From 1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 Mon Sep 17 00:00:00 2001 From: Linus Torvalds Date: Sat, 16 Apr 2005 15:20:36 -0700 Subject: Linux-2.6.12-rc2 Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip! --- Documentation/cdrom/00-INDEX | 33 + Documentation/cdrom/Makefile | 21 + Documentation/cdrom/aztcd | 822 +++++++++++++++++++++++++ Documentation/cdrom/cdrom-standard.tex | 1022 ++++++++++++++++++++++++++++++ Documentation/cdrom/cdu31a | 196 ++++++ Documentation/cdrom/cm206 | 185 ++++++ Documentation/cdrom/gscd | 60 ++ Documentation/cdrom/ide-cd | 574 +++++++++++++++++ Documentation/cdrom/isp16 | 100 +++ Documentation/cdrom/mcdx | 29 + Documentation/cdrom/optcd | 57 ++ Documentation/cdrom/packet-writing.txt | 97 +++ Documentation/cdrom/sbpcd | 1057 ++++++++++++++++++++++++++++++++ Documentation/cdrom/sjcd | 60 ++ Documentation/cdrom/sonycd535 | 121 ++++ 15 files changed, 4434 insertions(+) create mode 100644 Documentation/cdrom/00-INDEX create mode 100644 Documentation/cdrom/Makefile create mode 100644 Documentation/cdrom/aztcd create mode 100644 Documentation/cdrom/cdrom-standard.tex create mode 100644 Documentation/cdrom/cdu31a create mode 100644 Documentation/cdrom/cm206 create mode 100644 Documentation/cdrom/gscd create mode 100644 Documentation/cdrom/ide-cd create mode 100644 Documentation/cdrom/isp16 create mode 100644 Documentation/cdrom/mcdx create mode 100644 Documentation/cdrom/optcd create mode 100644 Documentation/cdrom/packet-writing.txt create mode 100644 Documentation/cdrom/sbpcd create mode 100644 Documentation/cdrom/sjcd create mode 100644 Documentation/cdrom/sonycd535 (limited to 'Documentation/cdrom') diff --git a/Documentation/cdrom/00-INDEX b/Documentation/cdrom/00-INDEX new file mode 100644 index 00000000000..916dafe29d3 --- /dev/null +++ b/Documentation/cdrom/00-INDEX @@ -0,0 +1,33 @@ +00-INDEX + - this file (info on CD-ROMs and Linux) +Makefile + - only used to generate TeX output from the documentation. +aztcd + - info on Aztech/Orchid/Okano/Wearnes/Conrad/CyCDROM driver. +cdrom-standard.tex + - LaTeX document on standardizing the CD-ROM programming interface. +cdu31a + - info on the Sony CDU31A/CDU33A CD-ROM driver. +cm206 + - info on the Philips/LMS cm206/cm260 CD-ROM driver. +gscd + - info on the Goldstar R420 CD-ROM driver. +ide-cd + - info on setting up and using ATAPI (aka IDE) CD-ROMs. +isp16 + - info on the CD-ROM interface on ISP16, MAD16 or Mozart sound card. +mcd + - info on limitations of standard Mitsumi CD-ROM driver. +mcdx + - info on improved Mitsumi CD-ROM driver. +optcd + - info on the Optics Storage 8000 AT CD-ROM driver +packet-writing.txt + - Info on the CDRW packet writing module +sbpcd + - info on the SoundBlaster/Panasonic CD-ROM interface driver. +sjcd + - info on the SANYO CDR-H94A CD-ROM interface driver. +sonycd535 + - info on the Sony CDU-535 (and 531) CD-ROM driver. + diff --git a/Documentation/cdrom/Makefile b/Documentation/cdrom/Makefile new file mode 100644 index 00000000000..a19e321928e --- /dev/null +++ b/Documentation/cdrom/Makefile @@ -0,0 +1,21 @@ +LATEXFILE = cdrom-standard + +all: + make clean + latex $(LATEXFILE) + latex $(LATEXFILE) + @if [ -x `which gv` ]; then \ + `dvips -q -t letter -o $(LATEXFILE).ps $(LATEXFILE).dvi` ;\ + `gv -antialias -media letter -nocenter $(LATEXFILE).ps` ;\ + else \ + `xdvi $(LATEXFILE).dvi &` ;\ + fi + make sortofclean + +clean: + rm -f $(LATEXFILE).ps $(LATEXFILE).dvi $(LATEXFILE).aux $(LATEXFILE).log + +sortofclean: + rm -f $(LATEXFILE).aux $(LATEXFILE).log + + diff --git a/Documentation/cdrom/aztcd b/Documentation/cdrom/aztcd new file mode 100644 index 00000000000..6bf0290ef7c --- /dev/null +++ b/Documentation/cdrom/aztcd @@ -0,0 +1,822 @@ +$Id: README.aztcd,v 2.60 1997/11/29 09:51:25 root Exp root $ + Readme-File Documentation/cdrom/aztcd + for + AZTECH CD-ROM CDA268-01A, ORCHID CD-3110, + OKANO/WEARNES CDD110, CONRAD TXC, CyCDROM CR520, CR540 + CD-ROM Drives + Version 2.6 and newer + (for other drives see 6.-8.) + +NOTE: THIS DRIVER WILL WORK WITH THE CD-ROM DRIVES LISTED, WHICH HAVE + A PROPRIETARY INTERFACE (implemented on a sound card or on an + ISA-AT-bus card). + IT WILL DEFINITELY NOT WORK WITH CD-ROM DRIVES WITH *IDE*-INTERFACE, + such as the Aztech CDA269-031SE !!! (The only known exceptions are + 'faked' IDE drives like the CyCDROM CR520ie which work with aztcd + under certain conditions, see 7.). IF YOU'RE USING A CD-ROM DRIVE + WITH IDE-INTERFACE, SOMETIMES ALSO CALLED ATAPI-COMPATIBLE, PLEASE + USE THE ide-cd.c DRIVER, WRITTEN BY MARK LORD AND SCOTT SNYDER ! + THE STANDARD-KERNEL 1.2.x NOW ALSO SUPPORTS IDE-CDROM-DRIVES, SEE THE + HARDDISK (!) SECTION OF make config, WHEN COMPILING A NEW KERNEL!!! +---------------------------------------------------------------------------- + +Contents of this file: + 1. NOTE + 2. INSTALLATION + 3. CONFIGURING YOUR KERNEL + 4. RECOMPILING YOUR KERNEL + 4.1 AZTCD AS A RUN-TIME LOADABLE MODULE + 4.2 CDROM CONNECTED TO A SOUNDCARD + 5. KNOWN PROBLEMS, FUTURE DEVELOPMENTS + 5.1 MULTISESSION SUPPORT + 5.2 STATUS RECOGNITION + 5.3 DOSEMU's CDROM SUPPORT + 6. BUG REPORTS + 7. OTHER DRIVES + 8. IF YOU DON'T SUCCEED ... DEBUGGING + 9. TECHNICAL HISTORY OF THE DRIVER + 10. ACKNOWLEDGMENTS + 11. PROGRAMMING ADD ONS: CDPLAY.C + APPENDIX: Source code of cdplay.c +---------------------------------------------------------------------------- + +1. NOTE +This software has been successfully in alpha and beta test and is part of +the standard kernel since kernel 1.1.8x since December 1994. It works with +AZTECH CDA268-01A, ORCHID CDS-3110, ORCHID/WEARNES CDD110 and CONRAD TXC +(Nr.99 31 23 -series 04) and has proven to be stable with kernel +versions 1.0.9 and newer. But with any software there still may be bugs in it. +So if you encounter problems, you are invited to help us improve this software. +Please send me a detailed bug report (see chapter BUG REPORTS). You are also +invited in helping us to increase the number of drives, which are supported. + +Please read the README-files carefully and always keep a backup copy of your +old kernel, in order to reboot if something goes wrong! + +2. INSTALLATION +The driver consists of a header file 'aztcd.h', which normally should reside +in /usr/src/linux/drivers/cdrom and the source code 'aztcd.c', which normally +resides in the same place. It uses /dev/aztcd (/dev/aztcd0 in some distri- +butions), which must be a valid block device with major number 29 and reside +in directory /dev. To mount a CD-ROM, your kernel needs to have the ISO9660- +filesystem support included. + +PLEASE NOTE: aztcd.c has been developed in parallel to the linux kernel, +which had and is having many major and minor changes which are not backward +compatible. Quite definitely aztcd.c version 1.80 and newer will NOT work +in kernels older than 1.3.33. So please always use the most recent version +of aztcd.c with the appropriate linux-kernel. + +3. CONFIGURING YOUR KERNEL +If your kernel is already configured for using the AZTECH driver you will +see the following message while Linux boots: + Aztech CD-ROM Init: DriverVersion= BaseAddress= + Aztech CD-ROM Init: FirmwareVersion=>> + Aztech CD-ROM Init: detected + Aztech CD-ROM Init: End +If the message looks different and you are sure to have a supported drive, +it may have a different base address. The Aztech driver does look for the +CD-ROM drive at the base address specified in aztcd.h at compile time. This +address can be overwritten by boot parameter aztcd=....You should reboot and +start Linux with boot parameter aztcd=, e.g. aztcd=0x320. If +you do not know the base address, start your PC with DOS and look at the boot +message of your CD-ROM's DOS driver. If that still does not help, use boot +parameter aztcd=,0x79 , this tells aztcd to try a little harder. +aztcd may be configured to use autoprobing the base address by recompiling +it (see chapter 4.). + +If the message looks correct, as user 'root' you should be able to mount the +drive by + mount -t iso9660 -r /dev/aztcd0 /mnt +and use it as any other filesystem. (If this does not work, check if +/dev/aztcd0 and /mnt do exist and create them, if necessary by doing + mknod /dev/aztcd0 b 29 0 + mkdir /mnt + +If you still get a different message while Linux boots or when you get the +message, that the ISO9660-filesystem is not supported by your kernel, when +you try to mount the CD-ROM drive, you have to recompile your kernel. + +If you do *not* have an Aztech/Orchid/Okano/Wearnes/TXC drive and want to +bypass drive detection during Linux boot up, start with boot parameter aztcd=0. + +Most distributions nowadays do contain a boot disk image containing aztcd. +Please note, that this driver will not work with IDE/ATAPI drives! With these +you must use ide-cd.c instead. + +4. RECOMPILING YOUR KERNEL +If your kernel is not yet configured for the AZTECH driver and the ISO9660- +filesystem, you have to recompile your kernel: + +- Edit aztcd.h to set the I/O-address to your I/O-Base address (AZT_BASE_ADDR), + the driver does not use interrupts or DMA, so if you are using an AZTECH + CD268, an ORCHID CD-3110 or ORCHID/WEARNES CDD110 that's the only item you + have to set up. If you have a soundcard, read chapter 4.2. + Users of other drives should read chapter OTHER DRIVES of this file. + You also can configure that address by kernel boot parameter aztcd=... +- aztcd may be configured to use autoprobing the base address by setting + AZT_BASE_ADDR to '-1'. In that case aztcd probes the addresses listed + under AZT_BASE_AUTO. But please remember, that autoprobing always may + incorrectly influence other hardware components too! +- There are some other points, which may be configured, e.g. auto-eject the + CD when unmounting a drive, tray locking etc., see aztcd.h for details. +- If you're using a linux kernel version prior to 2.1.0, in aztcd.h + uncomment the line '#define AZT_KERNEL_PRIOR_2_1' +- Build a new kernel, configure it for 'Aztech/Orchid/Okano/Wearnes support' + (if you want aztcd to be part of the kernel). Do not configure it for + 'Aztech... support', if you want to use aztcd as a run time loadable module. + But in any case you must have the ISO9660-filesystem included in your + kernel. +- Activate the new kernel, normally this is done by running LILO (don't for- + get to configure it before and to keep a copy of your old kernel in case + something goes wrong!). +- Reboot +- If you've included aztcd in your kernel, you now should see during boot + some messages like + Aztech CD-ROM Init: DriverVersion= BaseAddress= + Aztech CD-ROM Init: FirmwareVersion= + Aztech CD-ROM Init: detected + Aztech CD-ROM Init: End +- If you have not included aztcd in your kernel, but want to load aztcd as a + run time loadable module see 4.1. +- If the message looks correct, as user 'root' you should be able to mount + the drive by + mount -t iso9660 -r /dev/aztcd0 /mnt + and use it as any other filesystem. (If this does not work, check if + /dev/aztcd0 and /mnt do exist and create them, if necessary by doing + mknod /dev/aztcd0 b 29 0 + mkdir /mnt +- If this still does not help, see chapters OTHER DRIVES and DEBUGGING. + +4.1 AZTCD AS A RUN-TIME LOADABLE MODULE +If you do not need aztcd permanently, you can also load and remove the driver +during runtime via insmod and rmmod. To build aztcd as a loadable module you +must configure your kernel for AZTECH module support (answer 'm' when con- +figuring the kernel). Anyhow, you may run into problems, if the version of +your boot kernel is not the same than the source kernel version, from which +you create the modules. So rebuild your kernel, if necessary. + +Now edit the base address of your AZTECH interface card in +/usr/src/linux/drivers/cdrom/aztcd.h to the appropriate value. +aztcd may be configured to use autoprobing the base address by setting +AZT_BASE_ADDR to '-1'. In that case aztcd probes the addresses listed +under AZT_BASE_AUTO. But please remember, that autoprobing always may +incorrectly influence other hardware components too! +There are also some special features which may be configured, e.g. +auto-eject a CD when unmounting the drive etc; see aztcd.h for details. +Then change to /usr/src/linux and do a + make modules + make modules_install +After that you can run-time load the driver via + insmod /lib/modules/X.X.X/misc/aztcd.o +and remove it via rmmod aztcd. +If you did not set the correct base address in aztcd.h, you can also supply the +base address when loading the driver via + insmod /lib/modules/X.X.X/misc/aztcd.o aztcd= +Again specifying aztcd=-1 will cause autoprobing. +If you do not have the iso9660-filesystem in your boot kernel, you also have +to load it before you can mount the CDROM: + insmod /lib/modules/X.X.X/fs/isofs.o +The mount procedure works as described in 4. above. +(In all commands 'X.X.X' is the current linux kernel version number) + +4.2 CDROM CONNECTED TO A SOUNDCARD +Most soundcards do have a bus interface to the CDROM-drive. In many cases +this soundcard needs to be configured, before the CDROM can be used. This +configuration procedure consists of writing some kind of initialization +data to the soundcard registers. The AZTECH-CDROM driver in the moment does +only support one type of soundcard (SoundWave32). Users of other soundcards +should try to boot DOS first and let their DOS drivers initialize the +soundcard and CDROM, then warm boot (or use loadlin) their PC to start +Linux. +Support for the CDROM-interface of SoundWave32-soundcards is directly +implemented in the AZTECH driver. Please edit linux/drivers/cdrom/aztdc.h, +uncomment line '#define AZT_SW32' and set the appropriate value for +AZT_BASE_ADDR and AZT_SW32_BASE_ADDR. This support was tested with an Orchid +CDS-3110 connected to a SoundWave32. +If you want your soundcard to be supported, find out, how it needs to be +configured and mail me (see 6.) the appropriate information. + +5. KNOWN PROBLEMS, FUTURE DEVELOPMENTS +5.1 MULTISESSION SUPPORT +Multisession support for CD's still is a myth. I implemented and tested a basic +support for multisession and XA CDs, but I still have not enough CDs and appli- +cations to test it rigorously. So if you'd like to help me, please