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NetBSD/sys/dev/ic/ispvar.h

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/* $NetBSD: ispvar.h,v 1.73 2014/10/18 08:33:27 snj Exp $ */
/*
* Copyright (C) 1999 National Aeronautics & Space Administration
* All rights reserved.
*
* Additional Copyright (C) 2000-2007 by Matthew Jacob
* 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.
* 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.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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.
*/
/*
* Additional Copyright (c) 1997-2006 by Matthew Jacob
* 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, immediately at the beginning of the file.
* 2. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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.
*/
/*
* Soft Definitions for for Qlogic ISP SCSI adapters.
*/
#ifndef _ISPVAR_H
#define _ISPVAR_H
#if defined(__NetBSD__) || defined(__OpenBSD__)
#include <dev/ic/isp_stds.h>
#include <dev/ic/ispmbox.h>
#endif
#ifdef __FreeBSD__
#include <dev/isp/isp_stds.h>
#include <dev/isp/ispmbox.h>
#endif
#ifdef __linux__
#include "isp_stds.h"
#include "ispmbox.h"
#endif
#ifdef __svr4__
#include "isp_stds.h"
#include "ispmbox.h"
#endif
#define ISP_CORE_VERSION_MAJOR 7
#define ISP_CORE_VERSION_MINOR 0
/*
* Vector for bus specific code to provide specific services.
*/
typedef struct ispsoftc ispsoftc_t;
struct ispmdvec {
int (*dv_rd_isr) (ispsoftc_t *, uint32_t *, uint16_t *, uint16_t *);
uint32_t (*dv_rd_reg) (ispsoftc_t *, int);
void (*dv_wr_reg) (ispsoftc_t *, int, uint32_t);
int (*dv_mbxdma) (ispsoftc_t *);
int (*dv_dmaset) (ispsoftc_t *, XS_T *, void *);
void (*dv_dmaclr) (ispsoftc_t *, XS_T *, uint32_t);
void (*dv_reset0) (ispsoftc_t *);
void (*dv_reset1) (ispsoftc_t *);
void (*dv_dregs) (ispsoftc_t *, const char *);
const void * dv_ispfw; /* ptr to f/w */
uint16_t dv_conf1;
uint16_t dv_clock; /* clock frequency */
};
/*
* Overall parameters
*/
#define MAX_TARGETS 16
#ifndef MAX_FC_TARG
#define MAX_FC_TARG 512
#endif
#define ISP_MAX_TARGETS(isp) (IS_FC(isp)? MAX_FC_TARG : MAX_TARGETS)
#define ISP_MAX_LUNS(isp) (isp)->isp_maxluns
/*
* Macros to access ISP registers through bus specific layers-
* mostly wrappers to vector through the mdvec structure.
*/
#define ISP_READ_ISR(isp, isrp, semap, mbox0p) \
(*(isp)->isp_mdvec->dv_rd_isr)(isp, isrp, semap, mbox0p)
#define ISP_READ(isp, reg) \
(*(isp)->isp_mdvec->dv_rd_reg)((isp), (reg))
#define ISP_WRITE(isp, reg, val) \
(*(isp)->isp_mdvec->dv_wr_reg)((isp), (reg), (val))
#define ISP_MBOXDMASETUP(isp) \
(*(isp)->isp_mdvec->dv_mbxdma)((isp))
#define ISP_DMASETUP(isp, xs, req) \
(*(isp)->isp_mdvec->dv_dmaset)((isp), (xs), (req))
#define ISP_DMAFREE(isp, xs, hndl) \
if ((isp)->isp_mdvec->dv_dmaclr) \
(*(isp)->isp_mdvec->dv_dmaclr)((isp), (xs), (hndl))
#define ISP_RESET0(isp) \
if ((isp)->isp_mdvec->dv_reset0) (*(isp)->isp_mdvec->dv_reset0)((isp))
#define ISP_RESET1(isp) \
if ((isp)->isp_mdvec->dv_reset1) (*(isp)->isp_mdvec->dv_reset1)((isp))
#define ISP_DUMPREGS(isp, m) \
if ((isp)->isp_mdvec->dv_dregs) (*(isp)->isp_mdvec->dv_dregs)((isp),(m))
#define ISP_SETBITS(isp, reg, val) \
(*(isp)->isp_mdvec->dv_wr_reg)((isp), (reg), ISP_READ((isp), (reg)) | (val))
#define ISP_CLRBITS(isp, reg, val) \
(*(isp)->isp_mdvec->dv_wr_reg)((isp), (reg), ISP_READ((isp), (reg)) & ~(val))
/*
* The MEMORYBARRIER macro is defined per platform (to provide synchronization
* on Request and Response Queues, Scratch DMA areas, and Registers)
*
* Defined Memory Barrier Synchronization Types
*/
#define SYNC_REQUEST 0 /* request queue synchronization */
#define SYNC_RESULT 1 /* result queue synchronization */
#define SYNC_SFORDEV 2 /* scratch, sync for ISP */
#define SYNC_SFORCPU 3 /* scratch, sync for CPU */
#define SYNC_REG 4 /* for registers */
#define SYNC_ATIOQ 5 /* atio result queue (24xx) */
/*
* Request/Response Queue defines and macros.
