't see it so I tell you), with SCSI-id's from 0 to 3. The writer is the 4th physically present SCSI-device and therefore connected to /dev/sgd (the fourth generic SCSI-device when counting is started with the letter a). In this case the command cdwrite --eject --device /dev/sgd opens the tray and is a test if everything is set up properly. A more complicated example: scsi0 : AdvanSys SCSI 1.5: ISA (240 CDB) scsi1 : Adaptec 1542 scsi : 2 hosts. Vendor: HP Model: C4324/C4325 Rev: 1.20 Type: CD-ROM ANSI SCSI revision: 02 Detected scsi CD-ROM sr0 at scsi0, channel 0, id 2, lun 0 Vendor: IBM Model: DPES-31080 Rev: S31Q Type: Direct-Access ANSI SCSI revision: 02 Detected scsi disk sda at scsi1, channel 0, id 0, lun 0 scsi : detected 1 SCSI cdrom 1 SCSI disk total. SCSI device sda: hdwr sector= 512 bytes. In this example two SCSI-controllers host 1 SCSI-device each. What a waste (they are able to host up to 7 devices each). It's not my setup so stop asking if I have too much money ... Anyway for the purpose of being an overlookable example this setup is just excellent. :-) In the above example the CD-Writer has SCSI-id 2 but it is associated with the first generic SCSI-device /dev/sga because it's the first physically present SCSI-device which Linux has detected. Hopefully this shows clearly that the SCSI-id of a device has nothing to do with the associated generic device. Two questions are left: what happens if you catch the wrong device? If you neither specify the option "--" nor write any data to the device, usally a warning message is printed and nothing bad happens: bash> cdwrite --eject --device /dev/sgb Unknown CD-Writer; if this model is compatible with any supported type, please use the appropriate command line flag. Manufacturer: IBM Model: DPES-31080 Revision: S31Q In this case the device /dev/sbg is a SCSI harddisk (from IBM). If you write data to the wrong device, you overwrite the original content of it and probably irrecoverable damage your system. Be careful, it already happened to me by accident. 3.2. Collect software Usally this takes up longer than one expects. Remember that missing files cannot be added once the CD is written. :-) Also keep in mind that a certain amount of the free space of a CD is used for storing the information of the iso9660-filesystem (usally a few MB). 3.3. Storing data on a CD. The term iso9660 refers to the format in which data is organised on the CD. To be more precise: it's the filesystem on the CD. Of course the appearance of files stored in this format is unified by the Linux-kernel as for every other filesystem, too. So if you mount a CD into the directory tree, you cannot distinguish it's files from other files (The mechanism used to unify the appearance of files is called virtual filesystem, short VFS.) The features of the iso9660 filesystem are not so rich compared to those of the extended-2 filesystem which is normally used under Linux. On the other hand, the CD is only writable once and some features make no sense anyway. The limitations of the iso9660-filesystem are: · only 8 levels of sub-directories allowed (counted from the top- level directory of the CD) use RockRidge Extensions to enlarge this number · maximum length for filenames: 32 characters · 650 MB capacity 3.4. Create an iso9660 filesystem Before any storage medium (e.g. floppy disk, harddisk or CD) can be used, it must get a filesystem (DOS speak: get formatted). This filesystem is responsible for organising and incorporating the files that should be stored on the medium. Well, a writable CD is only writable once so if we would write an empty filesystem to it, it would get formated - but remain completely empty forever. :-) 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 Rock Ridge extensions. That is what one usually wants and use of this option is recommended until you know what you're doing (hint: without '-r' the mount-point gets the permissions of private_collection!). If you are running a Linux kernel prior to 2.0.31, you should add the option '-K' to work around a bug in the filesystem code. You need the patched version of mkisofs for it. This option is equivalent to the option '-P' of cdwrite. Please see the manual-page of mkisofs for details. Users of a more recent version of Linux have to worry about neither. mkisofs will try to map all filenames to the 8.3-format used by DOS to ensure 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. This has