contact me +(Email address see below). As of version 1.4 and newer you can enable the +multisession support in aztcd.h by setting AZT_MULTISESSION to 1. Doing so +will cause the ISO9660-filesystem to deal with multisession CDs, ie. redirect +requests to the Table of Contents (TOC) information from the last session, +which contains the info of all previous sessions etc.. If you do set +AZT_MULTISESSION to 0, you can use multisession CDs anyway. In that case the +drive's firmware will do automatic redirection. For the ISO9660-filesystem any +multisession CD will then look like a 'normal' single session CD. But never- +theless the data of all sessions are viewable and accessible. So with practical- +ly all real world applications you won't notice the difference. But as future +applications may make use of advanced multisession features, I've started to +implement the interface for the ISO9660 multisession interface via ioctl +CDROMMULTISESSION. + +5.2 STATUS RECOGNITION +The drive status recognition does not work correctly in all cases. Changing +a disk or having the door open, when a drive is already mounted, is detected +by the Aztech driver itself, but nevertheless causes multiple read attempts +by the different layers of the ISO9660-filesystem driver, which finally timeout, +so you have to wait quite a little... But isn't it bad style to change a disk +in a mounted drive, anyhow ?! + +The driver uses busy wait in most cases for the drive handshake (macros +STEN_LOW and DTEN_LOW). I tested with a 486/DX2 at 66MHz and a Pentium at +60MHz and 90MHz. Whenever you use a much faster machine you are likely to get +timeout messages. In that case edit aztcd.h and increase the timeout value +AZT_TIMEOUT. + +For some 'slow' drive commands I implemented waiting with a timer waitqueue +(macro STEN_LOW_WAIT). If you get this timeout message, you may also edit +aztcd.h and increase the timeout value AZT_STATUS_DELAY. The waitqueue has +shown to be a little critical. If you get kernel panic messages, edit aztcd.c +and substitute STEN_LOW_WAIT by STEN_LOW. Busy waiting with STEN_LOW is more +stable, but also causes CPU overhead. + +5.3 DOSEMU's CD-ROM SUPPORT +With release 1.20 aztcd was modified to allow access to CD-ROMS when running +under dosemu-0.60.0 aztcd-versions before 1.20 are most likely to crash +Linux, when a CD-ROM is accessed under dosemu. This problem has partly been +fixed, but still when accessing a directory for the first time the system +might hang for some 30sec. So be patient, when using dosemu's CD-ROM support +in combination with aztcd :-) ! +This problem has now (July 1995) been fixed by a modification to dosemu's +CD-ROM driver. The new version came with dosemu-0.60.2, see dosemu's +README.CDROM. + +6. BUG REPORTS +Please send detailed bug reports and bug fixes via EMail to + + Werner.Zimmermann@fht-esslingen.de + +Please include a description of your CD-ROM drive type and interface card, +the exact firmware message during Linux bootup, the version number of the +AZTECH-CDROM-driver and the Linux kernel version. Also a description of your +system's other hardware could be of interest, especially microprocessor type, +clock frequency, other interface cards such as soundcards, ethernet adapter, +game cards etc.. + +I will try to collect the reports and make the necessary modifications from +time to time. I may also come back to you directly with some bug fixes and +ask you to do further testing and debugging. + +Editors of CD-ROMs are invited to send a 'cooperation' copy of their +CD-ROMs to the volunteers, who provided the CD-ROM support for Linux. My +snail mail address for such 'stuff' is + Prof. Dr. W. Zimmermann + Fachhochschule fuer Technik Esslingen + Fachbereich IT + Flandernstrasse 101 + D-73732 Esslingen + Germany + + +7. OTHER DRIVES +The following drives ORCHID CDS3110, OKANO CDD110, WEARNES CDD110 and Conrad +TXC Nr. 993123-series 04 nearly look the same as AZTECH CDA268-01A, especially +they seem to use the same command codes. So it was quite simple to make the +AZTECH driver work with these drives. + +Unfortunately I do not have any of these drives available, so I couldn't test +it myself. In some installations, it seems necessary to initialize the drive +with the DOS driver before (especially if combined with a sound card) and then +do a warm boot (CTRL-ALT-RESET) or start Linux from DOS, e.g. with 'loadlin'. + +If you do not succeed, read chapter DEBUGGING. Thanks in advance! + +Sorry for the inconvenience, but it is difficult to develop for hardware, +which you don't have available for testing. So if you like, please help us. + +If you do have a CyCDROM CR520ie thanks to Hilmar Berger's help your chances +are good, that it will work with aztcd. The CR520ie is sold as an IDE-drive +and really is connected to the IDE interface (primary at 0x1F0 or secondary +at 0x170, configured as slave, not as master). Nevertheless it is not ATAPI +compatible but still uses Aztech's command codes. + + +8. DEBUGGING : IF YOU DON'T SUCCEED, TRY THE FOLLOWING +-reread the complete README file +-make sure, that your drive is hardware configured for + transfer mode: polled + IRQ: not used + DMA: not used + Base Address: something like 300, 320 ... + You can check this, when you start the DOS driver, which came with your + drive. By appropriately configuring the drive and the DOS driver you can + check, whether your drive does operate in this mode correctly under DOS. If + it does not operate under DOS, it won't under Linux. + If your drive's base address is something like 0x170 or 0x1F0 (and it is + not a CyCDROM CR520ie or CR 940ie) you most likely are having an IDE/ATAPI- + compatible drive, which is not supported by aztcd.c, use ide-cd.c instead. + Make sure the Base Address is configured correctly in aztcd.h, also make + sure, that /dev/aztcd0 exists with the correct major number (compare it with + the entry in file /usr/include/linux/major.h for the Aztech drive). +-insert a CD-ROM and close the tray +-cold boot your PC (i.e. via the power on switch or the reset button) +-if you start Linux via DOS, e.g. using loadlin, make sure, that the DOS + driver for the CD-ROM drive is not loaded (comment out the calling lines + in DOS' config.sys!) +-look for the aztcd: init message during Linux init and note them exactly +-log in as root and do a mount -t iso9660 /dev/aztcd0 /mnt +-if you don't succeed in the first time, try several times. Try also to open + and close the tray, then mount again. Please note carefully all commands + you typed in and the aztcd-messages, which you get. +-if you get an 'Aztech CD-ROM init: aborted' message, read the remarks about + the version string below. + +If this does not help, do the same with the following differences +-start DOS before; make now sure, that the DOS driver for the CD-ROM is + loaded under DOS (i.e. uncomment it again in config.sys) +-warm boot your PC (i.e. via CTRL-ALT-DEL) + if you have it, you can also start via loadlin (try both). + ... + Again note all commands and the aztcd-messages. + +If you see STEN_LOW or STEN_LOW_WAIT error messages, increase the timeout +values. + +If this still does not help, +-look in aztcd.c for the lines #if 0 + #define AZT_TEST1 + ... + #endif + and substitute '#if 0' by '#if 1'. +-recompile your kernel and repeat the above two procedures. You will now get + a bundle of debugging messages from the driver. Again note your commands + and the appropriate messages. If you have syslogd running, these messages + may also be found in syslogd's kernel log file. Nevertheless in some + installations syslogd does not yet run, when init() is called, thus look for + the aztcd-messages during init, before the login-prompt appears. + Then look in aztcd.c, to find out, what happened. The normal calling sequence + is: aztcd_init() during Linux bootup procedure init() + after doing a 'mount -t iso9660 /dev/aztcd0 /mnt' the normal calling sequence is + aztcd_open() -> Status 2c after cold reboot with CDROM or audio CD inserted + -> Status 8 after warm reboot with CDROM inserted + -> Status 2e after cold reboot with no disk, closed tray + -> Status 6e after cold reboot, mount with door open + aztUpdateToc() + aztGetDiskInfo() + aztGetQChannelInfo() repeated several times + aztGetToc() + aztGetQChannelInfo() repeated several times + a list of track information + do_aztcd_request() } + azt_transfer() } repeated several times + azt_poll } + Check, if there is a difference in the calling sequence or the status flags! + + There are a lot of other messages, eg. the ACMD-command code (defined in + aztcd.h), status info from the getAztStatus-command and the state sequence of + the finite state machine in azt_poll(). The most important are the status + messages, look how they are defined and try to understand, if they make + sense in the context where they appear. With a CD-ROM inserted the status + should always be 8, except in aztcd_open(). Try to open the tray, insert an + audio disk, insert no disk or reinsert the CD-ROM and check, if the status + bits change accordingly. The status bits are the most likely point, where + the drive manufacturers may implement changes. + +If you still don't succeed, a good point to start is to look in aztcd.c in +function aztcd_init, where the drive should be detected during init. Do the +following: +-reboot the system with boot parameter 'aztcd=,0x79'. With + parameter 0x79 most of the drive version detection is bypassed. After that + you should see the complete version string including leading and trailing + blanks during init. + Now adapt the statement + if ((result[1]=='A')&&(result[2]=='Z' ...) + in aztcd_init() to exactly match the first 3 or 4 letters you have seen. +-Another point is the 'smart' card detection feature in aztcd_init(). Normally + the CD-ROM drive is ready, when aztcd_init is trying to read the version + string and a time consuming ACMD_SOFT_RESET command can be avoided. This is + detected by looking, if AFL_OP_OK can be read correctly. If the CD-ROM drive + hangs in some unknown state, e.g. because of an error before a warm start or + because you first operated under DOS, even the version string may be correct, + but the following commands will not. Then change the code in such a way, + that the ACMD_SOFT_RESET is issued in any case, by substituting the + if-statement 'if ( ...=AFL_OP_OK)' by 'if (1)'. + +If you succeed, please mail me the exact version string of your drive and +the code modifications, you have made together with a short explanation. +If you don't succeed, you may mail me the output of the debugging messages. +But remember, they are only useful, if they are exact and complete and you +describe in detail your hardware setup and what you did (cold/warm reboot, +with/without DOS, DOS-driver started/not started, which Linux-commands etc.) + + +9. TECHNICAL HISTORY OF THE DRIVER +The AZTECH-Driver is a rework of the Mitsumi-Driver. Four major items had to +be reworked: + +a) The Mitsumi drive does issue complete status information acknowledging +each command, the Aztech drive does only signal that the command was +processed. So whenever the complete status information is needed, an extra +ACMD_GET_STATUS command is issued. The handshake procedure for the drive +can be found in the functions aztSendCmd(), sendAztCmd() and getAztStatus(). + +b) The Aztech Drive does not have a ACMD_GET_DISK_INFO command, so the +necessary info about the number of tracks (firstTrack, lastTrack), disk +length etc. has to be read from the TOC in the lead in track (see function +aztGetDiskInfo()). + +c) Whenever data is read from the drive, the Mitsumi drive is started with a +command to read an indefinite (0xffffff) number of sectors. When the appropriate +number of sectors is read, the drive is stopped by a ACDM_STOP command. This +does not work with the Aztech drive. I did not find a way to stop it. The +stop and pause commands do only work in AUDIO mode but not in DATA mode. +Therefore I had to modify the 'finite state machine' in function azt_poll to +only read a certain number of sectors and then start a new read on demand. As I +have not completely understood, how the buffer/caching scheme of the Mitsumi +driver was implemented, I am not sure, if I have covered all cases correctly, +whenever you get timeout messages, the bug is most likely to be in that +function azt_poll() around switch(cmd) .... case ACD_S_DATA. + +d) I did not get information about changing drive mode. So I doubt, that the +code around function azt_poll() case AZT_S_MODE does work. In my test I have +not been able to switch to reading in raw mode. For reading raw mode, Aztech +uses a different command than for cooked mode, which I only have implemen- +ted in the ioctl-section but not in the section which is used by the ISO9660. + +The driver was developed on an AST PC with Intel 486/DX2, 8MB RAM, 340MB IDE +hard disk and on an AST PC with Intel Pentium 60MHz, 16MB RAM, 520MB IDE +running Linux kernel version 1.0.9 from the LST 1.8 Distribution. The kernel +was compiled with gcc.2.5.8. My CD-ROM drive is an Aztech CDA268-01A. My +drive says, that it has Firmware Version AZT26801A1.3. It came with an ISA-bus +interface card and works with polled I/O without DMA and without interrupts. +The code for all other drives was 'remote' tested and debugged by a number of +volunteers on the Internet. + +Points, where I feel that possible problems might be and all points where I +did not completely understand the drive's behaviour or trust my own code are +marked with /*???