cdio(7I) Ioctl Requests cdio(7I)NAMEcdio - CD-ROM control operations
SYNOPSIS
#include <sys/cdio.h>
DESCRIPTION
The set of ioctl(2) commands described below are used to perform audio
and CD-ROM specific operations. Basic to these cdio ioctl requests are
the definitions in <sys/cdio.h>.
Several CD-ROM specific commands can report addresses either in LBA
(Logical Block Address) format or in MSF (Minute, Second, Frame) for‐
mat. The READ HEADER, READ SUBCHANNEL, and READ TABLE OF CONTENTS com‐
mands have this feature.
LBA format represents the logical block address for the CD-ROM absolute
address field or for the offset from the beginning of the current track
expressed as a number of logical blocks in a CD-ROM track relative
address field. MSF format represents the physical address written on
CD-ROM discs, expressed as a sector count relative to either the begin‐
ning of the medium or the beginning of the current track.
IOCTLS
The following I/O controls do not have any additional data passed into
or received from them.
CDROMSTART This ioctl() spins up the disc and seeks to the last
address requested.
CDROMSTOP This ioctl() spins down the disc.
CDROMPAUSE This ioctl() pauses the current audio play operation.
CDROMRESUME This ioctl() resumes the paused audio play operation.
CDROMEJECT This ioctl() ejects the caddy with the disc.
CDROMCLOSETRAY This ioctl() closes the caddy with the disc.
The following I/O controls require a pointer to the structure for that
ioctl(), with data being passed into the ioctl().
CDROMPLAYMSF This ioctl() command requests the drive to output
the audio signals at the specified starting address
and continue the audio play until the specified end‐
ing address is detected. The address is in MSF for‐
mat. The third argument of this ioctl() call is a
pointer to the type struct cdrom_msf.
/*
* definition of play audio msf structure
*/
struct cdrom_msf {
unsigned char cdmsf_min0; /* starting minute*/
unsigned char cdmsf_sec0; /* starting second*/
unsigned char cdmsf_frame0; /*starting frame*/
unsigned char cdmsf_min1; /* ending minute */
unsigned char cdmsf_sec1; /* ending second */
unsigned char cdmsf_frame1; /* ending frame */
};
The CDROMREADTOCENTRY ioctl request may be used to
obtain the start time for a track. An approximation
of the finish time can be obtained by using the
CDROMREADTOCENTRY ioctl request to retrieve the
start time of the track following the current track.
The leadout track is the next consecutive track
after the last audio track. Hence, the start time
of the leadout track may be used as the effective
finish time of the last audio track.
CDROMPLAYTRKIND This ioctl() command is similar to CDROMPLAYMSF.
The starting and ending address is in track/index
format. The third argument of the ioctl() call is a
pointer to the type struct cdrom_ti.
/*
* definition of play audio track/index structure
*/
struct cdrom_ti {
unsigned char cdti_trk0; /* starting track*/
unsigned char cdti_ind0; /* starting index*/
unsigned char cdti_trk1; /* ending track */
unsigned char cdti_ind1; /* ending index */
};
CDROMVOLCTRL This ioctl() command controls the audio output
level. The SCSI command allows the control of up to
four channels. The current implementation of the
supported CD-ROM drive only uses channel 0 and chan‐
nel 1. The valid values of volume control are
between 0x00 and 0xFF, with a value of 0xFF indicat‐
ing maximum volume. The third argument of the
ioctl() call is a pointer to struct cdrom_volctrl
which contains the output volume values.
/*
* definition of audio volume control structure
*/
struct cdrom_volctrl {
unsigned char channel0;
unsigned char channel1;
unsigned char channel2;
unsigned char channel3;
};
The following I/O controls take a pointer that will have data returned
to the user program from the CD-ROM driver.
CDROMREADTOCHDR This ioctl() command returns the header of the
table of contents (TOC). The header consists of
the starting tracking number and the ending track
number of the disc. These two numbers are returned
through a pointer of struct cdrom_tochdr. While
the disc can start at any number, all tracks
between the first and last tracks are in contigu‐
ous ascending order.
/*
* definition of read toc header structure
*/
struct cdrom_tochdr {
unsigned char cdth_trk0; /* starting track*/
unsigned char cdth_trk1; /* ending track*/
};
CDROMREADTOCENTRY This ioctl() command returns the information of a
specified track. The third argument of the func‐
tion call is a pointer to the type struct
cdrom_tocentry. The caller needs to supply the
track number and the address format. This command
will return a 4-bit adr field, a 4-bit ctrl
field, the starting address in MSF format or LBA
format, and the data mode if the track is a data
track. The ctrl field specifies whether the track
is data or audio.
