freebsd-nq/sys/cam/ctl/ctl_io.h
Kenneth D. Merry 130f4520cb Add the CAM Target Layer (CTL).
CTL is a disk and processor device emulation subsystem originally written
for Copan Systems under Linux starting in 2003.  It has been shipping in
Copan (now SGI) products since 2005.

It was ported to FreeBSD in 2008, and thanks to an agreement between SGI
(who acquired Copan's assets in 2010) and Spectra Logic in 2010, CTL is
available under a BSD-style license.  The intent behind the agreement was
that Spectra would work to get CTL into the FreeBSD tree.

Some CTL features:

 - Disk and processor device emulation.
 - Tagged queueing
 - SCSI task attribute support (ordered, head of queue, simple tags)
 - SCSI implicit command ordering support.  (e.g. if a read follows a mode
   select, the read will be blocked until the mode select completes.)
 - Full task management support (abort, LUN reset, target reset, etc.)
 - Support for multiple ports
 - Support for multiple simultaneous initiators
 - Support for multiple simultaneous backing stores
 - Persistent reservation support
 - Mode sense/select support
 - Error injection support
 - High Availability support (1)
 - All I/O handled in-kernel, no userland context switch overhead.

(1) HA Support is just an API stub, and needs much more to be fully
    functional.

ctl.c:			The core of CTL.  Command handlers and processing,
			character driver, and HA support are here.

ctl.h:			Basic function declarations and data structures.

ctl_backend.c,
ctl_backend.h:		The basic CTL backend API.

ctl_backend_block.c,
ctl_backend_block.h:	The block and file backend.  This allows for using
			a disk or a file as the backing store for a LUN.
			Multiple threads are started to do I/O to the
			backing device, primarily because the VFS API
			requires that to get any concurrency.

ctl_backend_ramdisk.c:	A "fake" ramdisk backend.  It only allocates a
			small amount of memory to act as a source and sink
			for reads and writes from an initiator.  Therefore
			it cannot be used for any real data, but it can be
			used to test for throughput.  It can also be used
			to test initiators' support for extremely large LUNs.

ctl_cmd_table.c:	This is a table with all 256 possible SCSI opcodes,
			and command handler functions defined for supported
			opcodes.

ctl_debug.h:		Debugging support.

ctl_error.c,
ctl_error.h:		CTL-specific wrappers around the CAM sense building
			functions.

ctl_frontend.c,
ctl_frontend.h:		These files define the basic CTL frontend port API.

ctl_frontend_cam_sim.c:	This is a CTL frontend port that is also a CAM SIM.
			This frontend allows for using CTL without any
			target-capable hardware.  So any LUNs you create in
			CTL are visible in CAM via this port.

ctl_frontend_internal.c,
ctl_frontend_internal.h:
			This is a frontend port written for Copan to do
			some system-specific tasks that required sending
			commands into CTL from inside the kernel.  This
			isn't entirely relevant to FreeBSD in general,
			but can perhaps be repurposed.

ctl_ha.h:		This is a stubbed-out High Availability API.  Much
			more is needed for full HA support.  See the
			comments in the header and the description of what
			is needed in the README.ctl.txt file for more
			details.

ctl_io.h:		This defines most of the core CTL I/O structures.
			union ctl_io is conceptually very similar to CAM's
			union ccb.

ctl_ioctl.h:		This defines all ioctls available through the CTL
			character device, and the data structures needed
			for those ioctls.

ctl_mem_pool.c,
ctl_mem_pool.h:		Generic memory pool implementation used by the
			internal frontend.

ctl_private.h:		Private data structres (e.g. CTL softc) and
			function prototypes.  This also includes the SCSI
			vendor and product names used by CTL.

ctl_scsi_all.c,
ctl_scsi_all.h:		CTL wrappers around CAM sense printing functions.

ctl_ser_table.c:	Command serialization table.  This defines what
			happens when one type of command is followed by
			another type of command.

ctl_util.c,
ctl_util.h:		CTL utility functions, primarily designed to be
			used from userland.  See ctladm for the primary
			consumer of these functions.  These include CDB
			building functions.

scsi_ctl.c:		CAM target peripheral driver and CTL frontend port.
			This is the path into CTL for commands from
			target-capable hardware/SIMs.