*/ in the source code. There are also some parts in the +Mitsumi driver, where I did not completely understand their code. + + +10. ACKNOWLEDGMENTS +Without the help of P.Bush, Aztech, who delivered technical information +about the Aztech Drive and without the help of E.Moenkeberg, GWDG, who did a +great job in analyzing the command structure of various CD-ROM drives, this +work would not have been possible. E.Moenkeberg was also a great help in +making the software 'kernel ready' and in answering many of the CDROM-related +questions in the newsgroups. He really is *the* Linux CD-ROM guru. Thanks +also to all the guys on the Internet, who collected valuable technical +information about CDROMs. + +Joe Nardone (joe@access.digex.net) was a patient tester even for my first +trial, which was more than slow, and made suggestions for code improvement. +Especially the 'finite state machine' azt_poll() was rewritten by Joe to get +clean C code and avoid the ugly 'gotos', which I copied from mcd.c. + +Robby Schirmer (schirmer@fmi.uni-passau.de) tested the audio stuff (ioctls) +and suggested a lot of patches for them. + +Joseph Piskor and Peter Nugent were the first users with the ORCHID CD3110 +and also were very patient with the problems which occurred. + +Reinhard Max delivered the information for the CDROM-interface of the +SoundWave32 soundcards. + +Jochen Kunz and Olaf Kaluza delivered the information for supporting Conrad's +TXC drive. + +Hilmar Berger delivered the patches for supporting CyCDROM CR520ie. + +Anybody, who is interested in these items should have a look at 'ftp.gwdg.de', +directory 'pub/linux/cdrom' and at 'ftp.cdrom.com', directory 'pub/cdrom'. + +11. PROGRAMMING ADD ONs: cdplay.c +You can use the ioctl-functions included in aztcd.c in your own programs. As +an example on how to do this, you will find a tiny CD Player for audio CDs +named 'cdplay.c'. It allows you to play audio CDs. You can play a specified +track, pause and resume or skip tracks forward and backwards. If you quit the +program without stopping the drive, playing is continued. You can also +(mis)use cdplay to read and hexdump data disks. You can find the code in the +APPENDIX of this file, which you should cut out with an editor and store in a +separate file 'cdplay.c'. To compile it and make it executable, do + gcc -s -Wall -O2 -L/usr/lib cdplay.c -o /usr/local/bin/cdplay # compiles it + chmod +755 /usr/local/bin/cdplay # makes it executable + ln -s /dev/aztcd0 /dev/cdrom # creates a link + (for /usr/lib substitute the top level directory, where your include files + reside, and for /usr/local/bin the directory, where you want the executable + binary to reside ) + +You have to set the correct permissions for cdplay *and* for /dev/mcd0 or +/dev/aztcd0 in order to use it. Remember, that you should not have /dev/cdrom +mounted, when you're playing audio CDs. + +This program is just a hack for testing the ioctl-functions in aztcd.c. I will +not maintain it, so if you run into problems, discard it or have a look into +the source code 'cdplay.c'. The program does only contain a minimum of user +protection and input error detection. If you use the commands in the wrong +order or if you try to read a CD at wrong addresses, you may get error messages +or even hang your machine. If you get STEN_LOW, STEN_LOW_WAIT or segment violation +error messages when using cdplay, after that, the system might not be stable +any more, so you'd better reboot. As the ioctl-functions run in kernel mode, +most normal Linux-multitasking protection features do not work. By using +uninitialized 'wild' pointers etc., it is easy to write to other users' data +and program areas, destroy kernel tables etc.. So if you experiment with ioctls +as always when you are doing systems programming and kernel hacking, you +should have a backup copy of your system in a safe place (and you also +should try restoring from a backup copy first)! + +A reworked and improved version called 'cdtester.c', which has yet more +features for testing CDROM-drives can be found in +Documentation/cdrom/sbpcd, written by E.Moenkeberg. + +Werner Zimmermann +Fachhochschule fuer Technik Esslingen +(EMail: Werner.Zimmermann@fht-esslingen.de) +October, 1997 + +--------------------------------------------------------------------------- +APPENDIX: Source code of cdplay.c + +/* Tiny Audio CD Player + + Copyright 1994, 1995, 1996 Werner Zimmermann (Werner.Zimmermann@fht-esslingen.de) + +This program originally was written to test the audio functions of the +AZTECH.CDROM-driver, but it should work with every CD-ROM drive. Before +using it, you should set a symlink from /dev/cdrom to your real CDROM +device. + +The GNU General Public License applies to this program. + +History: V0.1 W.Zimmermann: First release. Nov. 8, 1994 + V0.2 W.Zimmermann: Enhanced functionality. Nov. 9, 1994 + V0.3 W.Zimmermann: Additional functions. Nov. 28, 1994 + V0.4 W.Zimmermann: fixed some bugs. Dec. 17, 1994 + V0.5 W.Zimmermann: clean 'scanf' commands without compiler warnings + Jan. 6, 1995 + V0.6 W.Zimmermann: volume control (still experimental). Jan. 24, 1995 + V0.7 W.Zimmermann: read raw modified. July 26, 95 +*/ + +#include +#include +#include +#include +#include +#include +#include +#include + +void help(void) +{ printf("Available Commands: STOP s EJECT/CLOSE e QUIT q\n"); + printf(" PLAY TRACK t PAUSE p RESUME r\n"); + printf(" NEXT TRACK n REPEAT LAST l HELP h\n"); + printf(" SUB CHANNEL c TRACK INFO i PLAY AT a\n"); + printf(" READ d READ RAW w VOLUME v\n"); +} + +int main(void) +{ int handle; + unsigned char command=' ', ini=0, first=1, last=1; + unsigned int cmd, i,j,k, arg1,arg2,arg3; + struct cdrom_ti ti; + struct cdrom_tochdr tocHdr; + struct cdrom_subchnl subchnl; + struct cdrom_tocentry entry; + struct cdrom_msf msf; + union { struct cdrom_msf msf; + unsigned char buf[CD_FRAMESIZE_RAW]; + } azt; + struct cdrom_volctrl volctrl; + + printf("\nMini-Audio CD-Player V0.72 (C) 1994,1995,1996 W.Zimmermann\n"); + handle=open("/dev/cdrom",O_RDWR); + ioctl(handle,CDROMRESUME); + + if (handle<=0) + { printf("Drive Error: already playing, no audio disk, door open\n"); + printf(" or no permission (you must be ROOT in order to use this program)\n"); + } + else + { help(); + while (1) + { printf("Type command (h = help): "); + scanf("%s",&command); + switch (command) + { case 'e': cmd=CDROMEJECT; + ioctl(handle,cmd); + break; + case 'p': if (!ini) + { printf("Command not allowed - play track first\n"); + } + else + { cmd=CDROMPAUSE; + if (ioctl(handle,cmd)) printf("Drive Error\n"); + } + break; + case 'r': if (!ini) + { printf("Command not allowed - play track first\n"); + } + else + { cmd=CDROMRESUME; + if (ioctl(handle,cmd)) printf("Drive Error\n"); + } + break; + case 's': cmd=CDROMPAUSE; + if (ioctl(handle,cmd)) printf("Drive error or already stopped\n"); + cmd=CDROMSTOP; + if (ioctl(handle,cmd)) printf("Drive error\n"); + break; + case 't': cmd=CDROMREADTOCHDR; + if (ioctl(handle,cmd,&tocHdr)) printf("Drive Error\n"); + first=tocHdr.cdth_trk0; + last= tocHdr.cdth_trk1; + if ((first==0)||(first>last)) + { printf ("--could not read TOC\n"); + } + else + { printf("--first track: %d --last track: %d --enter track number: ",first,last); + cmd=CDROMPLAYTRKIND; + scanf("%i",&arg1); + ti.cdti_trk0=arg1; + if (ti.cdti_trk0last) ti.cdti_trk0=last; + ti.cdti_ind0=0; + ti.cdti_trk1=last; + ti.cdti_ind1=0; + if (ioctl(handle,cmd,&ti)) printf("Drive Error\n"); + ini=1; + } + break; + case 'n': if (!ini++) + { if (ioctl(handle,CDROMREADTOCHDR,&tocHdr)) printf("Drive Error\n"); + first=tocHdr.cdth_trk0; + last= tocHdr.cdth_trk1; + ti.cdti_trk0=first-1; + } + if ((first==0)||(first>last)) + { printf ("--could not read TOC\n"); + } + else + { cmd=CDROMPLAYTRKIND; + if (++ti.cdti_trk0 > last) ti.cdti_trk0=last; + ti.cdti_ind0=0; + ti.cdti_trk1=last; + ti.cdti_ind1=0; + if (ioctl(handle,cmd,&ti)) printf("Drive Error\n"); + ini=1; + } + break; + case 'l': if (!ini++) + { if (ioctl(handle,CDROMREADTOCHDR,&tocHdr)) printf("Drive Error\n"); + first=tocHdr.cdth_trk0; + last= tocHdr.cdth_trk1; + ti.cdti_trk0=first+1; + } + if ((first==0)||(first>last)) + { printf ("--could not read TOC\n"); + } + else + { cmd=CDROMPLAYTRKIND; + if (--ti.cdti_trk0 < first) ti.cdti_trk0=first; + ti.cdti_ind0=0; + ti.cdti_trk1=last; + ti.cdti_ind1=0; + if (ioctl(handle,cmd,&ti)) printf("Drive Error\n"); + ini=1; + } + break; + case 'c': subchnl.cdsc_format=CDROM_MSF; + if (ioctl(handle,CDROMSUBCHNL,&subchnl)) + printf("Drive Error\n"); + else + { printf("AudioStatus:%s Track:%d Mode:%d MSF=%d:%d:%d\n", \ + subchnl.cdsc_audiostatus==CDROM_AUDIO_PLAY ? "PLAYING":"NOT PLAYING",\ + subchnl.cdsc_trk,subchnl.cdsc_adr, \ + subchnl.cdsc_absaddr.msf.minute, subchnl.cdsc_absaddr.msf.second, \ + subchnl.cdsc_absaddr.msf.frame); + } + break; + case 'i': if (!ini) + { printf("Command not allowed - play track first\n"); + } + else + { cmd=CDROMREADTOCENTRY; + printf("Track No.: "); + scanf("%d",&arg1); + entry.cdte_track=arg1; + if (entry.cdte_tracklast) entry.cdte_track=last; + entry.cdte_format=CDROM_MSF; + if (ioctl(handle,cmd,&entry)) + { printf("Drive error or invalid track no.\n"); + } + else + { printf("Mode %d Track, starts at %d:%d:%d\n", \ + entry.cdte_adr,entry.cdte_addr.msf.minute, \ + entry.cdte_addr.msf.second,entry.cdte_addr.msf.frame); + } + } + break; + case 'a': cmd=CDROMPLAYMSF; + printf("Address (min:sec:frame) "); + scanf("%d:%d:%d",&arg1,&arg2,&arg3); + msf.cdmsf_min0 =arg1; + msf.cdmsf_sec0 =arg2; + msf.cdmsf_frame0=arg3; + if (msf.cdmsf_sec0 > 59) msf.cdmsf_sec0 =59; + if (msf.cdmsf_frame0> 74) msf.cdmsf_frame0=74; + msf.cdmsf_min1=60; + msf.cdmsf_sec1=00; + msf.cdmsf_frame1=00; + if (ioctl(handle,cmd,&msf)) + { printf("Drive error or invalid address\n"); + } + break; +#ifdef AZT_PRIVATE_IOCTLS /*not supported by every CDROM driver*/ + case 'd': cmd=CDROMREADCOOKED; + printf("Address (min:sec:frame) "); + scanf("%d:%d:%d",&arg1,&arg2,&arg3); + azt.msf.cdmsf_min0 =arg1; + azt.msf.cdmsf_sec0 =arg2; + azt.msf.cdmsf_frame0=arg3; + if (azt.msf.cdmsf_sec0 > 59) azt.msf.cdmsf_sec0 =59; + if (azt.msf.cdmsf_frame0> 74) azt.msf.cdmsf_frame0=74; + if (ioctl(handle,cmd,&azt.msf)) + { printf("Drive error, invalid address or unsupported command\n"); + } + k=0; + getchar(); + for (i=0;i<128;i++) + { printf("%4d:",i*16); + for (j=0;j<16;j++) + { printf("%2x ",azt.buf[i*16+j]); + } + for (j=0;j<16;j++) + { if (isalnum(azt.buf[i*16+j])) + printf("%c",azt.buf[i*16+j]); + else + printf("."); + } + printf("\n"); + k++; + if (k>=20) + { printf("press ENTER to continue\n"); + getchar(); + k=0; + } + } + break; + case 'w': cmd=CDROMREADRAW; + printf("Address (min:sec:frame) "); + scanf("%d:%d:%d",&arg1,&arg2,&arg3); + azt.msf.cdmsf_min0 =arg1; + azt.msf.cdmsf_sec0 =arg2; + azt.msf.cdmsf_frame0=arg3; + if (azt.msf.cdmsf_sec0 > 59) azt.msf.cdmsf_sec0 =59; + if (azt.msf.cdmsf_frame0> 74) azt.msf.cdmsf_frame0=74; + if (ioctl(handle,cmd,&azt)) + { printf("Drive error, invalid address or unsupported command\n"); + } + k=0; + for (i=0;i<147;i++) + { printf("%4d:",i*16); + for (j=0;j<16;j++) + { printf("%2x ",azt.buf[i*16+j]); + } + for (j=0;j<16;j++) + { if (isalnum(azt.buf[i*16+j])) + printf("%c",azt.buf[i*16+j]); + else + printf("."); + } + printf("\n"); + k++; + if (k>=20) + { getchar(); + k=0; + } + } + break; +#endif + case 'v': cmd=CDROMVOLCTRL; + printf("--Channel 0 Left (0-255): "); + scanf("%d",&arg1); + printf("--Channel 1 Right (0-255): "); + scanf("%d",&arg2); + volctrl.channel0=arg1; + volctrl.channel1=arg2; + volctrl.channel2=0; + volctrl.channel3=0; + if (ioctl(handle,cmd,&volctrl)) + { printf("Drive error or unsupported command\n"); + } + break; + case 'q': if (close(handle)) printf("Drive Error: CLOSE\n"); + exit(0); + case 'h': help(); + break; + default: printf("unknown command\n"); + break; + } + } + } + return 0; +} diff --git a/Documentation/cdrom/cdrom-standard.tex b/Documentation/cdrom/cdrom-standard.tex new file mode 100644 index 00000000000..92f94e59758 --- /dev/null +++ b/Documentation/cdrom/cdrom-standard.tex @@ -0,0 +1,1022 @@ +\documentclass{article} +\def\version{$Id: cdrom-standard.tex,v 1.9 1997/12/28 15:42:49 david Exp $} +\newcommand{\newsection}[1]{\newpage\section{#1}} + +\evensidemargin=0pt +\oddsidemargin=0pt +\topmargin=-\headheight \advance\topmargin by -\headsep +\textwidth=15.99cm \textheight=24.62cm % normal A4, 1'' margin + +\def\linux{{\sc Linux}} +\def\cdrom{{\sc cd-rom}} +\def\UCD{{\sc Uniform cd-rom Driver}} +\def\cdromc{{\tt {cdrom.c}}} +\def\cdromh{{\tt {cdrom.h}}} +\def\fo{\sl} % foreign words +\def\ie{{\fo i.e.}} +\def\eg{{\fo e.g.}} + +\everymath{\it} \everydisplay{\it} +\catcode `\_=\active \def_{\_\penalty100 } +\catcode`\<=\active \def<#1>{{\langle\hbox{\rm#1}\rangle}} + +\begin{document} +\title{A \linux\ \cdrom\ standard} +\author{David van Leeuwen\\{\normalsize\tt david@ElseWare.cistron.nl} +\\{\footnotesize updated by Erik Andersen {\tt(andersee@debian.org)}} +\\{\footnotesize updated by Jens Axboe {\tt(axboe@image.dk)}}} +\date{12 March 1999} + +\maketitle + +\newsection{Introduction} + +\linux\ is probably the Unix-like operating system that supports +the widest variety of hardware devices. The reasons for this are +presumably +\begin{itemize} +\item + The large list of hardware devices available for the many platforms + that \linux\ now supports (\ie, i386-PCs, Sparc Suns, etc.) +\item + The open design of the operating system, such that anybody can write a + driver for \linux. +\item + There is plenty of source code around as examples of how to write a driver. +\end{itemize} +The openness of \linux, and the many different types of available +hardware has allowed \linux\ to support many different hardware devices. +Unfortunately, the very openness that has allowed \linux\ to support +all these different devices has also allowed the behavior of each +device driver to differ significantly from one device to another. +This divergence of behavior has been very significant for \cdrom\ +devices; the way a particular drive reacts to a `standard' $ioctl()$ +call varies greatly from one device driver to another. To avoid making +their drivers totally inconsistent, the writers of \linux\ \cdrom\ +drivers generally created new device drivers by understanding, copying, +and then changing an existing one. Unfortunately, this practice did not +maintain uniform behavior across all the \linux\ \cdrom\ drivers. + +This document describes an effort to establish Uniform behavior across +all the different \cdrom\ device drivers for \linux. This document also +defines the various $ioctl$s, and how the low-level \cdrom\ device +drivers should implement them. Currently (as of the \linux\ 2.1.