* The maximum is defined per platform (and can be based on board type).
*/
/* This is the size of a queue entry (request and response) */
#define QENTRY_LEN 64
/* Both request and result queue length must be a power of two */
#define RQUEST_QUEUE_LEN(x) MAXISPREQUEST(x)
#ifdef ISP_TARGET_MODE
#define RESULT_QUEUE_LEN(x) MAXISPREQUEST(x)
#else
#define RESULT_QUEUE_LEN(x) \
(((MAXISPREQUEST(x) >> 2) < 64)? 64 : MAXISPREQUEST(x) >> 2)
#endif
#define ISP_QUEUE_ENTRY(q, idx) (((uint8_t *)q) + ((idx) * QENTRY_LEN))
#define ISP_QUEUE_SIZE(n) ((n) * QENTRY_LEN)
#define ISP_NXT_QENTRY(idx, qlen) (((idx) + 1) & ((qlen)-1))
#define ISP_QFREE(in, out, qlen) \
((in == out)? (qlen - 1) : ((in > out)? \
((qlen - 1) - (in - out)) : (out - in - 1)))
#define ISP_QAVAIL(isp) \
ISP_QFREE(isp->isp_reqidx, isp->isp_reqodx, RQUEST_QUEUE_LEN(isp))
#define ISP_ADD_REQUEST(isp, nxti) \
MEMORYBARRIER(isp, SYNC_REQUEST, isp->isp_reqidx, QENTRY_LEN, -1); \
ISP_WRITE(isp, isp->isp_rqstinrp, nxti); \
isp->isp_reqidx = nxti
#define ISP_SYNC_REQUEST(isp) \
MEMORYBARRIER(isp, SYNC_REQUEST, isp->isp_reqidx, QENTRY_LEN, -1); \
isp->isp_reqidx = ISP_NXT_QENTRY(isp->isp_reqidx, RQUEST_QUEUE_LEN(isp)); \
ISP_WRITE(isp, isp->isp_rqstinrp, isp->isp_reqidx)
/*
* SCSI Specific Host Adapter Parameters- per bus, per target
*/
typedef struct {
uint32_t : 8,
update : 1,
sendmarker : 1,
role : 2,
isp_req_ack_active_neg : 1,
isp_data_line_active_neg: 1,
isp_cmd_dma_burst_enable: 1,
isp_data_dma_burst_enabl: 1,
isp_fifo_threshold : 3,
isp_ptisp : 1,
isp_ultramode : 1,
isp_diffmode : 1,
isp_lvdmode : 1,
isp_fast_mttr : 1, /* fast sram */
isp_initiator_id : 4,
isp_async_data_setup : 4;
uint16_t isp_selection_timeout;
uint16_t isp_max_queue_depth;
uint8_t isp_tag_aging;
uint8_t isp_bus_reset_delay;
uint8_t isp_retry_count;
uint8_t isp_retry_delay;
struct {
uint32_t
exc_throttle : 8,
: 1,
dev_enable : 1, /* ignored */
dev_update : 1,
dev_refresh : 1,
actv_offset : 4,
goal_offset : 4,
nvrm_offset : 4;
uint8_t actv_period; /* current sync period */
uint8_t goal_period; /* goal sync period */
uint8_t nvrm_period; /* nvram sync period */
uint16_t actv_flags; /* current device flags */
uint16_t goal_flags; /* goal device flags */
uint16_t nvrm_flags; /* nvram device flags */
} isp_devparam[MAX_TARGETS];
} sdparam;
/*
* Device Flags
*/
#define DPARM_DISC 0x8000
#define DPARM_PARITY 0x4000
#define DPARM_WIDE 0x2000
#define DPARM_SYNC 0x1000
#define DPARM_TQING 0x0800
#define DPARM_ARQ 0x0400
#define DPARM_QFRZ 0x0200
#define DPARM_RENEG 0x0100
#define DPARM_NARROW 0x0080
#define DPARM_ASYNC 0x0040
#define DPARM_PPR 0x0020
#define DPARM_DEFAULT (0xFF00 & ~DPARM_QFRZ)
#define DPARM_SAFE_DFLT (DPARM_DEFAULT & ~(DPARM_WIDE|DPARM_SYNC|DPARM_TQING))
/* technically, not really correct, as they need to be rated based upon clock */
#define ISP_80M_SYNCPARMS 0x0c09
#define ISP_40M_SYNCPARMS 0x0c0a
#define ISP_20M_SYNCPARMS 0x0c0c
#define ISP_20M_SYNCPARMS_1040 0x080c
#define ISP_10M_SYNCPARMS 0x0c19
#define ISP_08M_SYNCPARMS 0x0c25
#define ISP_05M_SYNCPARMS 0x0c32
#define ISP_04M_SYNCPARMS 0x0c41
/*
* Fibre Channel Specifics
*/
/* These are for non-2K Login Firmware cards */
#define FL_ID 0x7e /* FL_Port Special ID */
#define SNS_ID 0x80 /* SNS Server Special ID */
#define NPH_MAX 0xfe
/* Use this handle for the base for multi-id firmware SNS logins */
#define NPH_SNS_HDLBASE 0x400
/* These are for 2K Login Firmware cards */
#define NPH_RESERVED 0x7F0 /* begin of reserved N-port handles */
#define NPH_MGT_ID 0x7FA /* Management Server Special ID */
#define NPH_SNS_ID 0x7FC /* SNS Server Special ID */
#define NPH_FABRIC_CTLR 0x7FD /* Fabric Controller (0xFFFFFD) */
#define NPH_FL_ID 0x7FE /* F Port Special ID (0xFFFFFE) */
#define NPH_IP_BCST 0x7ff /* IP Broadcast Special ID (0xFFFFFF) */
#define NPH_MAX_2K 0x800
/*
* "Unassigned" handle to be used internally
*/
#define NIL_HANDLE 0xffff
/*
* Limit for devices on an arbitrated loop.