two reasons: · mkisofs knows nothing about driving CD-writers (see section 2.3.) · It would not be reliable (see section 4.) Because the timing of the CD-writer is a critical point, we don't feed it directly from mkisofs (remember Linux is not a real-time operating system and tasks can be timed badly). Instead it is recommended to store the output of mkisofs in a separate file on the harddisk. This file is then an 1:1-image of the later CD and is actually written to the CD with the tool cdwrite in a second step. The 1:1-image gets stored in a huge file so you need the same amount of free disk space that your collected software already eats up. That's a drawback. One could think of creating an extra partition for that 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. Furthermore, it's a waste of disk-space because the CD-image is temporary data that can be deleted after writing the CD. 3.5. Test the CD-image Linux has the ability to mount files as if they were disk-partitions. This feature is useful to check the directory layout of the CD-image is ok. 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: If you did not use the option '-K' for mkisofs then the last file on /cdrom may not be fully readable. Note: some ancient versions of mount are not able to deal with loopback-devices. If you have such an old version of mount it is a hint to upgrade your Linux-system. Several people already suggested to put information about how to get the newest mount-utilities into this mini-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 included all the information that is necessary to work around bugs in bad designed Linux-Distributions, this mini- HOWTO would be a lot bigger and harder to read. 3.6. Remarks on the blank CD-Recordable discs The german computer magazine "c't" has a list of tips regarding the blank CDs in their november 1996 issue: · "no-name" discs are generally not of highest quality and should better not be used · if a recordable CD is defective, this is likely to apply to the whole batch (if you bought more then one at a time); maybe you are lucky and can at least use the first 500MB of such CDs ... · don't touch the CDs at their shimmering side before writing 3.7. Write the CD-image to a CD Not much more left to do. 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 have only small data-buffers. So the process of writing the CD-image to the CD mustn't be interupted or a corrupt CD will be the result. To be sure nothing can interupt this process, throw all users of the system and unplug the ethernet-cable ... Read the Bastard operator from hell to learn about the right attitude to do so. ;-) If you are mentally prepared, dress up in a black robe, multiply the SCSI-id of the CD-writer with it's SCSI-revision and light as many candles, speak two verses of the ASR-FAQ and finally type cdwrite --device /dev/sgd cd_image or cdrecord -v speed=2 dev=4,0 cd_image depending on which software you want to use. Of course you have to replace the example SCSI device with the device your writer is connected to. Please note that no writer can re-position it's laser and can't continue at the original spot on the CD when it gets disturbed. Therefore any strong vibrations or even a shock will completly destroy the CD you are writing. 3.8. If something goes wrong ... 4. Frequently asked questions with answers 4.1. How sensitive is the burning process?" Answer: that depends on your writer. Modern ones should have a data- buffer of 1MB or such and can live 1-2 seconds without data. See the manuals or ask your manufacturer if you want to know the details. Regardless of the size of those data-buffers you must guarantee a constant throughput of 300kb/s or 600kb/s in the long time run. Disk intensive processes such as updating the locate-database lower the maximum flow-rate will surely corrupt the CD; you better check such processes are not started via cron, at or anacron while you burn CD-Rs. On the other hand, people reported that they compiled a kernel while burning a CD without a glitch. Of course you need a fast machine for such experiments. 4.2. Has fragmentation a bad impact on the throughput?" Fragmentation is usally so low that it's impact isn't noticed. If you're uncertain than 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 bash> 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 this filesystem (used as /tmp) so the value is _not_ alarming. 