$x$ +development kernels) several low-level \cdrom\ device drivers, including +both IDE/ATAPI and SCSI, now use this Uniform interface. + +When the \cdrom\ was developed, the interface between the \cdrom\ drive +and the computer was not specified in the standards. As a result, many +different \cdrom\ interfaces were developed. Some of them had their +own proprietary design (Sony, Mitsumi, Panasonic, Philips), other +manufacturers adopted an existing electrical interface and changed +the functionality (CreativeLabs/SoundBlaster, Teac, Funai) or simply +adapted their drives to one or more of the already existing electrical +interfaces (Aztech, Sanyo, Funai, Vertos, Longshine, Optics Storage and +most of the `NoName' manufacturers). In cases where a new drive really +brought its own interface or used its own command set and flow control +scheme, either a separate driver had to be written, or an existing +driver had to be enhanced. History has delivered us \cdrom\ support for +many of these different interfaces. Nowadays, almost all new \cdrom\ +drives are either IDE/ATAPI or SCSI, and it is very unlikely that any +manufacturer will create a new interface. Even finding drives for the +old proprietary interfaces is getting difficult. + +When (in the 1.3.70's) I looked at the existing software interface, +which was expressed through \cdromh, it appeared to be a rather wild +set of commands and data formats.\footnote{I cannot recollect what +kernel version I looked at, then, presumably 1.2.13 and 1.3.34---the +latest kernel that I was indirectly involved in.} It seemed that many +features of the software interface had been added to accommodate the +capabilities of a particular drive, in an {\fo ad hoc\/} manner. More +importantly, it appeared that the behavior of the `standard' commands +was different for most of the different drivers: \eg, some drivers +close the tray if an $open()$ call occurs when the tray is open, while +others do not. Some drivers lock the door upon opening the device, to +prevent an incoherent file system, but others don't, to allow software +ejection. Undoubtedly, the capabilities of the different drives vary, +but even when two drives have the same capability their drivers' +behavior was usually different. + +I decided to start a discussion on how to make all the \linux\ \cdrom\ +drivers behave more uniformly. I began by contacting the developers of +the many \cdrom\ drivers found in the \linux\ kernel. Their reactions +encouraged me to write the \UCD\ which this document is intended to +describe. The implementation of the \UCD\ is in the file \cdromc. This +driver is intended to be an additional software layer that sits on top +of the low-level device drivers for each \cdrom\ drive. By adding this +additional layer, it is possible to have all the different \cdrom\ +devices behave {\em exactly\/} the same (insofar as the underlying +hardware will allow). + +The goal of the \UCD\ is {\em not\/} to alienate driver developers who +have not yet taken steps to support this effort. The goal of \UCD\ is +simply to give people writing application programs for \cdrom\ drives +{\em one\/} \linux\ \cdrom\ interface with consistent behavior for all +\cdrom\ devices. In addition, this also provides a consistent interface +between the low-level device driver code and the \linux\ kernel. Care +is taken that 100\,\% compatibility exists with the data structures and +programmer's interface defined in \cdromh. This guide was written to +help \cdrom\ driver developers adapt their code to use the \UCD\ code +defined in \cdromc. + +Personally, I think that the most important hardware interfaces are +the IDE/ATAPI drives and, of course, the SCSI drives, but as prices +of hardware drop continuously, it is also likely that people may have +more than one \cdrom\ drive, possibly of mixed types. It is important +that these drives behave in the same way. In December 1994, one of the +cheapest \cdrom\ drives was a Philips cm206, a double-speed proprietary +drive. In the months that I was busy writing a \linux\ driver for it, +proprietary drives became obsolete and IDE/ATAPI drives became the +standard. At the time of the last update to this document (November +1997) it is becoming difficult to even {\em find} anything less than a +16 speed \cdrom\ drive, and 24 speed drives are common. + +\newsection{Standardizing through another software level} +\label{cdrom.c} + +At the time this document was conceived, all drivers directly +implemented the \cdrom\ $ioctl()$ calls through their own routines. This +led to the danger of different drivers forgetting to do important things +like checking that the user was giving the driver valid data. More +importantly, this led to the divergence of behavior, which has already +been discussed. + +For this reason, the \UCD\ was created to enforce consistent \cdrom\ +drive behavior, and to provide a common set of services to the various +low-level \cdrom\ device drivers. The \UCD\ now provides another +software-level, that separates the $ioctl()$ and $open()$ implementation +from the actual hardware implementation. Note that this effort has +made few changes which will affect a user's application programs. The +greatest change involved moving the contents of the various low-level +\cdrom\ drivers' header files to the kernel's cdrom directory. This was +done to help ensure that the user is only presented with only one cdrom +interface, the interface defined in \cdromh. + +\cdrom\ drives are specific enough (\ie, different from other +block-devices such as floppy or hard disc drives), to define a set +of common {\em \cdrom\ device operations}, $_dops$. +These operations are different from the classical block-device file +operations, $_fops$. + +The routines for the \UCD\ interface level are implemented in the file +\cdromc. In this file, the \UCD\ interfaces with the kernel as a block +device by registering the following general $struct\ file_operations$: +$$ +\halign{$#$\ \hfil&$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr +struct& file_operations\ cdrom_fops = \{\hidewidth\cr + &NULL, & lseek \cr + &block_read, & read---general block-dev read \cr + &block_write, & write---general block-dev write \cr + &NULL, & readdir \cr + &NULL, & select \cr + &cdrom_ioctl, & ioctl \cr + &NULL, & mmap \cr + &cdrom_open, & open \cr + &cdrom_release, & release \cr + &NULL, & fsync \cr + &NULL, & fasync \cr + &cdrom_media_changed, & media change \cr + &NULL & revalidate \cr +\};\cr +} +$$ + +Every active \cdrom\ device shares this $struct$. The routines +declared above are all implemented in \cdromc, since this file is the +place where the behavior of all \cdrom-devices is defined and +standardized. The actual interface to the various types of \cdrom\ +hardware is still performed by various low-level \cdrom-device +drivers. These routines simply implement certain {\em capabilities\/} +that are common to all \cdrom\ (and really, all removable-media +devices). + +Registration of a low-level \cdrom\ device driver is now done through +the general routines in \cdromc, not through the Virtual File System +(VFS) any more. The interface implemented in \cdromc\ is carried out +through two general structures that contain information about the +capabilities of the driver, and the specific drives on which the +driver operates. The structures are: +\begin{description} +\item[$cdrom_device_ops$] + This structure contains information about the low-level driver for a + \cdrom\ device. This structure is conceptually connected to the major + number of the device (although some drivers may have different + major numbers, as is the case for the IDE driver). +\item[$cdrom_device_info$] + This structure contains information about a particular \cdrom\ drive, + such as its device name, speed, etc. This structure is conceptually + connected to the minor number of the device. +\end{description} + +Registering a particular \cdrom\ drive with the \UCD\ is done by the +low-level device driver though a call to: +$$register_cdrom(struct\ cdrom_device_info * _info) +$$ +The device information structure, $_info$, contains all the +information needed for the kernel to interface with the low-level +\cdrom\ device driver. One of the most important entries in this +structure is a pointer to the $cdrom_device_ops$ structure of the +low-level driver. + +The device operations structure, $cdrom_device_ops$, contains a list +of pointers to the functions which are implemented in the low-level +device driver. When \cdromc\ accesses a \cdrom\ device, it does it +through the functions in this structure. It is impossible to know all +the capabilities of future \cdrom\ drives, so it is expected that this +list may need to be expanded from time to time as new technologies are +developed. For example, CD-R and CD-R/W drives are beginning to become +popular, and support will soon need to be added for them. For now, the +current $struct$ is: +$$ +\halign{$#$\ \hfil&$#$\ \hfil&\hbox to 10em{$#$\hss}& + $/*$ \rm# $*/$\hfil\cr +struct& cdrom_device_ops\ \{ \hidewidth\cr + &int& (* open)(struct\ cdrom_device_info *, int)\cr + &void& (* release)(struct\ cdrom_device_info *);\cr + &int& (* drive_status)(struct\ cdrom_device_info *, int);\cr + &int& (* media_changed)(struct\ cdrom_device_info *, int);\cr + &int& (* tray_move)(struct\ cdrom_device_info *, int);\cr + &int& (* lock_door)(struct\ cdrom_device_info *, int);\cr + &int& (* select_speed)(struct\ cdrom_device_info *, int);\cr + &int& (* select_disc)(struct\ cdrom_device_info *, int);\cr + &int& (* get_last_session) (struct\ cdrom_device_info *, + struct\ cdrom_multisession *{});\cr + &int& (* get_mcn)(struct\ cdrom_device_info *, struct\ cdrom_mcn *{});\cr + &int& (* reset)(struct\ cdrom_device_info *);\cr + &int& (* audio_ioctl)(struct\ cdrom_device_info *, unsigned\ int, + void *{});\cr + &int& (* dev_ioctl)(struct\ cdrom_device_info *, unsigned\ int, + unsigned\ long);\cr +\noalign{\medskip} + &const\ int& capability;& capability flags \cr + &int& n_minors;& number of active minor devices \cr +\};\cr +} +$$ +When a low-level device driver implements one of these capabilities, +it should add a function pointer to this $struct$. When a particular +function is not implemented, however, this $struct$ should contain a +NULL instead. The $capability$ flags specify the capabilities of the +\cdrom\ hardware and/or low-level \cdrom\ driver when a \cdrom\ drive +is registered with the \UCD. The value $n_minors$ should be a positive +value indicating the number of minor devices that are supported by +the low-level device driver, normally~1. Although these two variables +are `informative' rather than `operational,' they are included in +$cdrom_device_ops$ because they describe the capability of the {\em +driver\/} rather than the {\em drive}. Nomenclature has always been +difficult in computer programming. + +Note that most functions have fewer parameters than their +$blkdev_fops$ counterparts. This is because very little of the +information in the structures $inode$ and $file$ is used. For most +drivers, the main parameter is the $struct$ $cdrom_device_info$, from +which the major and minor number can be extracted. (Most low-level +\cdrom\ drivers don't even look at the major and minor number though, +since many of them only support one device.) This will be available +through $dev$ in $cdrom_device_info$ described below. + +The drive-specific, minor-like information that is registered with +\cdromc, currently contains the following fields: +$$ +\halign{$#$\ \hfil&$#$\ \hfil&\hbox to 10em{$#$\hss}& + $/*$ \rm# $*/$\hfil\cr +struct& cdrom_device_info\ \{ \hidewidth\cr + & struct\ cdrom_device_ops *& ops;& device operations for this major\cr + & struct\ cdrom_device_info *& next;& next device_info for this major\cr + & void *& handle;& driver-dependent data\cr +\noalign{\medskip} + & kdev_t& dev;& device number (incorporates minor)\cr + & int& mask;& mask of capability: disables them \cr + & int& speed;& maximum speed for reading data \cr + & int& capacity;& number of discs in a jukebox \cr +\noalign{\medskip} + &int& options : 30;& options flags \cr + &unsigned& mc_flags : 2;& media-change buffer flags \cr + & int& use_count;& number of times device is opened\cr + & char& name[20];& name of the device type\cr +\}\cr +}$$ +Using this $struct$, a linked list of the registered minor devices is +built, using the $next$ field. The device number, the device operations +struct and specifications of properties of the drive are stored in this +structure. + +The $mask$ flags can be used to mask out some of the capabilities listed +in $ops\to capability$, if a specific drive doesn't support a feature +of the driver. The value $speed$ specifies the maximum head-rate of the +drive, measured in units of normal audio speed (176\,kB/sec raw data or +150\,kB/sec file system data). The value $n_discs$ should reflect the +number of discs the drive can hold simultaneously, if it is designed +as a juke-box, or otherwise~1. The parameters are declared $const$ +because they describe properties of the drive, which don't change after +registration. + +A few registers contain variables local to the \cdrom\ drive. The +flags $options$ are used to specify how the general \cdrom\ routines +should behave. These various flags registers should provide enough +flexibility to adapt to the different users' wishes (and {\em not\/} the +`arbitrary' wishes of the author of the low-level device driver, as is +the case in the old scheme). The register $mc_flags$ is used to buffer +the information from $media_changed()$ to two separate queues. Other +data that is specific to a minor drive, can be accessed through $handle$, +which can point to a data structure specific to the low-level driver. +The fields $use_count$, $next$, $options$ and $mc_flags$ need not be +initialized. + +The intermediate software layer that \cdromc\ forms will perform some +additional bookkeeping. The use count of the device (the number of +processes that have the device opened) is registered in $use_count$. The +function $cdrom_ioctl()$ will verify the appropriate user-memory regions +for read and write, and in case a location on the CD is transferred, +it will `sanitize' the format by making requests to the low-level +drivers in a standard format, and translating all formats between the +user-software and low level drivers. This relieves much of the drivers' +memory checking and format checking and translation. Also, the necessary +structures will be declared on the program stack. + +The implementation of the functions should be as defined in the +following sections. Two functions {\em must\/} be implemented, namely +$open()$ and $release()$. Other functions may be omitted, their +corresponding capability flags will be cleared upon registration. +Generally, a function returns zero on success and negative on error. A +function call should return only after the command has completed, but of +course waiting for the device should not use processor time. + +\subsection{$Int\ open(struct\ cdrom_device_info * cdi, int\ purpose)$} + +$Open()$ should try to open the device for a specific $purpose$, which +can be either: +\begin{itemize} +\item[0] Open for reading data, as done by {\tt {mount()}} (2), or the +user commands {\tt {dd}} or {\tt {cat}}. +\item[1] Open for $ioctl$ commands, as done by audio-CD playing +programs. +\end{itemize} +Notice that any strategic code (closing tray upon $open()$, etc.)