*/
#define LOCAL_LOOP_LIM 126
/*
* Limit for (2K login) N-port handle amounts
*/
#define MAX_NPORT_HANDLE 2048
/*
* Special Constants
*/
#define INI_NONE ((uint64_t) 0)
#define ISP_NOCHAN 0xff
/*
* Special Port IDs
*/
#define MANAGEMENT_PORT_ID 0xFFFFFA
#define SNS_PORT_ID 0xFFFFFC
#define FABRIC_PORT_ID 0xFFFFFE
#define PORT_ANY 0xFFFFFF
#define PORT_NONE 0
#define DOMAIN_CONTROLLER_BASE 0xFFFC00
#define DOMAIN_CONTROLLER_END 0xFFFCFF
/*
* Command Handles
*
* Most QLogic initiator or target have 32 bit handles associated with them.
* We want to have a quick way to index back and forth between a local SCSI
* command context and what the firmware is passing back to us. We also
* want to avoid working on stale information. This structure handles both
* at the expense of some local memory.
*
* The handle is architected thusly:
*
* 0 means "free handle"
* bits 0..12 index commands
* bits 13..15 bits index usage
* bits 16..31 contain a rolling sequence
*
*
*/
typedef struct {
void * cmd; /* associated command context */
uint32_t handle; /* handle associated with this command */
} isp_hdl_t;
#define ISP_HANDLE_FREE 0x00000000
#define ISP_HANDLE_CMD_MASK 0x00001fff
#define ISP_HANDLE_USAGE_MASK 0x0000e000
#define ISP_HANDLE_USAGE_SHIFT 13
#define ISP_H2HT(hdl) ((hdl & ISP_HANDLE_USAGE_MASK) >> ISP_HANDLE_USAGE_SHIFT)
# define ISP_HANDLE_NONE 0
# define ISP_HANDLE_INITIATOR 1
# define ISP_HANDLE_TARGET 2
#define ISP_HANDLE_SEQ_MASK 0xffff0000
#define ISP_HANDLE_SEQ_SHIFT 16
#define ISP_H2SEQ(hdl) ((hdl & ISP_HANDLE_SEQ_MASK) >> ISP_HANDLE_SEQ_SHIFT)
#define ISP_VALID_INI_HANDLE(c, hdl) \
(ISP_H2HT(hdl) == ISP_HANDLE_INITIATOR && (hdl & ISP_HANDLE_CMD_MASK) < (c)->isp_maxcmds && \
ISP_H2SEQ(hdl) == ISP_H2SEQ((c)->isp_xflist[hdl & ISP_HANDLE_CMD_MASK].handle))
#ifdef ISP_TARGET_MODE
#define ISP_VALID_TGT_HANDLE(c, hdl) \
(ISP_H2HT(hdl) == ISP_HANDLE_TARGET && (hdl & ISP_HANDLE_CMD_MASK) < (c)->isp_maxcmds && \
ISP_H2SEQ(hdl) == ISP_H2SEQ((c)->isp_tgtlist[hdl & ISP_HANDLE_CMD_MASK].handle))
#define ISP_VALID_HANDLE(c, hdl) \
(ISP_VALID_INI_HANDLE((c), hdl) || ISP_VALID_TGT_HANDLE((c), hdl))
#else
#define ISP_VALID_HANDLE ISP_VALID_INI_HANDLE
#endif
#define ISP_BAD_HANDLE_INDEX 0xffffffff
/*
* FC Port Database entry.
*
* It has a handle that the f/w uses to address commands to a device.
* This handle's value may be assigned by the firmware (e.g., for local loop
* devices) or by the driver (e.g., for fabric devices).
*
* It has a state. If the state if VALID, that means that we've logged into
* the device. We also *may* have a initiator map index entry. This is a value
* from 0..MAX_FC_TARG that is used to index into the isp_dev_map array. If
* the value therein is non-zero, then that value minus one is used to index
* into the Port Database to find the handle for forming commands. There is
* back-index minus one value within to Port Database entry that tells us
* which entry in isp_dev_map points to us (to avoid searching).
*
* Local loop devices the firmware automatically performs PLOGI on for us
* (which is why that handle is imposed upon us). Fabric devices we assign
* a handle to and perform the PLOGI on.