README.ctl.txt:		CTL code features, roadmap, to-do list.

usr.sbin/Makefile:	Add ctladm.

ctladm/Makefile,
ctladm/ctladm.8,
ctladm/ctladm.c,
ctladm/ctladm.h,
ctladm/util.c:		ctladm(8) is the CTL management utility.
			It fills a role similar to camcontrol(8).
			It allow configuring LUNs, issuing commands,
			injecting errors and various other control
			functions.

usr.bin/Makefile:	Add ctlstat.

ctlstat/Makefile
ctlstat/ctlstat.8,
ctlstat/ctlstat.c:	ctlstat(8) fills a role similar to iostat(8).
			It reports I/O statistics for CTL.

sys/conf/files:		Add CTL files.

sys/conf/NOTES:		Add device ctl.

sys/cam/scsi_all.h:	To conform to more recent specs, the inquiry CDB
			length field is now 2 bytes long.

			Add several mode page definitions for CTL.

sys/cam/scsi_all.c:	Handle the new 2 byte inquiry length.

sys/dev/ciss/ciss.c,
sys/dev/ata/atapi-cam.c,
sys/cam/scsi/scsi_targ_bh.c,
scsi_target/scsi_cmds.c,
mlxcontrol/interface.c:	Update for 2 byte inquiry length field.

scsi_da.h:		Add versions of the format and rigid disk pages
			that are in a more reasonable format for CTL.

amd64/conf/GENERIC,
i386/conf/GENERIC,
ia64/conf/GENERIC,
sparc64/conf/GENERIC:	Add device ctl.

i386/conf/PAE:		The CTL frontend SIM at least does not compile
			cleanly on PAE.

Sponsored by:	Copan Systems, SGI and Spectra Logic
MFC after:	1 month
2012-01-12 00:34:33 +00:00