\ is +done by the calling routine in \cdromc, so the low-level routine +should only be concerned with proper initialization, such as spinning +up the disc, etc. % and device-use count + + +\subsection{$Void\ release(struct\ cdrom_device_info * cdi)$} + + +Device-specific actions should be taken such as spinning down the device. +However, strategic actions such as ejection of the tray, or unlocking +the door, should be left over to the general routine $cdrom_release()$. +This is the only function returning type $void$. + +\subsection{$Int\ drive_status(struct\ cdrom_device_info * cdi, int\ slot_nr)$} +\label{drive status} + +The function $drive_status$, if implemented, should provide +information on the status of the drive (not the status of the disc, +which may or may not be in the drive). If the drive is not a changer, +$slot_nr$ should be ignored. In \cdromh\ the possibilities are listed: +$$ +\halign{$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr +CDS_NO_INFO& no information available\cr +CDS_NO_DISC& no disc is inserted, tray is closed\cr +CDS_TRAY_OPEN& tray is opened\cr +CDS_DRIVE_NOT_READY& something is wrong, tray is moving?\cr +CDS_DISC_OK& a disc is loaded and everything is fine\cr +} +$$ + +\subsection{$Int\ media_changed(struct\ cdrom_device_info * cdi, int\ disc_nr)$} + +This function is very similar to the original function in $struct\ +file_operations$. It returns 1 if the medium of the device $cdi\to +dev$ has changed since the last call, and 0 otherwise. The parameter +$disc_nr$ identifies a specific slot in a juke-box, it should be +ignored for single-disc drives. Note that by `re-routing' this +function through $cdrom_media_changed()$, we can implement separate +queues for the VFS and a new $ioctl()$ function that can report device +changes to software (\eg, an auto-mounting daemon). + +\subsection{$Int\ tray_move(struct\ cdrom_device_info * cdi, int\ position)$} + +This function, if implemented, should control the tray movement. (No +other function should control this.) The parameter $position$ controls +the desired direction of movement: +\begin{itemize} +\item[0] Close tray +\item[1] Open tray +\end{itemize} +This function returns 0 upon success, and a non-zero value upon +error. Note that if the tray is already in the desired position, no +action need be taken, and the return value should be 0. + +\subsection{$Int\ lock_door(struct\ cdrom_device_info * cdi, int\ lock)$} + +This function (and no other code) controls locking of the door, if the +drive allows this. The value of $lock$ controls the desired locking +state: +\begin{itemize} +\item[0] Unlock door, manual opening is allowed +\item[1] Lock door, tray cannot be ejected manually +\end{itemize} +This function returns 0 upon success, and a non-zero value upon +error. Note that if the door is already in the requested state, no +action need be taken, and the return value should be 0. + +\subsection{$Int\ select_speed(struct\ cdrom_device_info * cdi, int\ speed)$} + +Some \cdrom\ drives are capable of changing their head-speed. There +are several reasons for changing the speed of a \cdrom\ drive. Badly +pressed \cdrom s may benefit from less-than-maximum head rate. Modern +\cdrom\ drives can obtain very high head rates (up to $24\times$ is +common). It has been reported that these drives can make reading +errors at these high speeds, reducing the speed can prevent data loss +in these circumstances. Finally, some of these drives can +make an annoyingly loud noise, which a lower speed may reduce. %Finally, +%although the audio-low-pass filters probably aren't designed for it, +%more than real-time playback of audio might be used for high-speed +%copying of audio tracks. + +This function specifies the speed at which data is read or audio is +played back. The value of $speed$ specifies the head-speed of the +drive, measured in units of standard cdrom speed (176\,kB/sec raw data +or 150\,kB/sec file system data). So to request that a \cdrom\ drive +operate at 300\,kB/sec you would call the CDROM_SELECT_SPEED $ioctl$ +with $speed=2$. The special value `0' means `auto-selection', \ie, +maximum data-rate or real-time audio rate. If the drive doesn't have +this `auto-selection' capability, the decision should be made on the +current disc loaded and the return value should be positive. A negative +return value indicates an error. + +\subsection{$Int\ select_disc(struct\ cdrom_device_info * cdi, int\ number)$} + +If the drive can store multiple discs (a juke-box) this function +will perform disc selection. It should return the number of the +selected disc on success, a negative value on error. Currently, only +the ide-cd driver supports this functionality. + +\subsection{$Int\ get_last_session(struct\ cdrom_device_info * cdi, struct\ + cdrom_multisession * ms_info)$} + +This function should implement the old corresponding $ioctl()$. For +device $cdi\to dev$, the start of the last session of the current disc +should be returned in the pointer argument $ms_info$. Note that +routines in \cdromc\ have sanitized this argument: its requested +format will {\em always\/} be of the type $CDROM_LBA$ (linear block +addressing mode), whatever the calling software requested. But +sanitization goes even further: the low-level implementation may +return the requested information in $CDROM_MSF$ format if it wishes so +(setting the $ms_info\rightarrow addr_format$ field appropriately, of +course) and the routines in \cdromc\ will make the transformation if +necessary. The return value is 0 upon success. + +\subsection{$Int\ get_mcn(struct\ cdrom_device_info * cdi, struct\ + cdrom_mcn * mcn)$} + +Some discs carry a `Media Catalog Number' (MCN), also called +`Universal Product Code' (UPC). This number should reflect the number +that is generally found in the bar-code on the product. Unfortunately, +the few discs that carry such a number on the disc don't even use the +same format. The return argument to this function is a pointer to a +pre-declared memory region of type $struct\ cdrom_mcn$. The MCN is +expected as a 13-character string, terminated by a null-character. + +\subsection{$Int\ reset(struct\ cdrom_device_info * cdi)$} + +This call should perform a hard-reset on the drive (although in +circumstances that a hard-reset is necessary, a drive may very well not +listen to commands anymore). Preferably, control is returned to the +caller only after the drive has finished resetting. If the drive is no +longer listening, it may be wise for the underlying low-level cdrom +driver to time out. + +\subsection{$Int\ audio_ioctl(struct\ cdrom_device_info * cdi, unsigned\ + int\ cmd, void * arg)$} + +Some of the \cdrom-$ioctl$s defined in \cdromh\ can be +implemented by the routines described above, and hence the function +$cdrom_ioctl$ will use those. However, most $ioctl$s deal with +audio-control. We have decided to leave these to be accessed through a +single function, repeating the arguments $cmd$ and $arg$. Note that +the latter is of type $void*{}$, rather than $unsigned\ long\ +int$. The routine $cdrom_ioctl()$ does do some useful things, +though. It sanitizes the address format type to $CDROM_MSF$ (Minutes, +Seconds, Frames) for all audio calls. It also verifies the memory +location of $arg$, and reserves stack-memory for the argument. This +makes implementation of the $audio_ioctl()$ much simpler than in the +old driver scheme. For example, you may look up the function +$cm206_audio_ioctl()$ in {\tt {cm206.c}} that should be updated with +this documentation. + +An unimplemented ioctl should return $-ENOSYS$, but a harmless request +(\eg, $CDROMSTART$) may be ignored by returning 0 (success). Other +errors should be according to the standards, whatever they are. When +an error is returned by the low-level driver, the \UCD\ tries whenever +possible to return the error code to the calling program. (We may decide +to sanitize the return value in $cdrom_ioctl()$ though, in order to +guarantee a uniform interface to the audio-player software.) + +\subsection{$Int\ dev_ioctl(struct\ cdrom_device_info * cdi, unsigned\ int\ + cmd, unsigned\ long\ arg)$} + +Some $ioctl$s seem to be specific to certain \cdrom\ drives. That is, +they are introduced to service some capabilities of certain drives. In +fact, there are 6 different $ioctl$s for reading data, either in some +particular kind of format, or audio data. Not many drives support +reading audio tracks as data, I believe this is because of protection +of copyrights of artists. Moreover, I think that if audio-tracks are +supported, it should be done through the VFS and not via $ioctl$s. A +problem here could be the fact that audio-frames are 2352 bytes long, +so either the audio-file-system should ask for 75264 bytes at once +(the least common multiple of 512 and 2352), or the drivers should +bend their backs to cope with this incoherence (to which I would be +opposed). Furthermore, it is very difficult for the hardware to find +the exact frame boundaries, since there are no synchronization headers +in audio frames. Once these issues are resolved, this code should be +standardized in \cdromc. + +Because there are so many $ioctl$s that seem to be introduced to +satisfy certain drivers,\footnote{Is there software around that + actually uses these? I'd be interested!} any `non-standard' $ioctl$s +are routed through the call $dev_ioctl()$. In principle, `private' +$ioctl$s should be numbered after the device's major number, and not +the general \cdrom\ $ioctl$ number, {\tt {0x53}}. Currently the +non-supported $ioctl$s are: {\it CDROMREADMODE1, CDROMREADMODE2, + CDROMREADAUDIO, CDROMREADRAW, CDROMREADCOOKED, CDROMSEEK, + CDROMPLAY\-BLK and CDROM\-READALL}. + + +\subsection{\cdrom\ capabilities} +\label{capability} + +Instead of just implementing some $ioctl$ calls, the interface in +\cdromc\ supplies the possibility to indicate the {\em capabilities\/} +of a \cdrom\ drive. This can be done by ORing any number of +capability-constants that are defined in \cdromh\ at the registration +phase. Currently, the capabilities are any of: +$$ +\halign{$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr +CDC_CLOSE_TRAY& can close tray by software control\cr +CDC_OPEN_TRAY& can open tray\cr +CDC_LOCK& can lock and unlock the door\cr +CDC_SELECT_SPEED& can select speed, in units of $\sim$150\,kB/s\cr +CDC_SELECT_DISC& drive is juke-box\cr +CDC_MULTI_SESSION& can read sessions $>\rm1$\cr +CDC_MCN& can read Media Catalog Number\cr +CDC_MEDIA_CHANGED& can report if disc has changed\cr +CDC_PLAY_AUDIO& can perform audio-functions (play, pause, etc)\cr +CDC_RESET& hard reset device\cr +CDC_IOCTLS& driver has non-standard ioctls\cr +CDC_DRIVE_STATUS& driver implements drive status\cr +} +$$ +The capability flag is declared $const$, to prevent drivers from +accidentally tampering with the contents. The capability fags actually +inform \cdromc\ of what the driver can do. If the drive found +by the driver does not have the capability, is can be masked out by +the $cdrom_device_info$ variable $mask$. For instance, the SCSI \cdrom\ +driver has implemented the code for loading and ejecting \cdrom's, and +hence its corresponding flags in $capability$ will be set. But a SCSI +\cdrom\ drive might be a caddy system, which can't load the tray, and +hence for this drive the $cdrom_device_info$ struct will have set +the $CDC_CLOSE_TRAY$ bit in $mask$. + +In the file \cdromc\ you will encounter many constructions of the type +$$\it +if\ (cdo\rightarrow capability \mathrel\& \mathord{\sim} cdi\rightarrow mask + \mathrel{\&} CDC_) \ldots +$$ +There is no $ioctl$ to set the mask\dots The reason is that +I think it is better to control the {\em behavior\/} rather than the +{\em capabilities}. + +\subsection{Options} + +A final flag register controls the {\em behavior\/} of the \cdrom\ +drives, in order to satisfy different users' wishes, hopefully +independently of the ideas of the respective author who happened to +have made the drive's support available to the \linux\ community. The +current behavior options are: +$$ +\halign{$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr +CDO_AUTO_CLOSE& try to close tray upon device $open()$\cr +CDO_AUTO_EJECT& try to open tray on last device $close()$\cr +CDO_USE_FFLAGS& use $file_pointer\rightarrow f_flags$ to indicate + purpose for $open()$\cr +CDO_LOCK& try to lock door if device is opened\cr +CDO_CHECK_TYPE& ensure disc type is data if opened for data\cr +} +$$ + +The initial value of this register is $CDO_AUTO_CLOSE \mathrel| +CDO_USE_FFLAGS \mathrel| CDO_LOCK$, reflecting my own view on user +interface and software standards. Before you protest, there are two +new $ioctl$s implemented in \cdromc, that allow you to control the +behavior by software. These are: +$$ +\halign{$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr +CDROM_SET_OPTIONS& set options specified in $(int)\ arg$\cr +CDROM_CLEAR_OPTIONS& clear options specified in $(int)\ arg$\cr +} +$$ +One option needs some more explanation: $CDO_USE_FFLAGS$. In the next +newsection we explain