*
* When a PORT DATABASE CHANGED asynchronous event occurs, we mark all VALID
* entries as PROBATIONAL. This allows us, if policy says to, just keep track
* of devices whose handles change but are otherwise the same device (and
* thus keep 'target' constant).
*
* In any case, we search all possible local loop handles. For each one that
* has a port database entity returned, we search for any PROBATIONAL entry
* that matches it and update as appropriate. Otherwise, as a new entry, we
* find room for it in the Port Database. We *try* and use the handle as the
* index to put it into the Database, but that's just an optimization. We mark
* the entry VALID and make sure that the target index is updated and correct.
*
* When we get done searching the local loop, we then search similarily for
* a list of devices we've gotten from the fabric name controller (if we're
* on a fabric). VALID marking is also done similarily.
*
* When all of this is done, we can march through the database and clean up
* any entry that is still PROBATIONAL (these represent devices which have
* departed). Then we're done and can resume normal operations.
*
* Negative invariants that we try and test for are:
*
* + There can never be two non-NIL entries with the same { Port, Node } WWN
* duples.
*
* + There can never be two non-NIL entries with the same handle.
*
* + There can never be two non-NIL entries which have the same dev_map_idx
* value.
*/
typedef struct {
/*
* This is the handle that the firmware needs in order for us to
* send commands to the device. For pre-24XX cards, this would be
* the 'loopid'.
*/
uint16_t handle;
/*
* The dev_map_idx, if nonzero, is the system virtual target ID (+1)
* as a cross-reference with the isp_dev_map.
*
* A device is 'autologin' if the firmware automatically logs into
* it (re-logins as needed). Basically, local private loop devices.
*
* The state is the current state of this entry.
*
* Role is Initiator, Target, Both
*
* Portid is obvious, as are node && port WWNs. The new_role and
* new_portid is for when we are pending a change.
*
* The 'target_mode' tag means that this entry arrived via a
* target mode command and is immune from normal flushing rules.
* You should also never see anything with an initiator role
* with this set.
*/
uint16_t dev_map_idx : 12,
autologin : 1, /* F/W does PLOGI/PLOGO */
state : 3;
uint32_t reserved : 5,
target_mode : 1,
roles : 2,
portid : 24;
uint32_t
dirty : 1, /* commands have been run */
new_reserved : 5,
new_roles : 2,
new_portid : 24;
uint64_t node_wwn;
uint64_t port_wwn;
uint32_t gone_timer;
} fcportdb_t;
#define FC_PORTDB_STATE_NIL 0
#define FC_PORTDB_STATE_PROBATIONAL 1
#define FC_PORTDB_STATE_DEAD 2
#define FC_PORTDB_STATE_CHANGED 3
#define FC_PORTDB_STATE_NEW 4
#define FC_PORTDB_STATE_PENDING_VALID 5
#define FC_PORTDB_STATE_ZOMBIE 6
#define FC_PORTDB_STATE_VALID 7
/*
* FC card specific information
*
* This structure is replicated across multiple channels for multi-id
* capapble chipsets, with some entities different on a per-channel basis.
*/
typedef struct {
uint32_t
link_active : 1,
npiv_fabric : 1,
inorder : 1,
sendmarker : 1,
role : 2,
isp_gbspeed : 4,
isp_loopstate : 4, /* Current Loop State */
isp_fwstate : 4, /* ISP F/W state */
isp_topo : 3, /* Connection Type */
loop_seen_once : 1;
uint32_t : 8,
isp_portid : 24; /* S_ID */
uint16_t isp_fwoptions;
uint16_t isp_xfwoptions;
uint16_t isp_zfwoptions;
uint16_t isp_loopid; /* hard loop id */
uint16_t isp_sns_hdl; /* N-port handle for SNS */
uint16_t isp_lasthdl; /* only valid for channel 0 */
uint16_t isp_maxalloc;
uint8_t isp_retry_delay;
uint8_t isp_retry_count;
/*
* Current active WWNN/WWPN
*/
uint64_t isp_wwnn;
uint64_t isp_wwpn;
/*
* NVRAM WWNN/WWPN
*/
uint64_t isp_wwnn_nvram;
uint64_t isp_wwpn_nvram;
/*
* Our Port Data Base
*/
fcportdb_t portdb[MAX_FC_TARG];
/*
* This maps system virtual 'target' id to a portdb entry.
*
* The mapping function is to take any non-zero entry and
* subtract one to get the portdb index. This means that
* entries which are zero are unmapped (i.e., don't exist).
*/
uint16_t isp_dev_map[MAX_FC_TARG];
#ifdef ISP_TARGET_MODE
/*
* This maps N-Port Handle to portdb entry so we
* don't have to search for every incoming command.
*
* The mapping function is to take any non-zero entry and
* subtract one to get the portdb index. This means that
* entries which are zero are unmapped (i.e., don't exist).
*/
uint16_t isp_tgt_map[MAX_NPORT_HANDLE];
#endif
/*
* Scratch DMA mapped in area to fetch Port Database stuff, etc.