475 lines
15 KiB
C

/*-
* Copyright (c) 2003 Silicon Graphics International Corp.
* All rights reserved.
*
* 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,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* substantially similar to the "NO WARRANTY" disclaimer below
* ("Disclaimer") and any redistribution must be conditioned upon
* including a substantially similar Disclaimer requirement for further
* binary redistribution.
*
* NO WARRANTY
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES.
*
* $Id: //depot/users/kenm/FreeBSD-test2/sys/cam/ctl/ctl_io.h#5 $
* $FreeBSD$
*/
/*
* CAM Target Layer data movement structures/interface.
*
* Author: Ken Merry <ken@FreeBSD.org>
*/
#ifndef _CTL_IO_H_
#define _CTL_IO_H_
#ifdef _CTL_C
#define EXTERN(__var,__val) __var = __val
#else
#define EXTERN(__var,__val) extern __var
#endif
#define CTL_MAX_CDBLEN 32
/*
* Uncomment this next line to enable printing out times for I/Os
* that take longer than CTL_TIME_IO_SECS seconds to get to the datamove
* and/or done stage.
*/
#define CTL_TIME_IO
#ifdef CTL_TIME_IO
#define CTL_TIME_IO_DEFAULT_SECS 90
EXTERN(int ctl_time_io_secs, CTL_TIME_IO_DEFAULT_SECS);
#endif
/*
* Uncomment these next two lines to enable the CTL I/O delay feature. You
* can delay I/O at two different points -- datamove and done. This is
* useful for diagnosing abort conditions (for hosts that send an abort on a
* timeout), and for determining how long a host's timeout is.
*/
#define CTL_IO_DELAY
#define CTL_TIMER_BYTES sizeof(struct callout)
typedef enum {
CTL_STATUS_NONE, /* No status */
CTL_SUCCESS, /* Transaction completed successfully */
CTL_CMD_TIMEOUT, /* Command timed out, shouldn't happen here */
CTL_SEL_TIMEOUT, /* Selection timeout, shouldn't happen here */
CTL_ERROR, /* General CTL error XXX expand on this? */
CTL_SCSI_ERROR, /* SCSI error, look at status byte/sense data */
CTL_CMD_ABORTED, /* Command aborted, don't return status */
CTL_STATUS_MASK = 0xfff,/* Mask off any status flags */
CTL_AUTOSENSE = 0x1000 /* Autosense performed */
} ctl_io_status;
/*
* WARNING: Keep the data in/out/none flags where they are. They're used
* in conjuction with ctl_cmd_flags. See comment above ctl_cmd_flags
* definition in ctl_private.h.
*/
typedef enum {
CTL_FLAG_NONE = 0x00000000, /* no flags */
CTL_FLAG_DATA_IN = 0x00000001, /* DATA IN */
CTL_FLAG_DATA_OUT = 0x00000002, /* DATA OUT */
CTL_FLAG_DATA_NONE = 0x00000003, /* no data */
CTL_FLAG_DATA_MASK = 0x00000003,
CTL_FLAG_KDPTR_SGLIST = 0x00000008, /* kern_data_ptr is S/G list*/
CTL_FLAG_EDPTR_SGLIST = 0x00000010, /* ext_data_ptr is S/G list */
CTL_FLAG_DO_AUTOSENSE = 0x00000020, /* grab sense info */
CTL_FLAG_USER_REQ = 0x00000040, /* request came from userland */
CTL_FLAG_CONTROL_DEV = 0x00000080, /* processor device */
CTL_FLAG_ALLOCATED = 0x00000100, /* data space allocated */
CTL_FLAG_BLOCKED = 0x00000200, /* on the blocked queue */
CTL_FLAG_ABORT = 0x00000800, /* this I/O should be aborted */
CTL_FLAG_DMA_INPROG = 0x00001000, /* DMA in progress */
CTL_FLAG_NO_DATASYNC = 0x00002000, /* don't cache flush data */
CTL_FLAG_DELAY_DONE = 0x00004000, /* delay injection done */
CTL_FLAG_INT_COPY = 0x00008000, /* internal copy, no done call*/
CTL_FLAG_SENT_2OTHER_SC = 0x00010000,
CTL_FLAG_FROM_OTHER_SC = 0x00020000,
CTL_FLAG_IS_WAS_ON_RTR = 0x00040000, /* Don't rerun cmd on failover*/
CTL_FLAG_BUS_ADDR = 0x00080000, /* ctl_sglist contains BUS
addresses, not virtual ones*/
CTL_FLAG_IO_CONT = 0x00100000, /* Continue I/O instead of