what the need for this option is. + +A software package {\tt setcd}, available from the Debian distribution +and {\tt sunsite.unc.edu}, allows user level control of these flags. + +\newsection{The need to know the purpose of opening the \cdrom\ device} + +Traditionally, Unix devices can be used in two different `modes', +either by reading/writing to the device file, or by issuing +controlling commands to the device, by the device's $ioctl()$ +call. The problem with \cdrom\ drives, is that they can be used for +two entirely different purposes. One is to mount removable +file systems, \cdrom s, the other is to play audio CD's. Audio commands +are implemented entirely through $ioctl$s, presumably because the +first implementation (SUN?) has been such. In principle there is +nothing wrong with this, but a good control of the `CD player' demands +that the device can {\em always\/} be opened in order to give the +$ioctl$ commands, regardless of the state the drive is in. + +On the other hand, when used as a removable-media disc drive (what the +original purpose of \cdrom s is) we would like to make sure that the +disc drive is ready for operation upon opening the device. In the old +scheme, some \cdrom\ drivers don't do any integrity checking, resulting +in a number of i/o errors reported by the VFS to the kernel when an +attempt for mounting a \cdrom\ on an empty drive occurs. This is not a +particularly elegant way to find out that there is no \cdrom\ inserted; +it more-or-less looks like the old IBM-PC trying to read an empty floppy +drive for a couple of seconds, after which the system complains it +can't read from it. Nowadays we can {\em sense\/} the existence of a +removable medium in a drive, and we believe we should exploit that +fact. An integrity check on opening of the device, that verifies the +availability of a \cdrom\ and its correct type (data), would be +desirable. + +These two ways of using a \cdrom\ drive, principally for data and +secondarily for playing audio discs, have different demands for the +behavior of the $open()$ call. Audio use simply wants to open the +device in order to get a file handle which is needed for issuing +$ioctl$ commands, while data use wants to open for correct and +reliable data transfer. The only way user programs can indicate what +their {\em purpose\/} of opening the device is, is through the $flags$ +parameter (see {\tt {open(2)}}). For \cdrom\ devices, these flags aren't +implemented (some drivers implement checking for write-related flags, +but this is not strictly necessary if the device file has correct +permission flags). Most option flags simply don't make sense to +\cdrom\ devices: $O_CREAT$, $O_NOCTTY$, $O_TRUNC$, $O_APPEND$, and +$O_SYNC$ have no meaning to a \cdrom. + +We therefore propose to use the flag $O_NONBLOCK$ to indicate +that the device is opened just for issuing $ioctl$ +commands. Strictly, the meaning of $O_NONBLOCK$ is that opening and +subsequent calls to the device don't cause the calling process to +wait. We could interpret this as ``don't wait until someone has +inserted some valid data-\cdrom.'' Thus, our proposal of the +implementation for the $open()$ call for \cdrom s is: +\begin{itemize} +\item If no other flags are set than $O_RDONLY$, the device is opened +for data transfer, and the return value will be 0 only upon successful +initialization of the transfer. The call may even induce some actions +on the \cdrom, such as closing the tray. +\item If the option flag $O_NONBLOCK$ is set, opening will always be +successful, unless the whole device doesn't exist. The drive will take +no actions whatsoever. +\end{itemize} + +\subsection{And what about standards?} + +You might hesitate to accept this proposal as it comes from the +\linux\ community, and not from some standardizing institute. What +about SUN, SGI, HP and all those other Unix and hardware vendors? +Well, these companies are in the lucky position that they generally +control both the hardware and software of their supported products, +and are large enough to set their own standard. They do not have to +deal with a dozen or more different, competing hardware +configurations.\footnote{Incidentally, I think that SUN's approach to +mounting \cdrom s is very good in origin: under Solaris a +volume-daemon automatically mounts a newly inserted \cdrom\ under {\tt +{/cdrom/$$/}}. In my opinion they should have pushed this +further and have {\em every\/} \cdrom\ on the local area network be +mounted at the similar location, \ie, no matter in which particular +machine you insert a \cdrom, it will always appear at the same +position in the directory tree, on every system. When I wanted to +implement such a user-program for \linux, I came across the +differences in behavior of the various drivers, and the need for an +$ioctl$ informing about media changes.} + +We believe that using $O_NONBLOCK$ to indicate that a device is being opened +for $ioctl$ commands only can be easily introduced in the \linux\ +community. All the CD-player authors will have to be informed, we can +even send in our own patches to the programs. The use of $O_NONBLOCK$ +has most likely no influence on the behavior of the CD-players on +other operating systems than \linux. Finally, a user can always revert +to old behavior by a call to $ioctl(file_descriptor, CDROM_CLEAR_OPTIONS, +CDO_USE_FFLAGS)$. + +\subsection{The preferred strategy of $open()$} + +The routines in \cdromc\ are designed in such a way that run-time +configuration of the behavior of \cdrom\ devices (of {\em any\/} type) +can be carried out, by the $CDROM_SET/CLEAR_OPTIONS$ $ioctls$. Thus, various +modes of operation can be set: +\begin{description} +\item[$CDO_AUTO_CLOSE \mathrel| CDO_USE_FFLAGS \mathrel| CDO_LOCK$] This +is the default setting. (With $CDO_CHECK_TYPE$ it will be better, in the +future.) If the device is not yet opened by any other process, and if +the device is being opened for data ($O_NONBLOCK$ is not set) and the +tray is found to be open, an attempt to close the tray is made. Then, +it is verified that a disc is in the drive and, if $CDO_CHECK_TYPE$ is +set, that it contains tracks of type `data mode 1.' Only if all tests +are passed is the return value zero. The door is locked to prevent file +system corruption. If the drive is opened for audio ($O_NONBLOCK$ is +set), no actions are taken and a value of 0 will be returned. +\item[$CDO_AUTO_CLOSE \mathrel| CDO_AUTO_EJECT \mathrel| CDO_LOCK$] This +mimics the behavior of the current sbpcd-driver. The option flags are +ignored, the tray is closed on the first open, if necessary. Similarly, +the tray is opened on the last release, \ie, if a \cdrom\ is unmounted, +it is automatically ejected, such that the user can replace it. +\end{description} +We hope that these option can convince everybody (both driver +maintainers and user program developers) to adopt the new \cdrom\ +driver scheme and option flag interpretation. + +\newsection{Description of routines in \cdromc} + +Only a few routines in \cdromc\ are exported to the drivers. In this +new section we will discuss these, as well as the functions that `take +over' the \cdrom\ interface to the kernel. The header file belonging +to \cdromc\ is called \cdromh. Formerly, some of the contents of this +file were placed in the file {\tt {ucdrom.h}}, but this file has now been +merged back into \cdromh. + +\subsection{$Struct\ file_operations\ cdrom_fops$} + +The contents of this structure were described in section~\ref{cdrom.c}. +A pointer to this structure is assigned to the $fops$ field +of the $struct gendisk$. + +\subsection{$Int\ register_cdrom( struct\ cdrom_device_info\ * cdi)$} + +This function is used in about the same way one registers $cdrom_fops$ +with the kernel, the device operations and information structures, +as described in section~\ref{cdrom.c}, should be registered with the +\UCD: +$$ +register_cdrom(\&_info)); +$$ +This function returns zero upon success, and non-zero upon +failure. The structure $_info$ should have a pointer to the +driver's $_dops$, as in +$$ +\vbox{\halign{&$#$\hfil\cr +struct\ &cdrom_device_info\ _info = \{\cr +& _dops;\cr +&\ldots\cr +\}\cr +}}$$ +Note that a driver must have one static structure, $_dops$, while +it may have as many structures $_info$ as there are minor devices +active. $Register_cdrom()$ builds a linked list from these. + +\subsection{$Int\ unregister_cdrom(struct\ cdrom_device_info * cdi)$} + +Unregistering device $cdi$ with minor number $MINOR(cdi\to dev)$ removes +the minor device from the list. If it was the last registered minor for +the low-level driver, this disconnects the registered device-operation +routines from the \cdrom\ interface. This function returns zero upon +success, and non-zero upon failure. + +\subsection{$Int\ cdrom_open(struct\ inode * ip, struct\ file * fp)$} + +This function is not called directly by the low-level drivers, it is +listed in the standard $cdrom_fops$. If the VFS opens a file, this +function becomes active. A strategy is implemented in this routine, +taking care of all capabilities and options that are set in the +$cdrom_device_ops$ connected to the device. Then, the program flow is +transferred to the device_dependent $open()$ call. + +\subsection{$Void\ cdrom_release(struct\ inode *ip, struct\ file +*fp)$} + +This function implements the reverse-logic of $cdrom_open()$, and then +calls the device-dependent $release()$ routine. When the use-count has +reached 0, the allocated buffers are flushed by calls to $sync_dev(dev)$ +and $invalidate_buffers(dev)$. + + +\subsection{$Int\ cdrom_ioctl(struct\ inode *ip, struct\ file *fp, +unsigned\ int\ cmd, unsigned\ long\ arg)$} +\label{cdrom-ioctl} + +This function handles all the standard $ioctl$ requests for \cdrom\ +devices in a uniform way. The different calls fall into three +categories: $ioctl$s that can be directly implemented by device +operations, ones that are routed through the call $audio_ioctl()$, and +the remaining ones, that are presumable device-dependent. Generally, a +negative return value indicates an error. + +\subsubsection{Directly implemented $ioctl$s} +\label{ioctl-direct} + +The following `old' \cdrom-$ioctl$s are implemented by directly +calling device-operations in $cdrom_device_ops$, if implemented and +not masked: +\begin{description} +\item[CDROMMULTISESSION] Requests the last session on a \cdrom. +\item[CDROMEJECT] Open tray. +\item[CDROMCLOSETRAY] Close tray. +\item[CDROMEJECT_SW] If $arg\not=0$, set behavior to auto-close (close +tray on first open) and auto-eject (eject on last release), otherwise +set behavior to non-moving on $open()$ and $release()$ calls. +\item[CDROM_GET_MCN] Get the Media Catalog Number from a CD. +\end{description} + +\subsubsection{$Ioctl$s routed through $audio_ioctl()$} +\label{ioctl-audio} + +The following set of $ioctl$s are all implemented through a call to +the $cdrom_fops$ function $audio_ioctl()$. Memory checks and +allocation are performed in $cdrom_ioctl()$, and also sanitization of +address format ($CDROM_LBA$/$CDROM_MSF$) is done. +\begin{description} +\item[CDROMSUBCHNL] Get sub-channel data in argument $arg$ of type $struct\ +cdrom_subchnl *{}$. +\item[CDROMREADTOCHDR] Read Table of Contents header, in $arg$ of type +$struct\ cdrom_tochdr *{}$. +\item[CDROMREADTOCENTRY] Read a Table of Contents entry in $arg$ and +specified by $arg$ of type $struct\ cdrom_tocentry *{}$. +\item[CDROMPLAYMSF] Play audio fragment specified in Minute, Second, +Frame format, delimited by $arg$ of type $struct\ cdrom_msf *{}$. +\item[CDROMPLAYTRKIND] Play audio fragment in track-index format +delimited by $arg$ of type $struct\ \penalty-1000 cdrom_ti *{}$. +\item[CDROMVOLCTRL] Set volume specified by $arg$ of type $struct\ +cdrom_volctrl *{}$. +\item[CDROMVOLREAD] Read volume into by $arg$ of type $struct\ +cdrom_volctrl *{}$. +\item[CDROMSTART] Spin up disc. +\item[CDROMSTOP] Stop playback of audio fragment. +\item[CDROMPAUSE] Pause playback of audio fragment. +\item[CDROMRESUME] Resume playing. +\end{description} + +\subsubsection{New $ioctl$s in \cdromc} + +The following $ioctl$s have been introduced to allow user programs to +control the behavior of individual \cdrom\ devices. New $ioctl$ +commands can be identified by the underscores in their names. +\begin{description} +\item[CDROM_SET_OPTIONS] Set options specified by $arg$. Returns the +option flag register after modification. Use $arg = \rm0$ for reading +the current flags. +\item[CDROM_CLEAR_OPTIONS] Clear options specified by $arg$. Returns + the option flag register after modification. +\item[CDROM_SELECT_SPEED] Select head-rate speed of disc specified as + by $arg$ in units of standard cdrom speed (176\,kB/sec raw data or + 150\,kB/sec file system data). The value 0 means `auto-select', \ie, + play audio discs at real time and data discs at maximum speed. The value + $arg$ is checked against the maximum head rate of the drive found in the + $cdrom_dops$. +\item[CDROM_SELECT_DISC] Select disc numbered $arg$ from a juke-box. + First disc is numbered 0. The number $arg$ is checked against the + maximum number of discs in the juke-box found in the $cdrom_dops$. +\item[CDROM_MEDIA_CHANGED] Returns 1 if a disc has been changed since + the last call. Note that calls to $cdrom_media_changed$ by the VFS + are treated by an independent queue, so both mechanisms will detect + a media change once. For juke-boxes, an extra argument $arg$ + specifies the slot for which the information is given. The special + value $CDSL_CURRENT$ requests that information about the currently + selected slot be returned. +\item[CDROM_DRIVE_STATUS] Returns the status of the drive by a call to + $drive_status()$. Return values are defined in section~\ref{drive + status}. Note that this call doesn't return information on the + current playing activity of the drive; this can be polled through an + $ioctl$ call to $CDROMSUBCHNL$. For juke-boxes, an extra argument + $arg$ specifies the slot for which (possibly limited) information is + given. The special value $CDSL_CURRENT$ requests that information + about the currently selected slot be returned. +\item[CDROM_DISC_STATUS] Returns the