*/
void * isp_scratch;
XS_DMA_ADDR_T isp_scdma;
} fcparam;
#define FW_CONFIG_WAIT 0
#define FW_WAIT_AL_PA 1
#define FW_WAIT_LOGIN 2
#define FW_READY 3
#define FW_LOSS_OF_SYNC 4
#define FW_ERROR 5
#define FW_REINIT 6
#define FW_NON_PART 7
#define LOOP_NIL 0
#define LOOP_LIP_RCVD 1
#define LOOP_PDB_RCVD 2
#define LOOP_SCANNING_LOOP 3
#define LOOP_LSCAN_DONE 4
#define LOOP_SCANNING_FABRIC 5
#define LOOP_FSCAN_DONE 6
#define LOOP_SYNCING_PDB 7
#define LOOP_READY 8
#define TOPO_NL_PORT 0
#define TOPO_FL_PORT 1
#define TOPO_N_PORT 2
#define TOPO_F_PORT 3
#define TOPO_PTP_STUB 4
/*
* Soft Structure per host adapter
*/
struct ispsoftc {
/*
* Platform (OS) specific data
*/
struct isposinfo isp_osinfo;
/*
* Pointer to bus specific functions and data
*/
struct ispmdvec * isp_mdvec;
/*
* (Mostly) nonvolatile state. Board specific parameters
* may contain some volatile state (e.g., current loop state).
*/
void * isp_param; /* type specific */
uint16_t isp_fwrev[3]; /* Loaded F/W revision */
uint16_t isp_maxcmds; /* max possible I/O cmds */
uint8_t isp_type; /* HBA Chip Type */
uint8_t isp_revision; /* HBA Chip H/W Revision */
uint32_t isp_maxluns; /* maximum luns supported */
uint32_t isp_clock : 8, /* input clock */
: 4,
isp_port : 1, /* 23XX/24XX only */
isp_open : 1, /* opened (ioctl) */
isp_bustype : 1, /* SBus or PCI */
isp_loaded_fw : 1, /* loaded firmware */
isp_dblev : 16; /* debug log mask */
uint16_t isp_fwattr; /* firmware attributes */
uint16_t isp_nchan; /* number of channels */
uint32_t isp_confopts; /* config options */
uint32_t isp_rqstinrp; /* register for REQINP */
uint32_t isp_rqstoutrp; /* register for REQOUTP */
uint32_t isp_respinrp; /* register for RESINP */
uint32_t isp_respoutrp; /* register for RESOUTP */
/*
* Instrumentation
*/
uint64_t isp_intcnt; /* total int count */
uint64_t isp_intbogus; /* spurious int count */
uint64_t isp_intmboxc; /* mbox completions */
uint64_t isp_intoasync; /* other async */
uint64_t isp_rsltccmplt; /* CMDs on result q */
uint64_t isp_fphccmplt; /* CMDs via fastpost */
uint16_t isp_rscchiwater;
uint16_t isp_fpcchiwater;
NANOTIME_T isp_init_time; /* time were last initialized */
/*
* Volatile state
*/
volatile uint32_t : 8,
: 2,
isp_dead : 1,
: 1,
isp_mboxbsy : 1, /* mailbox command active */
isp_state : 3,
isp_nactive : 16; /* how many commands active */
volatile mbreg_t isp_curmbx; /* currently active mailbox command */
volatile uint32_t isp_reqodx; /* index of last ISP pickup */
volatile uint32_t isp_reqidx; /* index of next request */
volatile uint32_t isp_residx; /* index of next result */
volatile uint32_t isp_resodx; /* index of next result */
volatile uint32_t isp_obits; /* mailbox command output */
volatile uint32_t isp_serno; /* rolling serial number */
volatile uint16_t isp_mboxtmp[MAILBOX_STORAGE];
volatile uint16_t isp_lastmbxcmd; /* last mbox command sent */
volatile uint16_t isp_mbxwrk0;
volatile uint16_t isp_mbxwrk1;
volatile uint16_t isp_mbxwrk2;
volatile uint16_t isp_mbxwrk8;
volatile uint16_t isp_seqno; /* running sequence number */
void * isp_mbxworkp;
/*
* Active commands are stored here, indexed by handle functions.
*/
isp_hdl_t *isp_xflist;
isp_hdl_t *isp_xffree;
#ifdef ISP_TARGET_MODE
/*
* Active target commands are stored here, indexed by handle functions.
*/
isp_hdl_t *isp_tgtlist;
isp_hdl_t *isp_tgtfree;
#endif
/*
* request/result queue pointers and DMA handles for them.
