.\" .\" Copyright (C) 1996 .\" interface business GmbH .\" Tolkewitzer Strasse 49 .\" D-01277 Dresden .\" F.R. Germany .\" .\" All rights reserved. .\" .\" Written by Joerg Wunsch .\" .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" .\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY .\" EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE .\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR .\" PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE .\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR .\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT .\" OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR .\" BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF .\" LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT .\" (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE .\" USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH .\" DAMAGE. .\" .\" $Id: worm.4,v 1.1.4.1 1996/06/23 16:50:11 joerg Exp $ .\" " .Dd January 27, 1996 .Dt WORM 4 .Os FreeBSD .Sh NAME .Nm worm .Nd write-once (CD-R) disk driver .Sh SYNOPSIS .Cd disk worm0 .Cd disk worm0 target 5 lun 0 .Sh DESCRIPTION The .Nm worm driver provides support for a .Em SCSI write-once device, in particular for a CD-R recording device. The driver attempts to abstract the dirty hardware work to a common API as good as possible. Due to the very special nature of CD-R devices and their handling requirements, this API applies some more constraints to the user than those of other disk-like devices. .Pp A CD is usually structured into sessions and tracks. Each track can hold a different type of data, basically either audio information, or CD-ROM data. In order to record a CD-R, the device must be told which kind of data is to be recorded, at which speed, etc. Once all tracks of a session have been written, the medium must finally be .Em fixated which basically means that the table of contents will be written, and the session is marked as usable. Optionally, a new session can be enabled at this time, or the disk can be entirely closed to prevent further writing. .Pp One particular feature of all existing CD-R recorders is that they require a constant data stream while the write channel is open. This usually requires some precautions like using a multiple-buffering filter to read the data from the disk, and/or running at real-time priority. .Pp There is no official standard for CD-R devices, so every vendor seems to implement his own set of controlling commands. Some vendors use rather similar command sets, while other devices behave entirely different. The driver has builtin knowledge about the odds and ends of some devices, which must then be selected first at run-time in order to make the driver operational at all. This builtin knowledge will be replaced by a loadable module scenario in the future. .Pp Due to the requirement of adjusting several parameters before actually being able to write some data to the CD-R, and due to the tight timing requirements when writing data, the driver distinguishes two different operation modes. When opening a file descriptor for a device belonging to the .Nm driver without write access, the driver does not enforce the tight timing that is needed to write data to the CD-R, but it allows for sending .Xr ioctl 2 commands to adjust parameters. Any number of ioctls can be performed on the device as long as the required sequence of actions is being maintained. The first thing that must be done is to select a set of quirks for the actual device. Then, the per-session parameters must be specified. Each track requires a set of per-track parameters finally. .Pp Once all preparations have been done, the device can be opened with write intent, at which point the driver starts to activate the time-critical handling, and is expecting any number of .Xr write 2 system calls that is required in order to transfer all the data to the device. Failure in providing these data in a timely fashion will render the current medium unusable. The device-specific sequence for telling that the current track is finally complete will be issued to the device when calling .Xr close 2 on the file descriptor that has been used to write the data. .Pp After this happened, things are no longer time-critical. Any number of further tracks can be written to the device. Finally, the session must be fixated by another ioctl. .Sh IOCTLS The following .Xr ioctl 2 calls apply to CD-R devices. Their declaration can be found in the header file .Pa . .Bl -tag -width WORMIOCQUIRKSELECT .It Dv WORMIOCQUIRKSELECT Select the set of quirk functions to use for this device. This is the only allowed action on a virgin device after booting. The argument structure takes a vendor and a model string, which are matched against the vendor and model strings of all quirk records that have been registered with the driver. Currently, the only known quirks must have been statically compiled into the driver. .Pp If the driver fails to match the vendor and model string against any known quirk record, the system call returns with an error, and the variable .Va errno will be set to .Er EINVAL . The system call argument is a pointer to a .Dv struct wormio_quirk_select . .It Dv WORMIOCPREPDISK This command selects several session-wide parameters in the driver. The argument structure, .Dv struct wormio_prepare_disk takes two integer values, .Dv dummy , and .Dv speed . By setting .Dv dummy to 1, the drive will be told to simulate all actions, without actually turning on the laser. It is mainly used to test the environment whether it could cope with the timing constraints, without risking a damaged medium. The parameter .Dv speed is device-dependent, where a speed value of one generally applies to audio disks, and a speed value of 2 (or more) is used for recording data. .It Dv WORMIOCPREPTRACK The two parameters .Dv audio and .Dv preemp are being passed as arguments in a .Dv struct wormio_prepare_track . Both are Boolean, i.e. can be either 0 or 1. If .Dv audio is set to 1, the next track will be recorded in audio format, with 2352 bytes per block. If .Dv preemp is also set to 1, the audio data are assumed to be recorded with preemphasis. If .Dv audio is 0, CD-ROM data with a block length of 2048 bytes are about to be written next. .It Dv WORMIOCFIXATION This closes the current session. The argument is a pointer to .Dv struct wormio_fixation , with the elements .Dv toc_type , an integer between 0 and 4, describing the table-of-contents type. See .Xr wormcontrol 8 for a list of useful values. Optionally, setting the field .Dv onp to 1 will cause the next session being opened, so further recording can be performed into the remaining space. If .Dv onp is 0, the disk will be closed once and for all. .El Specifying wrong argument values to the above ioctl command will cause the driver to return an error condition with .Va errno set to .Er EINVAL . Any attempt to perform something else then selecting a quirks record on a device where this has not been done yet will return an error of .Er ENXIO . .Pp In addition, the .Xr scsi 4 general ioctls may be used with the .Nm driver, but only against the control device. .Sh BUGS The driver is considered beta quality. There's still a lot of polishing required. .Pp Preparing the driver for a CD-R from another vendor will require you to understand the source code, be used to the SCSI-2 specification, hold a copy of the vendor's SCSI reference manual on your desk, and have a lot of patience and CD-R's. .Pp The driver should include all the functionality of the .Xr cd 4 driver. No strategy for implementing this kind of interaction has been designed yet. .Pp The first .Em Unit Attention conditition after a media change is often not yet caught, although the driver was designed to catch it. This can royally screw a user of the driver, thus make sure to manually catch it before actually starting a burn. This can be done for example with a dummy .Em Test Unit Ready command: .Bd -literal scsi -f /dev/rworm0.ctl -c "0 0 0 0 0 0" >/dev/null 2>&1 .Ed .Pp The SCSI subsystem in FreeBSD 2.1.X has no provisions for assigning a device that lies about its device type to a different driver. Thus, if your CD-R burner claims to be a CD-ROM device, the .Xr worm 4 driver won't be assigned to it. .Sh FILES .Bl -tag -width /dev/rworm[0-9].ctl -compact .It Pa /dev/rworm[0-9] device for ioctl's and to write a CD-R .It Pa /dev/rworm[0-9].ctl the control device, as being used by .Xr scsi 8 .El .Sh DIAGNOSTICS See above. .Sh SEE ALSO .Xr cd 4 , .Xr scsi 4 , .Xr scsi 8 , .Xr wormcontrol 8 , .Xr open 2 , .Xr ioctl 2 , .Xr write 2 , .Xr close 2 . .Sh AUTHORS The first skeleton for a .Nm driver has been written by Peter Dufault in May, 1995. The driver has then been improved and made actually usable at all by .ie t J\(:org Wunsch .el Joerg Wunsch in January, 1996. .Sh HISTORY The .Nm driver appeared in FreeBSD 2.1.