/*
* definition of read toc entry structure
*/
struct cdrom_tocentry {
unsigned char cdte_track;
unsigned char cdte_adr :4;
unsigned char cdte_ctrl :4;
unsigned char cdte_format;
union {
struct {
unsigned char minute;
unsigned char second;
unsigned char frame;
} msf;
int lba;
} cdte_addr;
unsigned char cdte_datamode;
};
To get the information from the leadout track, the
following value is appropriate for the cdte_track
field:
CDROM_LEADOUT Leadout track
To get the information from the data track, the
following value is appropriate for the cdte_ctrl
field:
CDROM_DATA_TRACK Data track
The following values are appropriate for the
cdte_format field:
CDROM_LBA LBA format
CDROM_MSF MSF format
CDROMSUBCHNL This ioctl() command reads the Q sub-channel data
of the current block. The subchannel data includes
track number, index number, absolute CD-ROM
address, track relative CD-ROM address, control
data and audio status. All information is returned
through a pointer to struct cdrom_subchnl. The
caller needs to supply the address format for the
returned address.
struct cdrom_subchnl {
unsigned char cdsc_format;
unsigned char cdsc_audiostatus;
unsigned char cdsc_adr: 4;
unsigned char cdsc_ctrl: 4;
unsigned char cdsc_trk;
unsigned char cdsc_ind;
union {
struct {
unsigned char minute;
unsigned char second;
unsigned char frame;
} msf;
int lba;
} cdsc_absaddr;
union {
struct {
unsigned char minute;
unsigned char second;
unsigned char frame;
} msf;
int lba;
} cdsc_reladdr;
};
The following values are valid for the audio sta‐
tus field returned from READ SUBCHANNEL command:
CDROM_AUDIO_INVALID Audio status not sup‐
ported.
CDROM_AUDIO_PLAY Audio play operation in
progress.
CDROM_AUDIO_PAUSED Audio play operation
paused.
CDROM_AUDIO_COMPLETED Audio play successfully
completed.
CDROM_AUDIO_ERROR Audio play stopped due to
error.
CDROM_AUDIO_NO_STATUS No current audio status
to return.
CDROMREADOFFSET This ioctl() command returns the absolute CD-ROM
address of the first track in the last session of
a Multi-Session CD-ROM. The third argument of the
ioctl() call is a pointer to an int.
CDROMCDDA This ioctl() command returns the CD-DA data or the
subcode data. The third argument of the ioctl()
call is a pointer to the type struct cdrom_cdda.
In addition to allocating memory and supplying its
address, the caller needs to supply the starting
address of the data, the transfer length in terms
of the number of blocks to be transferred, and the
subcode options. The caller also needs to issue
the CDROMREADTOCENTRY ioctl() to find out which
tracks contain CD-DA data before issuing this
ioctl().
/*
* Definition of CD-DA structure
*/
struct cdrom_cdda {
unsigned int cdda_addr;
unsigned int cdda_length;
caddr_t cdda_data;
unsigned char cdda_subcode;
};
cdda_addr signifies the starting logical block
address.
cdda_length signifies the transfer length in
blocks. The length of the block depends on the
cdda_subcode selection, which is explained below.
To get the subcode information related to CD-DA
data, the following values are appropriate for the
cdda_subcode field:
CDROM_DA_NO_SUBCODE CD-DA data with no sub‐
code.
CDROM_DA_SUBQ CD-DA data with sub Q
code.
CDROM_DA_ALL_SUBCODE CD-DA data with all sub‐
code.
CDROM_DA_SUBCODE_ONLY All subcode only.
To allocate the memory related to CD-DA and/or
subcode data, the following values are appropriate
for each data block transferred:
CD-DA data with no subcode
2352 bytes
CD-DA data with sub Q code
2368 bytes
CD-DA data with all subcode
2448 bytes
All subcode only
96 bytes
CDROMCDXA This ioctl() command returns the CD-ROM XA (CD-ROM
Extended Architecture) data according to CD-ROM
XA format. The third argument of the ioctl() call
is a pointer to the type struct cdrom_cdxa. In
addition to allocating memory and supplying its
address, the caller needs to supply the starting
address of the data, the transfer length in terms
of number of blocks, and the format. The caller
also needs to issue the CDROMREADTOCENTRY ioctl()
to find out which tracks contain CD-ROM XA data
before issuing this ioctl().
