sioc_io(7)sioc_io(7)NAMEsioc_io - SCSI pass-through interface
DESCRIPTION
SCSI devices are controlled by a device-specific driver, when one
exists. Device-specific drivers, such as those for SCSI direct access
(disk) and sequential access (tape) devices, coordinate device and
driver states to accomplish correct logical device behavior. The pass-
through interface enables the use of SCSI devices and commands not nor‐
mally supported by these device-specific drivers. It is composed of
two ioctls: and
is the pass-through interface introduced with HP-UX 11i V3 release. It
is the recommended interface. It should be issued on persistent device
files (see intro(7)). It allows to send the SCSI command through any
of the available LUN paths or through a specific LUN path.
is the pass-through interface that existed prior to HP-UX 11i V3. This
interface is deprecated with HP-UX 11i V3 release. It is maintained
for backward compatibility. It can be used on persistent device files
or legacy device files. If issued on a persistent device file, the SCSI
command is sent through any of the available LUN paths. If issued on a
legacy device file, the SCSI command will be sent through any available
LUN paths. However, if multi-pathing is disabled legacy device files
(see in scsimgr(1M)), the SCSI command will be sent only through the
LUN path corresponding to the legacy device file.
All reserved fields in the data structure associated to the interface
must be zero-filled.
The ioctl allows an arbitrary SCSI command to be sent to a device. All
details of the SCSI command protocol are handled automatically.
The data structure for the ioctl is included from
/* SCSI device control ioctls */
#define SIOC_IO_EXT _IOWR('S', 102, esctl_io_t)
#define SIOC_IO _IOWR('S', 22, struct sctl_io)
/* Structure for SIOC_IO_EXT ioctl */
typedef struct {
int version;
escsi_sctl_io_flags_t flags;
int max_msecs;
uint32_t cdb_length;
uint32_t data_length;
ptr64_t data;
union sense_data sense;
escsi_hw_path_t lpt_hwp;
uint32_t data_xfer;
uint32_t sense_xfer;
uint32_t cdb_status;
uint32_t sense_status;
uint8_t cdb[ESCSI_MAX_CDB_LEN];
uint32_t rsvd[32]; /* Reserved for
* future use
*/
} esctl_io_t;
/* Structure for SIOC_IO ioctl */
typedef struct sctl_io {
unsigned flags;
unsigned char cdb_length;
unsigned char cdb[16];
void *data;
unsigned data_length;
unsigned max_msecs;
unsigned data_xfer;
unsigned cdb_status;
unsigned char sense[256];
unsigned sense_status;
unsigned char sense_xfer;
unsigned char reserved[64];
} sctl_io_t;
The following flags can be used to specify the field value of both and
unless indicated otherwise:
Data-in phase expected if the data_length field is non-zero.
The absence of this flag implies that a data-out phase is
expected if the data_length field is non-zero.
The SCSI command is to be issued on a given LUN path.
This flag can only be specified with ioctl. When speci‐
fied the hardware path of the LUN path to use is speci‐
fied in field lpt_hwp
The cdb field specifies the SCSI command bytes. The number of command
bytes is specified by the cdb_length field. These command bytes are
sent to the target device during the SCSI command phase.
The address of the data area for the data phase of the SCSI command is
specified by the data field. The field specifies the maximum number of
data bytes to be transferred. A zero-valued data_length indicates that
no data phase should occur. Most SCSI commands with a data phase
expect the data length information to be included somewhere in the com‐
mand bytes. The caller is responsible for correctly specifying both
the data_length field and any cdb data length values. The length may
not be larger than and some implementations further restrict this
length.
The max_msecs field specifies the maximum time, in milliseconds, that
the device should need to complete the command. If this period of time
expires without command completion, the system might attempt recovery
procedures to regain the device's attention. These recovery procedures
might include abort tag, abort, and device and bus reset operations. A
zero value in the max_msec field indicates that the timeout period is
infinite and the system should wait indefinitely for command comple‐
tion.