*/
void * isp_rquest;
void * isp_result;
XS_DMA_ADDR_T isp_rquest_dma;
XS_DMA_ADDR_T isp_result_dma;
#ifdef ISP_TARGET_MODE
/* for 24XX only */
void * isp_atioq;
XS_DMA_ADDR_T isp_atioq_dma;
#endif
};
#define SDPARAM(isp, chan) (&((sdparam *)(isp)->isp_param)[(chan)])
#define FCPARAM(isp, chan) (&((fcparam *)(isp)->isp_param)[(chan)])
#define ISP_SET_SENDMARKER(isp, chan, val) \
if (IS_FC(isp)) { \
FCPARAM(isp, chan)->sendmarker = val; \
} else { \
SDPARAM(isp, chan)->sendmarker = val; \
}
#define ISP_TST_SENDMARKER(isp, chan) \
(IS_FC(isp)? \
FCPARAM(isp, chan)->sendmarker != 0 : \
SDPARAM(isp, chan)->sendmarker != 0)
/*
* ISP Driver Run States
*/
#define ISP_NILSTATE 0
#define ISP_CRASHED 1
#define ISP_RESETSTATE 2
#define ISP_INITSTATE 3
#define ISP_RUNSTATE 4
/*
* ISP Configuration Options
*/
#define ISP_CFG_NORELOAD 0x80 /* don't download f/w */
#define ISP_CFG_NONVRAM 0x40 /* ignore NVRAM */
#define ISP_CFG_TWOGB 0x20 /* force 2GB connection (23XX only) */
#define ISP_CFG_ONEGB 0x10 /* force 1GB connection (23XX only) */
#define ISP_CFG_FULL_DUPLEX 0x01 /* Full Duplex (Fibre Channel only) */
#define ISP_CFG_PORT_PREF 0x0C /* Mask for Port Prefs (2200 only) */
#define ISP_CFG_LPORT 0x00 /* prefer {N/F}L-Port connection */
#define ISP_CFG_NPORT 0x04 /* prefer {N/F}-Port connection */
#define ISP_CFG_NPORT_ONLY 0x08 /* insist on {N/F}-Port connection */
#define ISP_CFG_LPORT_ONLY 0x0C /* insist on {N/F}L-Port connection */
#define ISP_CFG_OWNFSZ 0x400 /* override NVRAM frame size */
#define ISP_CFG_OWNLOOPID 0x800 /* override NVRAM loopid */
#define ISP_CFG_OWNEXCTHROTTLE 0x1000 /* override NVRAM execution throttle */
#define ISP_CFG_FOURGB 0x2000 /* force 4GB connection (24XX only) */
/*
* For each channel, the outer layers should know what role that channel
* will take: ISP_ROLE_NONE, ISP_ROLE_INITIATOR, ISP_ROLE_TARGET,
* ISP_ROLE_BOTH.
*
* If you set ISP_ROLE_NONE, the cards will be reset, new firmware loaded,
* NVRAM read, and defaults set, but any further initialization (e.g.
* INITIALIZE CONTROL BLOCK commands for 2X00 cards) won't be done.
*
* If INITIATOR MODE isn't set, attempts to run commands will be stopped
* at isp_start and completed with the equivalent of SELECTION TIMEOUT.
*
* If TARGET MODE is set, it doesn't mean that the rest of target mode support
* needs to be enabled, or will even work. What happens with the 2X00 cards
* here is that if you have enabled it with TARGET MODE as part of the ICB
* options, but you haven't given the f/w any ram resources for ATIOs or
* Immediate Notifies, the f/w just handles what it can and you never see
* anything. Basically, it sends a single byte of data (the first byte,
* which you can set as part of the INITIALIZE CONTROL BLOCK command) for
* INQUIRY, and sends back QUEUE FULL status for any other command.
*
*/
#define ISP_ROLE_NONE 0x0
#define ISP_ROLE_TARGET 0x1
#define ISP_ROLE_INITIATOR 0x2
#define ISP_ROLE_BOTH (ISP_ROLE_TARGET|ISP_ROLE_INITIATOR)
#define ISP_ROLE_EITHER ISP_ROLE_BOTH
#ifndef ISP_DEFAULT_ROLES
#define ISP_DEFAULT_ROLES ISP_ROLE_INITIATOR
#endif
/*
* Firmware related defines
*/
#define ISP_CODE_ORG 0x1000 /* default f/w code start */
#define ISP_CODE_ORG_2300 0x0800 /* ..except for 2300s */
#define ISP_CODE_ORG_2400 0x100000 /* ..and 2400s */
#define ISP_FW_REV(maj, min, mic) ((maj << 24) | (min << 16) | mic)
#define ISP_FW_MAJOR(code) ((code >> 24) & 0xff)
#define ISP_FW_MINOR(code) ((code >> 16) & 0xff)
#define ISP_FW_MICRO(code) ((code >> 8) & 0xff)
#define ISP_FW_REVX(xp) ((xp[0]<<24) | (xp[1] << 16) | xp[2])
#define ISP_FW_MAJORX(xp) (xp[0])
#define ISP_FW_MINORX(xp) (xp[1])
#define ISP_FW_MICROX(xp) (xp[2])
#define ISP_FW_NEWER_THAN(i, major, minor, micro) \
(ISP_FW_REVX((i)->isp_fwrev) > ISP_FW_REV(major, minor, micro))
#define ISP_FW_OLDER_THAN(i, major, minor, micro) \
(ISP_FW_REVX((i)->isp_fwrev) < ISP_FW_REV(major, minor, micro))