completing */
CTL_FLAG_AUTO_MIRROR = 0x00200000, /* Automatically use memory
from the RC cache mirrored
address area. */
#if 0
CTL_FLAG_ALREADY_DONE = 0x00200000 /* I/O already completed */
#endif
CTL_FLAG_NO_DATAMOVE = 0x00400000,
CTL_FLAG_DMA_QUEUED = 0x00800000, /* DMA queued but not started*/
CTL_FLAG_STATUS_QUEUED = 0x01000000, /* Status queued but not sent*/
CTL_FLAG_REDIR_DONE = 0x02000000, /* Redirection has already
been done. */
CTL_FLAG_FAILOVER = 0x04000000, /* Killed by a failover */
CTL_FLAG_IO_ACTIVE = 0x08000000, /* I/O active on this SC */
CTL_FLAG_RDMA_MASK = CTL_FLAG_NO_DATASYNC | CTL_FLAG_BUS_ADDR |
CTL_FLAG_AUTO_MIRROR | CTL_FLAG_REDIR_DONE
/* Flags we care about for
remote DMA */
} ctl_io_flags;
struct ctl_lba_len {
uint64_t lba;
uint32_t len;
};
union ctl_priv {
uint8_t bytes[sizeof(uint64_t) * 2];
uint64_t integer;
void *ptr;
};
/*
* Number of CTL private areas.
*/
#define CTL_NUM_PRIV 6
/*
* Which private area are we using for a particular piece of data?
*/
#define CTL_PRIV_LUN 0 /* CTL LUN pointer goes here */
#define CTL_PRIV_LBA_LEN 1 /* Decoded LBA/len for read/write*/
#define CTL_PRIV_MODEPAGE 1 /* Modepage info for config write */
#define CTL_PRIV_BACKEND 2 /* Reserved for block, RAIDCore */
#define CTL_PRIV_BACKEND_LUN 3 /* Backend LUN pointer */
#define CTL_PRIV_FRONTEND 4 /* LSI driver, ioctl front end */
#define CTL_PRIV_USER 5 /* Userland use */
#define CTL_INVALID_PORTNAME 0xFF
#define CTL_UNMAPPED_IID 0xFF
/*
* XXX KDM this size is for the port_priv variable in struct ctl_io_hdr
* below. This should be defined in terms of the size of struct
* ctlfe_lun_cmd_info at the moment:
* struct ctlfe_lun_cmd_info {
* int cur_transfer_index;
* ctlfe_cmd_flags flags;
* bus_dma_segment_t cam_sglist[32];
* };
*
* This isn't really the way I'd prefer to do it, but it does make some
* sense, AS LONG AS we can guarantee that there will always only be one
* outstanding DMA request per ctl_io. If that assumption isn't valid,
* then we've got problems.
*
* At some point it may be nice switch CTL over to using CCBs for
* everything. At that point we can probably use the ATIO/CTIO model, so
* that multiple simultaneous DMAs per command will just work.
*
* Also note that the current size, 600, is appropriate for 64-bit
* architectures, but is overkill for 32-bit architectures. Need a way to
* figure out the size at compile time, or just get rid of this altogether.
*/
#define CTL_PORT_PRIV_SIZE 600
struct ctl_sg_entry {
void *addr;
size_t len;
};
struct ctl_id {
uint32_t id;
uint64_t wwid[2];
};
typedef enum {
CTL_IO_NONE,
CTL_IO_SCSI,
CTL_IO_TASK,
} ctl_io_type;
struct ctl_nexus {
struct ctl_id initid; /* Initiator ID */
uint32_t targ_port; /* Target port, filled in by PORT */
struct ctl_id targ_target; /* Destination target */
uint32_t targ_lun; /* Destination lun */
};
typedef enum {
CTL_MSG_SERIALIZE,
CTL_MSG_R2R,
CTL_MSG_FINISH_IO,
CTL_MSG_BAD_JUJU,
CTL_MSG_MANAGE_TASKS,
CTL_MSG_PERS_ACTION,
CTL_MSG_SYNC_FE,
CTL_MSG_APS_LOCK,
CTL_MSG_DATAMOVE,
CTL_MSG_DATAMOVE_DONE
} ctl_msg_type;
struct ctl_scsiio;
#define CTL_NUM_SG_ENTRIES 9
struct ctl_io_hdr {
uint32_t version; /* interface version XXX */
ctl_io_type io_type; /* task I/O, SCSI I/O, etc. */
ctl_msg_type msg_type;
struct ctl_nexus nexus; /* Initiator, port, target, lun */
uint32_t iid_indx; /* the index into the iid mapping */
uint32_t flags; /* transaction flags */
uint32_t status; /* transaction status */
