devio(7)devio(7)NAMEdevio - device information interface
SYNOPSIS
#include <sys/ioctl.h> #include <sys/devgetinfo.h> #include
<sys/devio.h>
DESCRIPTION
The devio interface obtains status, device attributes, and other infor‐
mation by polling the controlling device driver. There are three ioctl
requests associated with this interface: DEVIOCGET, DEVGETINFO and
DEVGETGEOM.
The file <sys/devgetinfo.h> contains the structures and definitions
needed by the DEVGETINFO ioctl request; the file <sys/devio.h> contains
the structures and definitions needed by the DEVIOCGET and DEVGETGEOM
ioctl requests.
The DEVGETINFO and DEVIOCGET ioctl requests are used to obtain generic
device information by polling the underlying device driver. DEVGETINFO
is used by disk and tape device drivers; DEVIOCGET is used by other
kernel subsystems.
For DEVIOCGET, the devget structure is the basic structured used by
this request. The devget structure has the following definition:
/* Structure for DEVIOCGET ioctl - device get status command */
struct devget {
short category; /* Category */
short bus; /* Bus */
char interface[DEV_SIZE]; /* Interface (string) */
char device[DEV_SIZE]; /* Device (string) */
short adpt_num; /* Adapter number */
short nexus_num; /* Nexus or node on adapter # */
short bus_num; /* Bus number */
short ctlr_num; /* Controller number */
short rctlr_num; /* Remote controller number */
short slave_num; /* Plug or line number */
char dev_name[DEV_SIZE]; /* Device mnemonic */
short unit_num; /* Device unit number */
unsigned soft_count; /* Driver soft error count */
unsigned hard_count; /* Driver hard error count */
long stat; /* Generic status mask */
long category_stat; /* Category specific mask */ };
For DEVGETINFO, the device_info_t union is the top-level definition of
the information returned to the device_info_t union is the top-level
definition of the information returned to the DEVGETINFO ioctl request.
It has the following definition:
typedef union device_info {
int version; /* version number */
v1_device_info_t v1; /* bus and device information */
uchar_t pad[1024]; /* unused */ }
device_info_t;
The v1_device_info_t structure contains all the information returned to
the user data buffer by the DEVGETINFO ioctl command. This structure
is contained within the device_info_t structure so that the same inter‐
face can be used for various versions of the data structure. It has
the following definition:
typedef struct v1_device_info {
int version; /* version number */
short category; /* device type, i.e., disk */
short bus; /* bus type */
char interface[DEV_STRING_SIZE]; /* interface type, i.e., HSC40 */
char device[DEV_STRING_SIZE]; /* device description */
char dev_name[DEV_STRING_SIZE]; /* device name */
ulong_t soft_count; /* number of soft errors */
ulong_t hard_count; /* number of hard errors */
v1_devtype_info_t devinfo; /* device-type information */
v1_bustype_info_t businfo; /* bus-type information */
uchar_t private[DEV_PRIVATE_LEN]; /* driver-specific */
} v1_device_info_t;
The v1_bustype_info_t structure returns information about the bus type.
It has the following definition:
typedef struct v1_bustype_info {
int adpt_num; /* controller chip relative to current adaptor */
int nexus_num; /* slot that the adaptor is using */
int bus_num; /* logical bus number for the adaptor */
int ctlr_num; /* system-wide instance number of the adaptor */
int rctlr_num; /* remote ID for the adaptor */
int slave_num; /* number of the device relative to the
controlling hardware */
int unit_num; /* system-wide number of this device */
int pad0; /* unused */
union { v1_scsi_bus_info_t scsi; /* SCSI-specific
*/ uchar_t busdata[DEV_BUS_LEN]; /* bus-specific */
} bus; } v1_bustype_info_t;
The v1_devtype_info_t union returns device-specific information. The
contents of the v1_devtype_info_t union depends on the device type,
either disk, tape, or other device type. The structure has the follow‐
ing definition:
typedef union v1_devtype_info{
v1_disk_dev_info_t disk; /* disk-specific status */
v1_tape_dev_info_t tape; /* tape-specific status */
v1_term_dev_info_t term; /* terminal-specific status */
uchar_t devdata[DEV_TYPE_LEN]; /* other device-type status */ }
v1_devtype_info_t;
For disk devices, the v1_devtype_info_t union contains a
v1_disk_dev_info_t structure, defined as follows:
typedef struct v1_disk_dev_info {
ulong_t status; /* device status */
ulong_t capacity; /* number of blocks on the device */
ulong_t blocksz; /* number of bytes per block */
uchar_t class; /* disk class, such as diskette */
uchar_t part_num; /* total number of partitions */
uchar_t raid_level /* RAID level of the device */
uchar_t pad0; /* unused */
ushort_t media_changes; /* number of media changes (diskette) */