/*
* Bus (implementation) types
*/
#define ISP_BT_PCI 0 /* PCI Implementations */
#define ISP_BT_SBUS 1 /* SBus Implementations */
/*
* If we have not otherwise defined SBus support away make sure
* it is defined here such that the code is included as default
*/
#ifndef ISP_SBUS_SUPPORTED
#define ISP_SBUS_SUPPORTED 1
#endif
/*
* Chip Types
*/
#define ISP_HA_SCSI 0xf
#define ISP_HA_SCSI_UNKNOWN 0x1
#define ISP_HA_SCSI_1020 0x2
#define ISP_HA_SCSI_1020A 0x3
#define ISP_HA_SCSI_1040 0x4
#define ISP_HA_SCSI_1040A 0x5
#define ISP_HA_SCSI_1040B 0x6
#define ISP_HA_SCSI_1040C 0x7
#define ISP_HA_SCSI_1240 0x8
#define ISP_HA_SCSI_1080 0x9
#define ISP_HA_SCSI_1280 0xa
#define ISP_HA_SCSI_10160 0xb
#define ISP_HA_SCSI_12160 0xc
#define ISP_HA_FC 0xf0
#define ISP_HA_FC_2100 0x10
#define ISP_HA_FC_2200 0x20
#define ISP_HA_FC_2300 0x30
#define ISP_HA_FC_2312 0x40
#define ISP_HA_FC_2322 0x50
#define ISP_HA_FC_2400 0x60
#define ISP_HA_FC_2500 0x70
#define IS_SCSI(isp) (isp->isp_type & ISP_HA_SCSI)
#define IS_1020(isp) (isp->isp_type < ISP_HA_SCSI_1240)
#define IS_1240(isp) (isp->isp_type == ISP_HA_SCSI_1240)
#define IS_1080(isp) (isp->isp_type == ISP_HA_SCSI_1080)
#define IS_1280(isp) (isp->isp_type == ISP_HA_SCSI_1280)
#define IS_10160(isp) (isp->isp_type == ISP_HA_SCSI_10160)
#define IS_12160(isp) (isp->isp_type == ISP_HA_SCSI_12160)
#define IS_12X0(isp) (IS_1240(isp) || IS_1280(isp))
#define IS_1X160(isp) (IS_10160(isp) || IS_12160(isp))
#define IS_DUALBUS(isp) (IS_12X0(isp) || IS_12160(isp))
#define IS_ULTRA2(isp) (IS_1080(isp) || IS_1280(isp) || IS_1X160(isp))
#define IS_ULTRA3(isp) (IS_1X160(isp))
#define IS_FC(isp) ((isp)->isp_type & ISP_HA_FC)
#define IS_2100(isp) ((isp)->isp_type == ISP_HA_FC_2100)
#define IS_2200(isp) ((isp)->isp_type == ISP_HA_FC_2200)
#define IS_23XX(isp) ((isp)->isp_type >= ISP_HA_FC_2300 && \
(isp)->isp_type < ISP_HA_FC_2400)
#define IS_2300(isp) ((isp)->isp_type == ISP_HA_FC_2300)
#define IS_2312(isp) ((isp)->isp_type == ISP_HA_FC_2312)
#define IS_2322(isp) ((isp)->isp_type == ISP_HA_FC_2322)
#define IS_24XX(isp) ((isp)->isp_type >= ISP_HA_FC_2400)
#define IS_25XX(isp) ((isp)->isp_type >= ISP_HA_FC_2500)
/*
* DMA related macros
*/
#define DMA_WD3(x) (((uint16_t)(((uint64_t)x) >> 48)) & 0xffff)
#define DMA_WD2(x) (((uint16_t)(((uint64_t)x) >> 32)) & 0xffff)
#define DMA_WD1(x) ((uint16_t)((x) >> 16) & 0xffff)
#define DMA_WD0(x) ((uint16_t)((x) & 0xffff))
#define DMA_LO32(x) ((uint32_t) (x))
#define DMA_HI32(x) ((uint32_t)(((uint64_t)x) >> 32))
/*
* Core System Function Prototypes
*/
/*
* Reset Hardware. Totally. Assumes that you'll follow this with a call to isp_init.
*/
void isp_reset(ispsoftc_t *, int);
/*
* Initialize Hardware to known state
*/
void isp_init(ispsoftc_t *);
/*
* Reset the ISP and call completion for any orphaned commands.
*/
void isp_reinit(ispsoftc_t *, int);
/*
* Internal Interrupt Service Routine
*
* The outer layers do the spade work to get the appropriate status register,
* semaphore register and first mailbox register (if appropriate). This also
* means that most spurious/bogus interrupts not for us can be filtered first.
*/
void isp_intr(ispsoftc_t *, uint32_t, uint16_t, uint16_t);
/*
* Command Entry Point- Platform Dependent layers call into this
*/
int isp_start(XS_T *);
/* these values are what isp_start returns */
#define CMD_COMPLETE 101 /* command completed */
#define CMD_EAGAIN 102 /* busy- maybe retry later */
#define CMD_QUEUED 103 /* command has been queued for execution */
#define CMD_RQLATER 104 /* requeue this command later */
/*
* Command Completion Point- Core layers call out from this with completed cmds
*/
void isp_done(XS_T *);
/*
* Platform Dependent to External to Internal Control Function
*
* Assumes locks are held on entry. You should note that with many of
* these commands locks may be released while this function is called.