4.3. Is it possible to store the CD-image on an UMSDOS-filesystem?" Yes. The only filesystem that isn't reliable and fast enough for writing CDs from is the network filesystem (NFS). I'm using UMSDOS myself to share the disk-space between Linux and DOS/Win on a PC (486/66) dedicated for writing CDs. 4.4. Isn't there some way to get around the iso9660 limitations?" 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: · Create an empty file of 650MB size. dd if=/dev/zero of="empty_file" bs=1024k count=650 · Create an extended-2 filesystem on this file bash> /sbin/mke2fs empty_file empty_file is not a block special device. Proceed anyway? (y,n) y · Mount this empty file through the loopback-devices mount -t ext2 -o loop=/dev/loop1 empty_file /mnt · Copy files to /mnt and umount it afterwards. · Use cdwrite or cdrecord on empty_file (which is no longer empty) as if it were an iso9660-image. If you want to make an entry in /etc/fstab for such a CD, disable the checking of it, e.g.: /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). 4.5. How to read and write audio CDs?" Please get the packages "cdda2wav" and "sox", available from sunsite and it's mirrors: 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 cdwrite. 4.6. How to probe for SCSI-devices after boot?" 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. */ 4.7. Is it possible to make a 1:1 copy of a data CD?" 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. First case: you have a CD-writer and a seperate CD-ROM drive. By issuing the command cdwrite -v -D /dev/sgc --pad -b $(isosize /dev/scd0) /dev/scd0 or cdrecord -v dev=3,0 speed=2 -isosize /dev/scd0 you read the data stream from the CD-ROM drive attached as /dev/scd0 and write it directly through /dev/sgc to the CD-R. Second case: you don't have a seperate CD-ROM drive. You have to use the writer to read out the CD-ROM in this case: dd if=/dev/scd0 of=cdimage bs=1c count=`isosize /dev/scd0` This command is equivalent to the result of mkisofs, so you should procede as described in chapter 3. Please note that this method will fail on audio CDs! 4.8. Can Linux read Joliet CDs?" Yes. But you need to patch the kernel and recompile it. For further details see 4.9. How do I read/mount CD-ROMs with the CD-writer?" 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 CDs for reading. Example-entry for /etc/fstab: /dev/scd0 /cdrom iso9660 ro,user,noauto 0 0 5. Troubleshooting 5.1. It doesn't work: under Linux Please check first if the writer works under other operating systems. Concretely: · Does the controller recognize the writer as a SCSI device? · Does the driver software recognize the writer? · Is it possible to make a CD using the accompanied software? If "it doesn't work" even under other operating systems you have a hardware conflict or defective hardware. 5.2. It doesn't work: under DOS and friends Try to use Linux. Installation and configuration of SCSI-drivers for DOS is the hell. Linux is too complicated? Ha! 5.3. SCSI errors during the burning phase Most likely those errors are caused by · missing dis-/reconnect feature on the SCSI bus · unsufficiently cooled hardware · defektive 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. Credits Andreas Erdmann provided the example with the YAMAHA-writer Art Stone had the idea to put non-iso9660 filesystems on a CD Bartosz Maruszewski reported spelling mistakes Bernhard Gubanka noticed the need of a recent version of mount to utilize the loopback device Brian H. Toby polished the wording. Bruce Perens gave information about the cdwrite-mailinglist Dale Scheetz helped improving the section about creating the cdimage. URL of the mkhybrid tool Edwin H. Kribbs reported that '-K' requires a patch for mkisofs Gerald C Snyder tested writing of an ext2 CD-ROM (see 4.4) Ingo Fischenisch provided the example with 2 controllers hosting 2 devices Janne Himanka pointer to kernel patch to read Joliet CDs Joerg Schilling information about cdrecord Jos van Geffen noted the problem in 4.9. Markus Dickebohm Pierre Pfister helped to develop the recipe on 1:1 copies. Rick Cochran hint about dis-/reconnect disabled by default in the ncr driver Stephan Noy information and experience about writing audio-CDs Stephen Harris contributed hint about writing audio-CDs The Sheepy One suggested using defective CDs as coasters for drinks Volker Kuhlmann noticed that the "cdwrite"-package does not contain mkisofs End of the Linux CD-Writing mini-HOWTO