When the ioctl call returns, all command processing has been completed.
Most ioctl calls will return zero (success). The resulting detailed
ioctl data should be used to evaluate "success" or "failure" from the
caller's perspective. The field indicates the results of the command.
If the cdb_status field indicates a status, the sense_status field
indicates the results of the SCSI command used to collect the associ‐
ated sense data. These status fields will contain one of the following
values:
The SCSI command request is invalid and thus not attempted.
The target device does not answer to selection by the host SCSI
interface (the device does not exist or does not respond).
The device answered selection but the command is not completed
(the device took too long or a communication failure occurred).
Device successfully completed the command.
Device indicated sense data is available.
Device successfully completed the command
and the requested (search or pre-fetch) operation is satisfied.
Device indicated it is unable to accept the command
because it is busy doing other operations.
Device successfully completed this command,
which is one in a series of linked commands (not supported, see
Device indicated both
and (not supported, see
Device indicated the command conflicted with an existing reservation.
Device indicated the command is terminated early by the host system.
Device indicated it is unable to accept the command
because its command queue is currently full.
The field indicates the number of data bytes actually transferred dur‐
ing the data phase of the command. This field is valid only when the
cdb_status field contains one of the following values: or The
sense_xfer field indicates the number of valid sense data bytes. This
field is valid only when the cdb_status field contains the value and
the sense_status field contains the value
Security Restrictions
Use of the ioctl requires the superuser or privilege, or device write
permissions. See privileges(5) for more information about privileged
access on systems that support fine-grained privileges.
EXAMPLES
Assume that fildes is a valid file descriptor for a persistent device
file of a SCSI device, and leg_fildes is a valid file descriptor for a
legacy device file of a SCSI device, and lpt_hwp contains a valid hard‐
ware path of a LUN path to the device. The first example attempts a
SCSI command:
#include <sys/scsi.h>
esctl_io_t esctl_io;
#define MAX_LEN 255
unsigned char inquiry_data[MAX_LEN];
memset(&esctl_io, 0, sizeof(esctl_io)); /* clear reserved fields */
esctl_io.flags = SCTL_READ; /* input data expected */
esctl_io.cdb[0] = CMDinquiry;
esctl_io.cdb[1] = 0x00;
esctl_io.cdb[2] = 0x00;
esctl_io.cdb[3] = 0x00;
esctl_io.cdb[4] = MAX_LEN; /* allocation length */
esctl_io.cdb[5] = 0x00;
esctl_io.cdb_length = 6; /* 6 byte command */
esctl_io.data = &inquiry_data[0]; /* data buffer location */
esctl_io.data_length = MAX_LEN; /* maximum transfer length */
esctl_io.max_msecs = 10000; /* allow 10 seconds for cmd */
if (ioctl(fildes, SIOC_IO_EXT, &esctl_io) < 0) {
/* request is invalid */
} else {
if ( esctl_io.cdb_status == S_GOOD) {
/* success. display inquiry data */
else {
/* failure. process depending on cdb_status */
}
}
The second example attempts a SCSI command via a specific LUN path.