type of the disc currently in the + drive. It should be viewed as a complement to $CDROM_DRIVE_STATUS$. + This $ioctl$ can provide \emph {some} information about the current + disc that is inserted in the drive. This functionality used to be + implemented in the low level drivers, but is now carried out + entirely in \UCD. + + The history of development of the CD's use as a carrier medium for + various digital information has lead to many different disc types. + This $ioctl$ is useful only in the case that CDs have \emph {only + one} type of data on them. While this is often the case, it is + also very common for CDs to have some tracks with data, and some + tracks with audio. Because this is an existing interface, rather + than fixing this interface by changing the assumptions it was made + under, thereby breaking all user applications that use this + function, the \UCD\ implements this $ioctl$ as follows: If the CD in + question has audio tracks on it, and it has absolutely no CD-I, XA, + or data tracks on it, it will be reported as $CDS_AUDIO$. If it has + both audio and data tracks, it will return $CDS_MIXED$. If there + are no audio tracks on the disc, and if the CD in question has any + CD-I tracks on it, it will be reported as $CDS_XA_2_2$. Failing + that, if the CD in question has any XA tracks on it, it will be + reported as $CDS_XA_2_1$. Finally, if the CD in question has any + data tracks on it, it will be reported as a data CD ($CDS_DATA_1$). + + This $ioctl$ can return: + $$ + \halign{$#$\ \hfil&$/*$ \rm# $*/$\hfil\cr + CDS_NO_INFO& no information available\cr + CDS_NO_DISC& no disc is inserted, or tray is opened\cr + CDS_AUDIO& Audio disc (2352 audio bytes/frame)\cr + CDS_DATA_1& data disc, mode 1 (2048 user bytes/frame)\cr + CDS_XA_2_1& mixed data (XA), mode 2, form 1 (2048 user bytes)\cr + CDS_XA_2_2& mixed data (XA), mode 2, form 1 (2324 user bytes)\cr + CDS_MIXED& mixed audio/data disc\cr + } + $$ + For some information concerning frame layout of the various disc + types, see a recent version of \cdromh. + +\item[CDROM_CHANGER_NSLOTS] Returns the number of slots in a + juke-box. +\item[CDROMRESET] Reset the drive. +\item[CDROM_GET_CAPABILITY] Returns the $capability$ flags for the + drive. Refer to section \ref{capability} for more information on + these flags. +\item[CDROM_LOCKDOOR] Locks the door of the drive. $arg == \rm0$ + unlocks the door, any other value locks it. +\item[CDROM_DEBUG] Turns on debugging info. Only root is allowed + to do this. Same semantics as CDROM_LOCKDOOR. +\end{description} + +\subsubsection{Device dependent $ioctl$s} + +Finally, all other $ioctl$s are passed to the function $dev_ioctl()$, +if implemented. No memory allocation or verification is carried out. + +\newsection{How to update your driver} + +\begin{enumerate} +\item Make a backup of your current driver. +\item Get hold of the files \cdromc\ and \cdromh, they should be in + the directory tree that came with this documentation. +\item Make sure you include \cdromh. +\item Change the 3rd argument of $register_blkdev$ from +$\&_fops$ to $\&cdrom_fops$. +\item Just after that line, add the following to register with the \UCD: + $$register_cdrom(\&_info);$$ + Similarly, add a call to $unregister_cdrom()$ at the appropriate place. +\item Copy an example of the device-operations $struct$ to your + source, \eg, from {\tt {cm206.c}} $cm206_dops$, and change all + entries to names corresponding to your driver, or names you just + happen to like. If your driver doesn't support a certain function, + make the entry $NULL$. At the entry $capability$ you should list all + capabilities your driver currently supports. If your driver + has a capability that is not listed, please send me a message. +\item Copy the $cdrom_device_info$ declaration from the same example + driver, and modify the entries according to your needs. If your + driver dynamically determines the capabilities of the hardware, this + structure should also be declared dynamically. +\item Implement all functions in your $_dops$ structure, + according to prototypes listed in \cdromh, and specifications given + in section~\ref{cdrom.c}. Most likely you have already implemented + the code in a large part, and you will almost certainly need to adapt the + prototype and return values. +\item Rename your $_ioctl()$ function to $audio_ioctl$ and + change the prototype a little. Remove entries listed in the first + part in section~\ref{cdrom-ioctl}, if your code was OK, these are + just calls to the routines you adapted in the previous step. +\item You may remove all remaining memory checking code in the + $audio_ioctl()$ function that deals with audio commands (these are + listed in the second part of section~\ref{cdrom-ioctl}). There is no + need for memory allocation either, so most $case$s in the $switch$ + statement look similar to: + $$ + case\ CDROMREADTOCENTRY\colon get_toc_entry\bigl((struct\ + cdrom_tocentry *{})\ arg\bigr); + $$ +\item All remaining $ioctl$ cases must be moved to a separate + function, $_ioctl$, the device-dependent $ioctl$s. Note that + memory checking and allocation must be kept in this code! +\item Change the prototypes of $_open()$ and + $_release()$, and remove any strategic code (\ie, tray + movement, door locking, etc.). +\item Try to recompile the drivers. We advise you to use modules, both + for {\tt {cdrom.o}} and your driver, as debugging is much easier this + way. +\end{enumerate} + +\newsection{Thanks} + +Thanks to all the people involved. First, Erik Andersen, who has +taken over the torch in maintaining \cdromc\ and integrating much +\cdrom-related code in the 2.1-kernel. Thanks to Scott Snyder and +Gerd Knorr, who were the first to implement this interface for SCSI +and IDE-CD drivers and added many ideas for extension of the data +structures relative to kernel~2.0. Further thanks to Heiko Eissfeldt, +Thomas Quinot, Jon Tombs, Ken Pizzini, Eberhard M\"onkeberg and Andrew +Kroll, the \linux\ \cdrom\ device driver developers who were kind +enough to give suggestions and criticisms during the writing. Finally +of course, I want to thank Linus Torvalds for making this possible in +the first place. + +\vfill +$ \version\ $ +\eject +\end{document} diff --git a/Documentation/cdrom/cdu31a b/Documentation/cdrom/cdu31a new file mode 100644 index 00000000000..c0667da09c0 --- /dev/null +++ b/Documentation/cdrom/cdu31a @@ -0,0 +1,196 @@ + + CDU31A/CDU33A Driver Info + ------------------------- + +Information on the Sony CDU31A/CDU33A CDROM driver for the Linux +kernel. + + Corey Minyard (minyard@metronet.com) + + Colossians 3:17 + +Crude Table of Contents +----------------------- + + Setting Up the Hardware + Configuring the Kernel + Configuring as a Module + Driver Special Features + + +This device driver handles Sony CDU31A/CDU33A CDROM drives and +provides a complete block-level interface as well as an ioctl() +interface as specified in include/linux/cdrom.h). With this +interface, CDROMs can be accessed, standard audio CDs can be played +back normally, and CD audio information can be read off the drive. + +Note that this will only work for CDU31A/CDU33A drives. Some vendors +market their drives as CDU31A compatible. They lie. Their drives are +really CDU31A hardware interface compatible (they can plug into the +same card). They are not software compatible. + +Setting Up the Hardware +----------------------- + +The CDU31A driver is unable to safely tell if an interface card is +present that it can use because the interface card does not announce +its presence in any way besides placing 4 I/O locations in memory. It +used to just probe memory and attempt commands, but Linus wisely asked +me to remove that because it could really screw up other hardware in +the system. + +Because of this, you must tell the kernel where the drive interface +is, what interrupts are used, and possibly if you are on a PAS-16 +soundcard. + +If you have the Sony CDU31A/CDU33A drive interface card, the following +diagram will help you set it up. If you have another card, you are on +your own. You need to make sure that the I/O address and interrupt is +not used by another card in the system. You will need to know the I/O +address and interrupt you have set. Note that use of interrupts is +highly recommended, if possible, it really cuts down on CPU used. +Unfortunately, most soundcards do not support interrupts for their +CDROM interfaces. By default, the Sony interface card comes with +interrupts disabled. + + +----------+-----------------+----------------------+ + | JP1 | 34 Pin Conn | | + | JP2 +-----------------+ | + | JP3 | + | JP4 | + | +--+ + | | +-+ + | | | | External + | | | | Connector + | | | | + | | +-+ + | +--+ + | | + | +--------+ + | | + +------------------------------------------+ + + JP1 sets the Base Address, using the following settings: + + Address Pin 1 Pin 2 + ------- ----- ----- + 0x320 Short Short + 0x330 Short Open + 0x340 Open Short + 0x360 Open Open + + JP2 and JP3 configure the DMA channel; they must be set the same. + + DMA Pin 1 Pin 2 Pin 3 + --- ----- ----- ----- + 1 On Off On + 2 Off On Off + 3 Off Off On + + JP4 Configures the IRQ: + + IRQ Pin 1 Pin 2 Pin 3 Pin 4 + --- ----- ----- ----- ----- + 3 Off Off On Off + 4 Off Off* Off On + 5 On Off Off Off + 6 Off On Off Off + + The documentation states to set this for interrupt + 4, but I think that is a mistake. + +Note that if you have another interface card, you will need to look at +the documentation to find the I/O base address. This is specified to +the SLCD.SYS driver for DOS with the /B: parameter, so you can look at +you DOS driver setup to find the address, if necessary. + +Configuring the Kernel +---------------------- + +You must tell the kernel where the drive is at boot time. This can be +done at the Linux boot prompt, by using LILO, or by using Bootlin. +Note that this is no substitute for HOWTOs and LILO documentation, if +you are confused please read those for info on bootline configuration +and LILO. + +At the linux boot prompt, press the ALT key and add the following line +after the boot name (you can let the kernel boot, it will tell you the +default boot name while booting): + + cdu31a=,[,PAS] + +The base address needs to have "0x" in front of it, since it is in +hex. For instance, to configure a drive at address 320 on interrupt 5, +use the following: + + cdu31a=0x320,5 + +I use the following boot line: + + cdu31a=0x1f88,0,PAS + +because I have a PAS-16 which does not support interrupt for the +CDU31A interface. + +Adding this as an append line at the beginning of the /etc/lilo.conf +file will set it for lilo configurations. I have the following as the +first line in my lilo.conf file: + + append="cdu31a=0x1f88,0" + +I'm not sure how to set up Bootlin (I have never used it), if someone +would like to fill in this section please do. + + +Configuring as a Module +----------------------- + +The driver supports loading as a module. However, you must specify +the boot address and interrupt on the boot line to insmod. You can't +use modprobe to load it, since modprobe doesn't support setting +variables. + +Anyway, I use the following line to load my driver as a module + + /sbin/insmod /lib/modules/`uname -r`/misc/cdu31a.o cdu31a_port=0x1f88 + +You can set the following variables in the driver: + + cdu31a_port= - sets the base I/O. If hex, put 0x in + front of it. This must be specified. + + cdu31a_irq= - Sets the interrupt number. Leaving this + off will turn interrupts off. + + +Driver Special Features +----------------------- + +This section describes features beyond the normal audio and CD-ROM +functions of the drive. + +2048 byte buffer mode + +If a disk is mounted with -o block=2048, data is copied straight from +the drive data port to the buffer. Otherwise, the readahead buffer +must be involved to hold the other 1K of data when a 1K block +operation is done. Note that with 2048 byte blocks you cannot execute +files from the CD. + +XA compatibility + +The driver should support XA disks for both the CDU31A and CDU33A. It +does this transparently, the using program doesn't need to set it. + +Multi-Session + +A multi-session disk looks just like a normal disk to the user. Just +mount one normally, and all the data should be there. A special +thanks to Koen for help with this! + +Raw sector I/O + +Using the CDROMREADAUDIO it is possible to read raw audio and data +tracks. Both operations return 2352 bytes per sector. On the data +tracks, the first 12 bytes is not returned by the drive and the value +of that data is indeterminate. diff --git a/Documentation/cdrom/cm206 b/Documentation/cdrom/cm206 new file mode 100644 index 00000000000..810368f4f7c --- /dev/null +++ b/Documentation/cdrom/cm206 @@ -0,0 +1,185 @@ +This is the readme file for the driver for the Philips/LMS cdrom drive +cm206 in combination with the cm260 host adapter card. + + (c) 1995 David A. van Leeuwen + +Changes since version 0.99 +-------------------------- +- Interfacing to the kernel is routed though an extra interface layer, + cdrom.c. This allows runtime-configurable `behavior' of the cdrom-drive, + independent of the driver. + +Features since version 0.33 +--------------------------- +- Full audio support, that is, both workman, workbone and cdp work + now reasonably. Reading TOC still takes some time. xmcd has been + reported to run successfully. +- Made auto-probe code a little better, I hope + +Features since version 0.28 +--------------------------- +- Full speed transfer rate (300 kB/s). +- Minimum kernel memory usage for buffering (less than 3 kB). +- Multisession support. +- Tray locking. +- Statistics of driver accessible to the user. +- Module support. +- Auto-probing of adapter card's base port and irq line, + also configurable at boot time or module load time. + + +Decide how you are going to use the driver. There are two +options: + + (a) installing the driver as a resident part of the kernel + (b) compiling the driver as a loadable module + + Further, you must decide if you are going to specify the base port + address and the interrupt request line of the adapter card cm260 as + boot options for (a), module parameters for (b), use automatic + probing of these values, or hard-wire your adaptor card's settings + into the source code. If you don't care, you can choose + autoprobing, which is the default. In that case you can move on to + the next step. + +Compiling the kernel +-------------------- +1) move to /usr/src/linux and do a + + make config + + If you have chosen option (a), answer yes to CONFIG_CM206 and + CONFIG_ISO9660_FS. + + If you have chosen option (b), answer yes to CONFIG_MODVERSIONS + and no (!) to CONFIG_CM206 and CONFIG_ISO9660_FS. + +2) then do a + + make clean; make zImage; make modules + +3) do the usual things to install a new image (backup the old one, run + `rdev -R zImage 1', copy the new image in place, run lilo). Might + be `make zlilo'. + +Using the driver as a module +---------------------------- +If you will only occasionally use the cd-rom driver, you can choose +option (b), install as a loadable module. You may have to re-compile +the module when you upgrade the kernel to a new version. + +Since version 0.96, much of the functionality has been transferred to +a generic cdrom interface in the file cdrom.c. The module cm206.o +depends on cdrom.o. If the latter is not compiled into the kernel, +you must explicitly load it before cm206.o: + + insmod /usr/src/linux/modules/cdrom.o + +To install the module, you use the command, as root + + insmod /usr/src/linux/modules/cm206.o + +You can specify the base address on the command line as well as the irq +line to be used, e.g. + + insmod /usr/src/linux/modules/cm206.o cm206=0x300,11 + +The order of base port and irq line doesn't matter; if you specify only +one, the other will have the value of the compiled-in default. You +may also have to install the file-system module `iso9660.o', if you +didn't compile that into the kernel. + + +Using the driver as part of the kernel +-------------------------------------- +If you have chosen option (a), you can specify the base-port +address and irq on the lilo boot command line, e.g.: + + LILO: linux cm206=0x340,11 + +This assumes that your linux kernel image keyword is `linux'. +If you specify either IRQ (3--11) or base port (0x300--0x370), +auto probing is turned off for both settings, thus setting the +other value to the compiled-in default. + +Note that you can also put these parameters in the lilo configuration file: + +# linux config +image = /vmlinuz + root = /dev/hda1 + label = Linux + append = "cm206=0x340,11" + read-only + + +If module parameters and LILO config options don't work +------------------------------------------------------- +If autoprobing does not work, you can hard-wire the default values +of the base port address (CM206_BASE) and interrupt request line +(CM206_IRQ) into the file /usr/src/linux/drivers/cdrom/cm206.h. Change +the defines of CM206_IRQ and CM206_BASE. + + +Mounting the cdrom +------------------ +1) Make sure that the right device is installed in /dev. + + mknod /dev/cm206cd b 32 0 + +2) Make sure there is a mount point, e.g., /cdrom + + mkdir /cdrom + +3) mount using a command like this (run as root): + + mount -rt iso9660 /dev/cm206cd /cdrom + +4) For user-mounts, add a line in /etc/fstab + + /dev/cm206cd /cdrom iso9660 ro,noauto,user + + This will allow users to give the commands + + mount /cdrom + umount /cdrom + +If things don't work +-------------------- + +- Try to do a `dmesg' to find out if the driver said anything about + what is going wrong during the initialization. + +- Try to do a `dd if=/dev/cm206cd | od -tc | less' to read from the + CD. + +- Look in the /proc directory to see if `cm206' shows up under one of + `interrupts', `ioports', `devices' or `modules' (if applicable). + + +DISCLAIMER +---------- +I cannot guarantee that this driver works, or that the hardware will +not be harmed, although I consider it most unlikely. + +I hope that you'll find this driver in some way useful. + + David van Leeuwen + david@tm.tno.nl + +Note for Linux CDROM vendors +----------------------------- +You are encouraged to include this driver on your Linux CDROM. If +you do, you might consider sending me a free copy of that cd-rom. +You can contact me through my e-mail address, david@tm.tno.nl. +If this driver is compiled into a kernel to boot off a cdrom, +you should actually send me a free copy of that cd-rom. + +Copyright +--------- +The copyright of the cm206 driver for Linux is + + (c) 1995 David A. van Leeuwen + +The driver is released under the conditions of the GNU general public +license, which can be found in the file COPYING in the root of this +source tree. diff --git a/Documentation/cdrom/gscd b/Documentation/cdrom/gscd new file mode 100644 index 00000000000..d01ca36b5c4 --- /dev/null +++ b/Documentation/cdrom/gscd @@ -0,0 +1,60 @@ + Goldstar R420 CD-Rom device driver README + +For all kind of other information about the GoldStar R420 CDROM +and this Linux device driver see the WWW page: + + http://linux.rz.fh-hannover.de/~raupach + + + If you are the editor of a Linux CD, you should + enable gscd.c within your boot floppy kernel. Please, + send me one of your CDs for free. + + +This current driver version 0.4a only supports reading data from the disk. +Currently we have no audio and no multisession or XA support. +The polling interface is used, no DMA. + + +Sometimes the GoldStar R420 is sold in a 'Reveal Multimedia Kit'. This kit's +drive interface is compatible, too. + + +Installation +------------ + +Change to '/usr/src/linux/drivers/cdrom' and edit the file 'gscd.h'. Insert +the i/o address of your interface card. + +The default base address is 0x340. This will work for most applications. +Address selection is accomplished by jumpers PN801-1 to PN801-4 on the +GoldStar Interface Card. +Appropriate settings are: 0x300, 0x310, 0x320, 0x330, 0x340, 0x350, 0x360 +0x370, 0x380, 0x390, 0x3A0, 0x3B0, 0x3C0, 0x3D0, 0x3E0, 0x3F0 + +Then go back to '/usr/src/linux/' and 'make config' to build the new +configuration for your kernel. If you want to use the GoldStar driver +like a module, don't select 'GoldStar CDROM support'. By the way, you +have to include the iso9660 filesystem. + +Now start compiling the kernel with 'make zImage'. +If you want to use the driver as a module, you have to do 'make modules' +and 'make modules_install', additionally. +Install your new kernel as usual - maybe you do it with 'make zlilo'. + +Before you can use the driver, you have to + mknod /dev/gscd0 b 16 0 +to create the appropriate device file (you only need to do this once). + +If you use modules, you can try to insert the driver. +Say: 'insmod /usr/src/linux/modules/gscd.o' +or: 'insmod /usr/src/linux/modules/gscd.o gscd=
' +The driver should report its results. + +That's it! Mount a disk, i.e. 'mount -rt iso9660 /dev/gscd0 /cdrom' + +Feel free to report errors and suggestions to the following address. +Be sure, I'm very happy to receive your comments! + + Oliver Raupach Hannover, Juni 1995 +(raupach@nwfs1.rz.fh-hannover.de) diff --git a/Documentation/cdrom/ide-cd b/Documentation/cdrom/ide-cd new file mode 100644 index 00000000000..29721bfcde1 --- /dev/null +++ b/Documentation/cdrom/ide-cd @@ -0,0 +1,574 @@ +IDE-CD driver documentation +Originally by scott snyder (19 May 1996) +Carrying on the torch is: Erik Andersen +New maintainers (19 Oct 1998): Jens Axboe + +1. Introduction +--------------- + +The ide-cd driver should work with all ATAPI ver 1.2 to ATAPI 2.6 compliant +CDROM drives which attach to an IDE interface. Note that some CDROM vendors +(including Mitsumi, Sony, Creative, Aztech, and Goldstar) have made +both ATAPI-compliant drives and drives which use a proprietary +interface. If your drive uses one of those proprietary interfaces, +this driver will not work with it (but one of the other CDROM drivers +probably will). This driver will not work with `ATAPI' drives which +attach to the parallel port. In addition, there is at least one drive +(CyCDROM CR520ie) which attaches to the IDE port but is not ATAPI; +this driver will not work with drives like that either (but see the +aztcd driver). + +This driver provides the following features: + + - Reading from data tracks, and mounting ISO 9660 filesystems. + + - Playing audio tracks. Most of the CDROM player programs floating + around should work; I usually use Workman. + + - Multisession support. + + - On drives which support it, reading digital audio data directly + from audio tracks. The program cdda2wav can be used for this. + Note, however, that only some drives actually support this. + + - There is now support for CDROM changers which comply with the + ATAPI 2.6 draft standard (such as the NEC CDR-251). This additional + functionality includes a function call to query which slot is the + currently selected slot, a function call to query which slots contain + CDs, etc. A sample program which demonstrates this functionality is + appended to the end of this file. The Sanyo 3-disc changer + (which does not conform to the standard) is also now supported. + Please note the driver refers to the first CD as slot # 0. + + +2. Installation +--------------- + +0. The ide-cd relies on the ide disk driver. See + Documentation/ide.txt for up-to-date information on the ide + driver. + +1. Make sure that the ide and ide-cd drivers are compiled into the + kernel you're using. When configuring the kernel, in the section + entitled "Floppy, IDE, and other block devices", say either `Y' + (which will compile the support directly into the kernel) or `M' + (to compile support as a module which can be loaded and unloaded) + to the options: + + Enhanced IDE/MFM/RLL disk/cdrom/tape/floppy support + Include IDE/ATAPI CDROM support + + and `no' to + + Use old disk-only driver on primary interface + + Depending on what type of IDE interface you have, you may need to + specify additional configuration options. See + Documentation/ide.txt. + +2. You should also ensure that the iso9660 filesystem is either + compiled into the kernel or available as a loadable module. You + can see if a filesystem is known to the kernel by catting + /proc/filesystems. + +3. The CDROM drive should be connected to the host on an IDE + interface. Each interface on a system is defined by an I/O port + address and an IRQ number, the standard assignments being + 0x1f0 and 14 for the primary interface and 0x170 and 15 for the + secondary interface. Each interface can control up to two devices, + where each device can be a hard drive, a CDROM drive, a floppy drive, + or a tape drive. The two devices on an interface are called `master' + and `slave'; this is usually selectable via a jumper on the drive. + + Linux names these devices as follows. The master and slave devices + on the primary IDE interface are called `hda' and `hdb', + respectively. The drives on the secondary interface are called + `hdc' and `hdd'. (Interfaces at other locations get other letters + in the third position; see Documentation/ide.txt.) + + If you want your CDROM drive to be found automatically by the + driver, you should make sure your IDE interface uses either the + primary or secondary addresses mentioned above. In addition, if + the CDROM drive is the only device on the IDE interface, it should + be jumpered as `master'. (If for some reason you cannot configure + your system in this manner, you can probably still use the driver. + You may have to pass extra configuration information to the kernel + when you boot, however. See Documentation/ide.txt for more + information.) + +4. Boot the system. If the drive is recognized, you should see a + message which looks like + + hdb: NEC CD-ROM DRIVE:260, ATAPI CDROM drive + + If you do not see this, see section 5 below. + +5. You may want to create a symbolic link /dev/cdrom pointing to the + actual device. You can do this with the command + + ln -s /dev/hdX /dev/cdrom + + where X should be replaced by the letter indicating where your + drive is installed. + +6. You should be able to see any error messages from the driver with + the `dmesg' command. + + +3. Basic usage +-------------- + +An ISO 9660 CDROM can be mounted by putting the disc in the drive and +typing (as root) + + mount -t iso9660 /dev/cdrom /mnt/cdrom + +where it is assumed that /dev/cdrom is a link pointing to the actual +device (as described in step 5 of the last section) and /mnt/cdrom is +an empty directory. You should now be able to see the contents of the +CDROM under the /mnt/cdrom directory. If you want to eject the CDROM, +you must first dismount it with a command like + + umount /mnt/cdrom + +Note that audio CDs cannot be mounted. + +Some distributions set up /etc/fstab to always try to mount a CDROM +filesystem on bootup. It is not required to mount the CDROM in this +manner, though, and it may be a nuisance if you change CDROMs often. +You should feel free to remove the cdrom line from /etc/fstab and +mount CDROMs manually if that suits you better. + +Multisession and photocd discs should work with no special handling. +The hpcdtoppm package (ftp.gwdg.de:/pub/linux/hpcdtoppm/) may be +useful for reading photocds. + +To play an audio CD, you should first unmount and remove any data +CDROM. Any of the CDROM player programs should then work (workman, +workbone, cdplayer, etc.). Lacking anything else, you could use the +cdtester program in Documentation/cdrom/sbpcd. + +On a few drives, you can read digital audio directly using a program +such as cdda2wav. The only types of drive which I've heard support +this are Sony and Toshiba drives. You will get errors if you try to +use this function on a drive which does not support it. + +For supported changers, you can use the `cdchange' program (appended to +the end of this file) to switch between changer slots. Note that the +drive should be unmounted before attempting this. The program takes +two arguments: the CDROM device, and the slot number to which you wish +to change. If the slot number is -1, the drive is unloaded. + + +4. Compilation options +---------------------- + +There are a few additional options which can be set when compiling the +driver. Most people should not need to mess with any of these; they +are listed here simply for completeness. A compilation option can be +enabled by adding a line of the form `#define