ushort_t pad1; /* unused */
union {
struct { uchar_t density_code; /* SCSI density code
*/ uchar_t flags; /* SCSI flags */
} scsi; uchar_t archdata[DEV_ARCH_LEN]; /* architecture-
specific */
} arch; } v1_disk_dev_info_t;
For tape devices, the v1_devtype_info_t union contains a
v1_tape_dev_info_t structure, defined as follows:
typedef struct v1_tape_dev_info {
uint_t media_status; /* current status of the media */
uint_t unit_status; /* current status of the unit */
long recordsz; /* record size, or 0 for
variable-sized records */
long density_bpi; /* current density setting */
long density_bpi_wrt; /* density used for writes */
long position; /* number of records written since
the last file mark */
long fm_cnt; /* number of file marks since the
beginning of the tape */
uchar_t class; /* tape device class */
uchar_t pad[7]; /* unused */
union {
struct { uint_t blocking_factor; /* blocking factor
*/ uchar_t valid_flags; /* valid flags */
uchar_t density_code; /* density code */
uchar_t buffered_mode; /* buffered mode */
uchar_t speed; /* tape speed */
uchar_t compression_code; /* compression code */
} scsi; uchar_t archdata[DEV_ARCH_LEN]; /* architecture-
specific */
} arch; } v1_tape_dev_info_t;
The DEVGETGEOM ioctl request is used to obtain disk geometry and
attributes by polling the underlying device driver. The ioctl fails on
other types of drivers which do not support DEVGETGEOM. The DEVGETGEOM
may also fail if the device driver is unable to obtain geometry infor‐
mation. This could happen if the disk media is removable and there is
no media loaded in the drive.
The following example shows the basic structure used by this request:
typedef union devgeom {
struct {
unsigned long dev_size; /* number of blocks in user area */
unsigned short ntracks; /* number of tracks per cylinder */
unsigned short nsectors; /* number of sectors per track */
unsigned short ncylinders; /* total number of cylinders */
unsigned long attributes; /* device attributes */
unsigned long sector_size; /* number of bytes per sector */
unsigned long min_trans; /* minimum transer size */
unsigned long max_trans; /* maximum transfer size */
unsigned long prefer_trans; /* perferred transfer size */
unsigned int headswitch; /* head switch time */
unsigned int trkseek; /* track-to-track seek time */
unsigned int acylinders; /* alternate cylinders per unit */
unsigned short rpm; /* rotational speed */
unsigned short interleave; /* hardware sector interleave */
unsigned short trackskew; /* sector 0 skew, per track */
unsigned short sparespertrack; /* spare sectors per track */
unsigned short sparespercyl; /* spare sectors per cylinder */
unsigned short cylskew; /* sector 0 skew, per cylinder */
} geom_info;
unsigned char pad[108]; /* Allocate space for expansion */ }
DEVGEOMST;
The following is a description of the fields of the DEVGEOMST data
structure. Many of the fields correspond to attributes that are often
specified in the disk description file /etc/disktab . This ioctl is
used by the creatediskbyname subroutine to dynamically generate disktab
entries. This field contains the number of user accessible blocks on
the disk. The corresponding disktab field is pc, which describes the
size of the "c" partition. This field contains the number of tracks
per cylinder and corresponds to the nt field of a disktab entry. This
field contains the number of sectors per track and corresponds to the
ns field of a disktab entry. This field contains the number of cylin‐
ders on the disk and corresponds to the nc field of a disktab entry.
This field represents disk attributes. This field specifies the number
of bytes per sector. This field specifies the minimum number of bytes
that can be transferred at one time. This field specifies the maximum
number of bytes that can be transferred at one time. This field speci‐
fies the preferred number of bytes in any single transfer. This field
specifies the number of microseconds the disk takes to switch heads.
This field specifies the number of microseconds the disk takes to seek
from track to track. This field specifies the number of alternate
cylinders that exist on the unit. This field specifies the rotational
speed of the disk. This field specifies the hardware sector inter‐
leave. This field specifies the sector 0 skew, per track. This field
specifies the number of spare sectors that exist on each track. This
field specifies the number of spare sectors that exist on each cynlin‐
der. This field specifies the sector 0 skew, per cylinder. This field
is not used to store disk information. The pad element of the DEVGE‐
OMST is used to provide room for future expansion of the information
fields.
SEE ALSOdisktab(4)devio(7)