#include <sys/scsi.h>
esctl_io_t esctl_io;
#define MAX_LEN 255
unsigned char inquiry_data[MAX_LEN];
memset(&esctl_io, 0, sizeof(esctl_io)); /* clear reserved fields */
esctl_io.flags = SCTL_READ | SCTL_IO_LPT; /* input data
* expected and command
* to be sent on given
* LUN path
*/
memcpy(&esctl_io.lpt_hwp, lpt_hwp, sizeof(lpt_hwp); /* specify
* the hardware path of
* LUN path through which
* command must be sent
*/
esctl_io.cdb[0] = CMDinquiry;
esctl_io.cdb[1] = 0x00;
esctl_io.cdb[2] = 0x00;
esctl_io.cdb[3] = 0x00;
esctl_io.cdb[4] = MAX_LEN; /* allocation length */
esctl_io.cdb[5] = 0x00;
esctl_io.cdb_length = 6; /* 6 byte command */
esctl_io.data = &inquiry_data[0]; /* data buffer location */
esctl_io.data_length = MAX_LEN; /* maximum transfer length */
esctl_io.max_msecs = 10000; /* allow 10 seconds for cmd */
if (ioctl(fildes, SIOC_IO_EXT, &esctl_io) < 0) {
/* request is invalid */
} else {
if ( esctl_io.cdb_status == S_GOOD) {
/* success. display inquiry data */
else {
/* failure. process depending on cdb_status */
}
}
The following example attempts a SCSI command and checks to see if the
device is ready, not ready, or in some other state.
#include <sys/scsi.h>
struct sctl_io sctl_io;
memset(&sctl_io, 0, sizeof(sctl_io)); /* clear reserved fields */
sctl_io.flags = 0; /* no data transfer expected */
sctl_io.cdb[0] = 0x00; /* can use CMDtest_unit_ready */
sctl_io.cdb[1] = 0x00;
sctl_io.cdb[2] = 0x00;
sctl_io.cdb[3] = 0x00;
sctl_io.cdb[4] = 0x00;
sctl_io.cdb[5] = 0x00;
sctl_io.cdb_length = 6; /* 6 byte command */
sctl_io.data = NULL; /* no data buffer is provided */
sctl_io.data_length = 0; /* do not transfer data */
sctl_io.max_msecs = 10000; /* allow 10 seconds for cmd */
if (ioctl(leg_fildes, SIOC_IO, &sctl_io) < 0) {
/* request is invalid */
}
else if (sctl_io.cdb_status == S_GOOD) {
/* device is ready */
}
else if (sctl_io.cdb_status == S_BUSY ||
(sctl_io.cdb_status == S_CHECK_CONDITION &&
sctl_io.sense_status == S_GOOD &&
sctl_io.sense_xfer > 2 &&
(sctl_io.sense[2] & 0x0F) == 2)) {
/* can use sense_data */
/* device is not ready */
} else {
/* unknown state */
}
WARNINGS
Incorrect use of operations (even those attempting access to non-exis‐
tent devices) can cause data loss, system panics, and device damage.
The ioctl should be used to gain exclusive access to a device prior to
attempting commands. If exclusive access is not obtained, commands
will be intermixed with device-specific driver commands, which can lead
to undesirable results.
Device-specific drivers can reject inappropriate or troublesome com‐
mands. However, since not all such operations are known and detected,
care should be exercised to avoid disrupting device-specific drivers
when using commands that modify internal device states.
Most SCSI commands have a logical unit number (LUN) field. Parallel
SCSI implementations on the HP-UX operating system select logical units
via the SCSI message. The LUN portion of the should normally be set to
zero, even when the LUN being accessed is not zero.
Use of linked commands is not supported.
Most SCSI commands with a data phase expect the data length information
to be included somewhere in the command bytes. Both the data_length
field and any cdb data length values must be correctly specified to get
correct command results.
Very large (or infinite) timeout values can cause a parallel SCSI bus
(potentially the entire system) to hang.
Device and/or bus reset operations can be used to regain a device's
attention when a timeout expires.
Resetting a device can cause I/O errors and/or loss of cached data.
This can result in loss of data and/or system panics.
Obtaining SCSI data by use of the ioctl instead of by use of the ioctl
is generally preferable since SCSI implementations on the HP-UX operat‐
ing system synchronize access of inquiry data during driver open calls.
Since communication parameters can be affected by device-specific
driver capabilities, device-specific driver use might result in commu‐
nication parameter changes.
FILESSEE ALSOioctl(2), privileges(5), intro(7), scsi(7), scsi_ctl(7).
sioc_io(7)