uint32_t port_status; /* trans status, set by PORT, 0 = good*/
uint32_t timeout; /* timeout in ms */
uint32_t retries; /* retry count */
#ifdef CTL_IO_DELAY
uint8_t timer_bytes[CTL_TIMER_BYTES]; /* timer kludge */
#endif /* CTL_IO_DELAY */
#ifdef CTL_TIME_IO
time_t start_time; /* I/O start time */
struct bintime start_bt; /* Timer start ticks */
struct bintime dma_start_bt; /* DMA start ticks */
struct bintime dma_bt; /* DMA total ticks */
uint32_t num_dmas; /* Number of DMAs */
#endif /* CTL_TIME_IO */
union ctl_io *original_sc;
union ctl_io *serializing_sc;
void *pool; /* I/O pool */
union ctl_priv ctl_private[CTL_NUM_PRIV];/* CTL private area */
uint8_t port_priv[CTL_PORT_PRIV_SIZE];/* PORT private area*/
struct ctl_sg_entry remote_sglist[CTL_NUM_SG_ENTRIES];
struct ctl_sg_entry remote_dma_sglist[CTL_NUM_SG_ENTRIES];
struct ctl_sg_entry local_sglist[CTL_NUM_SG_ENTRIES];
struct ctl_sg_entry local_dma_sglist[CTL_NUM_SG_ENTRIES];
STAILQ_ENTRY(ctl_io_hdr) links; /* linked list pointer */
TAILQ_ENTRY(ctl_io_hdr) ooa_links;
TAILQ_ENTRY(ctl_io_hdr) blocked_links;
};
typedef enum {
CTL_TAG_UNTAGGED,
CTL_TAG_SIMPLE,
CTL_TAG_ORDERED,
CTL_TAG_HEAD_OF_QUEUE,
CTL_TAG_ACA
} ctl_tag_type;
union ctl_io;
/*
* SCSI passthrough I/O structure for the CAM Target Layer. Note
* that some of these fields are here for completeness, but they aren't
* used in the CTL implementation. e.g., timeout and retries won't be
* used.
*
* Note: Make sure the io_hdr is *always* the first element in this
* structure.
*/
struct ctl_scsiio {
struct ctl_io_hdr io_hdr; /* common to all I/O types */
uint32_t ext_sg_entries; /* 0 = no S/G list, > 0 = num entries */
uint8_t *ext_data_ptr; /* data buffer or S/G list */
uint32_t ext_data_len; /* Data transfer length */
uint32_t ext_data_filled; /* Amount of data filled so far */
uint32_t kern_sg_entries; /* 0 = no S/G list, > 0 = num entries */
uint32_t rem_sg_entries; /* 0 = no S/G list, > 0 = num entries */
uint8_t *kern_data_ptr; /* data buffer or S/G list */
uint32_t kern_data_len; /* Length of this S/G list/buffer */
uint32_t kern_total_len; /* Total length of this transaction */
uint32_t kern_data_resid; /* Length left to transfer after this*/
uint32_t kern_rel_offset; /* Byte Offset of this transfer */
struct scsi_sense_data sense_data; /* sense data */
uint8_t sense_len; /* Returned sense length */
uint8_t scsi_status; /* SCSI status byte */
uint8_t sense_residual; /* sense residual length */
uint32_t residual; /* data residual length */
uint32_t tag_num; /* tag number */
ctl_tag_type tag_type; /* simple, ordered, head of queue,etc.*/
uint8_t cdb_len; /* CDB length */
uint8_t cdb[CTL_MAX_CDBLEN]; /* CDB */
int (*be_move_done)(union ctl_io *io); /* called by fe */
int (*io_cont)(union ctl_io *io); /* to continue processing */
};
typedef enum {
CTL_TASK_ABORT_TASK,
CTL_TASK_ABORT_TASK_SET,
CTL_TASK_CLEAR_ACA,
CTL_TASK_CLEAR_TASK_SET,
CTL_TASK_LUN_RESET,
CTL_TASK_TARGET_RESET,
CTL_TASK_BUS_RESET,
CTL_TASK_PORT_LOGIN,
CTL_TASK_PORT_LOGOUT
} ctl_task_type;
/*
* Task management I/O structure. Aborts, bus resets, etc., are sent using
* this structure.
*
* Note: Make sure the io_hdr is *always* the first element in this
* structure.
*/
struct ctl_taskio {
struct ctl_io_hdr io_hdr; /* common to all I/O types */
ctl_task_type task_action; /* Target Reset, Abort, etc. */
uint32_t tag_num; /* tag number */
ctl_tag_type tag_type; /* simple, ordered, etc. */
};
typedef enum {
CTL_PR_REG_KEY,
CTL_PR_UNREG_KEY,
CTL_PR_PREEMPT,