/*
* Definition of CD-ROM XA structure
*/
struct cdrom_cdxa {
unsigned int cdxa_addr;
unsigned int cdxa_length;
caddr_t cdxa_data;
unsigned char cdxa_format;
};
To get the proper CD-ROM XA data, the following
values are appropriate for the cdxa_format field:
CDROM_XA_DATA CD-ROM XA data only
CDROM_XA_SECTOR_DATA CD-ROM XA all sector data
CDROM_XA_DATA_W_ERROR CD-ROM XA data with error
flags data
To allocate the memory related to CD-ROM XA for‐
mat, the following values are appropriate for each
data block transferred:
CD-ROM XA data only
2048 bytes
CD-ROM XA all sector data
2352 bytes
CD-ROM XA data with error flags data
2646 bytes
CDROMSUBCODE This ioctl() command returns raw subcode data
(subcodes P ~ W are described in the "Red Book,"
see SEE ALSO) to the initiator while the target is
playing audio. The third argument of the ioctl()
call is a pointer to the type struct cdrom_sub‐
code. The caller needs to supply the transfer
length in terms of number of blocks and allocate
memory for subcode data. The memory allocated
should be a multiple of 96 bytes depending on the
transfer length.
/*
* Definition of subcode structure
*/
struct cdrom_subcode {
unsigned int cdsc_length;
caddr_t cdsc_addr;
};
The next group of I/O controls get and set various CD-ROM drive parame‐
ters.
CDROMGBLKMODE This ioctl() command returns the current block size
used by the CD-ROM drive. The third argument of the
ioctl() call is a pointer to an integer.
CDROMSBLKMODE This ioctl() command requests the CD-ROM drive to
change from the current block size to the requested
block size. The third argument of the ioctl() call is
an integer which contains the requested block size.
This ioctl() command operates in exclusive-use mode
only. The caller must ensure that no other processes
can operate on the same CD-ROM device before issuing
this ioctl(). read(2) behavior subsequent to this
ioctl() remains the same: the caller is still con‐
strained to read the raw device on block boundaries
and in block multiples.
To set the proper block size, the following values
are appropriate:
CDROM_BLK_512 512 bytes
CDROM_BLK_1024 1024 bytes
CDROM_BLK_2048 2048 bytes
CDROM_BLK_2056 2056 bytes
CDROM_BLK_2336 2336 bytes
CDROM_BLK_2340 2340 bytes
CDROM_BLK_2352 2352 bytes
CDROM_BLK_2368 2368 bytes
CDROM_BLK_2448 2448 bytes
CDROM_BLK_2646 2646 bytes
CDROM_BLK_2647 2647 bytes
CDROMGDRVSPEED This ioctl() command returns the current CD-ROM drive
speed. The third argument of the ioctl() call is a
pointer to an integer.
CDROMSDRVSPEED This ioctl() command requests the CD-ROM drive to
change the current drive speed to the requested drive
speed. This speed setting is only applicable when
reading data areas. The third argument of the
ioctl() is an integer which contains the requested
drive speed.
To set the CD-ROM drive to the proper speed, the
following values are appropriate:
CDROM_NORMAL_SPEED 150k/second
CDROM_DOUBLE_SPEED 300k/second
CDROM_QUAD_SPEED 600k/second
CDROM_MAXIMUM_SPEED 300k/second (2x drive)
600k/second (4x drive)
Note that these numbers are only accurate when read‐
ing 2048 byte blocks. The CD-ROM drive will automat‐
ically switch to normal speed when playing audio
tracks and will switch back to the speed setting
when accessing data.
SEE ALSOioctl(2), read(2)
N. V. Phillips and Sony Corporation, System Description Compact Disc
Digital Audio, ("Red Book").
N. V. Phillips and Sony Corporation, System Description of Compact Disc
Read Only Memory, ("Yellow Book").
N. V. Phillips, Microsoft, and Sony Corporation, System Description CD-
ROM XA, 1991.
Volume and File Structure of CD-ROM for Information Interchange, ISO
9660:1988(E).
SCSI-2 Standard, document X3T9.2/86-109
SCSI Multimedia Commands, Version 2 (MMC-2)
NOTES
The CDROMCDDA, CDROMCDXA, CDROMSUBCODE, CDROMGDRVSPEED, CDROMS‐
DRVSPEED, and some of the block sizes in CDROMSBLKMODE are designed
for new Sun-supported CD-ROM drives and might not work on some of the
older CD-ROM drives.
CDROMCDDA, CDROMCDXA and CDROMSUBCODE will return error if the transfer
length exceeds valid limits as determined appropriate. Example: for
MMC-2 drives, length can not exceed 3 bytes (i.e. 0xffffff). The same
restriction is enforced for older, pre-MMC-2 drives, as no limit was
published for these older drives (and 3 bytes is reasonable for all
media). Note that enforcing this limit does not imply that values
passed in below this limit will actually be applicable for each and
every piece of media.
The interface to this device is preliminary and subject to change in
future releases. Programs should be written in a modular fashion so
that future changes can be easily incorporated.
SunOS 5.11 4 Oct 2001 cdio(7I)