CTL_PR_CLEAR,
CTL_PR_RESERVE,
CTL_PR_RELEASE
} ctl_pr_action;
/*
* The PR info is specifically for sending Persistent Reserve actions
* to the other SC which it must also act on.
*
* Note: Make sure the io_hdr is *always* the first element in this
* structure.
*/
struct ctl_pr_info {
ctl_pr_action action;
uint8_t sa_res_key[8];
uint8_t res_type;
uint16_t residx;
};
struct ctl_ha_msg_hdr {
ctl_msg_type msg_type;
union ctl_io *original_sc;
union ctl_io *serializing_sc;
struct ctl_nexus nexus; /* Initiator, port, target, lun */
uint32_t status; /* transaction status */
TAILQ_ENTRY(ctl_ha_msg_hdr) links;
};
#define CTL_HA_MAX_SG_ENTRIES 16
/*
* Used for CTL_MSG_APS_LOCK.
*/
struct ctl_ha_msg_aps {
struct ctl_ha_msg_hdr hdr;
uint8_t lock_flag;
};
/*
* Used for CTL_MSG_PERS_ACTION.
*/
struct ctl_ha_msg_pr {
struct ctl_ha_msg_hdr hdr;
struct ctl_pr_info pr_info;
};
/*
* The S/G handling here is a little different than the standard ctl_scsiio
* structure, because we can't pass data by reference in between controllers.
* The S/G list in the ctl_scsiio struct is normally passed in the
* kern_data_ptr field. So kern_sg_entries here will always be non-zero,
* even if there is only one entry.
*
* Used for CTL_MSG_DATAMOVE.
*/
struct ctl_ha_msg_dt {
struct ctl_ha_msg_hdr hdr;
ctl_io_flags flags; /* Only I/O flags are used here */
uint32_t sg_sequence; /* S/G portion number */
uint8_t sg_last; /* last S/G batch = 1 */
uint32_t sent_sg_entries; /* previous S/G count */
uint32_t cur_sg_entries; /* current S/G entries */
uint32_t kern_sg_entries; /* total S/G entries */
uint32_t kern_data_len; /* Length of this S/G list */
uint32_t kern_total_len; /* Total length of this
transaction */
uint32_t kern_data_resid; /* Length left to transfer
after this*/
uint32_t kern_rel_offset; /* Byte Offset of this
transfer */
struct ctl_sg_entry sg_list[CTL_HA_MAX_SG_ENTRIES];
};
/*
* Used for CTL_MSG_SERIALIZE, CTL_MSG_FINISH_IO, CTL_MSG_BAD_JUJU.
*/
struct ctl_ha_msg_scsi {
struct ctl_ha_msg_hdr hdr;
uint8_t cdb[CTL_MAX_CDBLEN]; /* CDB */
uint32_t tag_num; /* tag number */
ctl_tag_type tag_type; /* simple, ordered, etc. */
uint8_t scsi_status; /* SCSI status byte */
struct scsi_sense_data sense_data; /* sense data */
uint8_t sense_len; /* Returned sense length */
uint8_t sense_residual; /* sense residual length */
uint32_t residual; /* data residual length */
uint32_t fetd_status; /* trans status, set by FETD,
0 = good*/
struct ctl_lba_len lbalen; /* used for stats */
};
/*
* Used for CTL_MSG_MANAGE_TASKS.
*/
struct ctl_ha_msg_task {
struct ctl_ha_msg_hdr hdr;
ctl_task_type task_action; /* Target Reset, Abort, etc. */
uint32_t tag_num; /* tag number */
ctl_tag_type tag_type; /* simple, ordered, etc. */
};
union ctl_ha_msg {
struct ctl_ha_msg_hdr hdr;
struct ctl_ha_msg_task task;
struct ctl_ha_msg_scsi scsi;
struct ctl_ha_msg_dt dt;
struct ctl_ha_msg_pr pr;
struct ctl_ha_msg_aps aps;
};
struct ctl_prio {
struct ctl_io_hdr io_hdr;
struct ctl_ha_msg_pr pr_msg;
};
union ctl_io {
struct ctl_io_hdr io_hdr; /* common to all I/O types */
struct ctl_scsiio scsiio; /* Normal SCSI commands */
struct ctl_taskio taskio; /* SCSI task management/reset */
struct ctl_prio presio; /* update per. res info on other SC */
};
#ifdef _KERNEL
union ctl_io *ctl_alloc_io(void *pool_ref);
void ctl_free_io(union ctl_io *io);
void ctl_zero_io(union ctl_io *io);
void ctl_copy_io(union ctl_io *src, union ctl_io *dest);
#endif /* _KERNEL */
#endif /* _CTL_IO_H_ */
/*
* vim: ts=8
*/