*
* ... ISPCTL_RESET_BUS, int channel);
* Reset BUS on this channel
* ... ISPCTL_RESET_DEV, int channel, int target);
* Reset Device on this channel at this target.
* ... ISPCTL_ABORT_CMD, XS_T *xs);
* Abort active transaction described by xs.
* ... IPCTL_UPDATE_PARAMS);
* Update any operating parameters (speed, etc.)
* ... ISPCTL_FCLINK_TEST, int channel);
* Test FC link status on this channel
* ... ISPCTL_SCAN_FABRIC, int channel);
* Scan fabric on this channel
* ... ISPCTL_SCAN_LOOP, int channel);
* Scan local loop on this channel
* ... ISPCTL_PDB_SYNC, int channel);
* Synchronize port database on this channel
* ... ISPCTL_SEND_LIP, int channel);
* Send a LIP on this channel
* ... ISPCTL_GET_NAMES, int channel, int np, uint64_t *wwnn, uint64_t *wwpn)
* Get a WWNN/WWPN for this N-port handle on this channel
* ... ISPCTL_RUN_MBOXCMD, mbreg_t *mbp)
* Run this mailbox command
* ... ISPCTL_GET_PDB, int channel, int nphandle, isp_pdb_t *pdb)
* Get PDB on this channel for this N-port handle
* ... ISPCTL_PLOGX, isp_plcmd_t *)
* Performa a port login/logout
*
* ISPCTL_PDB_SYNC is somewhat misnamed. It actually is the final step, in
* order, of ISPCTL_FCLINK_TEST, ISPCTL_SCAN_FABRIC, and ISPCTL_SCAN_LOOP.
* The main purpose of ISPCTL_PDB_SYNC is to complete management of logging
* and logging out of fabric devices (if one is on a fabric) and then marking
* the 'loop state' as being ready to now be used for sending commands to
* devices. Originally fabric name server and local loop scanning were
* part of this function. It's now been separated to allow for finer control.
*/
typedef enum {
ISPCTL_RESET_BUS,
ISPCTL_RESET_DEV,
ISPCTL_ABORT_CMD,
ISPCTL_UPDATE_PARAMS,
ISPCTL_FCLINK_TEST,
ISPCTL_SCAN_FABRIC,
ISPCTL_SCAN_LOOP,
ISPCTL_PDB_SYNC,
ISPCTL_SEND_LIP,
ISPCTL_GET_NAMES,
ISPCTL_RUN_MBOXCMD,
ISPCTL_GET_PDB,
ISPCTL_PLOGX
} ispctl_t;
int isp_control(ispsoftc_t *, ispctl_t, ...);
/*
* Platform Dependent to Internal to External Control Function
*/
typedef enum {
ISPASYNC_NEW_TGT_PARAMS, /* SPI New Target Parameters */
ISPASYNC_BUS_RESET, /* All Bus Was Reset */
ISPASYNC_LOOP_DOWN, /* FC Loop Down */
ISPASYNC_LOOP_UP, /* FC Loop Up */
ISPASYNC_LIP, /* FC LIP Received */
ISPASYNC_LOOP_RESET, /* FC Loop Reset Received */
ISPASYNC_CHANGE_NOTIFY, /* FC Change Notification */
ISPASYNC_DEV_ARRIVED, /* FC Device Arrived */
ISPASYNC_DEV_CHANGED, /* FC Device Changed */
ISPASYNC_DEV_STAYED, /* FC Device Stayed */
ISPASYNC_DEV_GONE, /* FC Device Departure */
ISPASYNC_TARGET_NOTIFY, /* All target async notification */
ISPASYNC_TARGET_ACTION, /* All target action requested */
ISPASYNC_FW_CRASH, /* All Firmware has crashed */
ISPASYNC_FW_RESTARTED /* All Firmware has been restarted */
} ispasync_t;
void isp_async(ispsoftc_t *, ispasync_t, ...);
#define ISPASYNC_CHANGE_PDB 0
#define ISPASYNC_CHANGE_SNS 1
#define ISPASYNC_CHANGE_OTHER 2
/*
* Platform Dependent Error and Debug Printout
*
* Two required functions for each platform must be provided:
*
* void isp_prt(ispsoftc_t *, int level, const char *, ...)
* void isp_xs_prt(ispsoftc_t *, XS_T *, int level, const char *, ...)
*
* but due to compiler differences on different platforms this won't be
* formally defined here. Instead, they go in each platform definition file.
*/
#define ISP_LOGALL 0x0 /* log always */
#define ISP_LOGCONFIG 0x1 /* log configuration messages */
#define ISP_LOGINFO 0x2 /* log informational messages */
#define ISP_LOGWARN 0x4 /* log warning messages */
#define ISP_LOGERR 0x8 /* log error messages */
#define ISP_LOGDEBUG0 0x10 /* log simple debug messages */
#define ISP_LOGDEBUG1 0x20 /* log intermediate debug messages */
#define ISP_LOGDEBUG2 0x40 /* log most debug messages */
#define ISP_LOGDEBUG3 0x80 /* log high frequency debug messages */
#define ISP_LOGSANCFG 0x100 /* log SAN configuration */
#define ISP_LOG_CWARN 0x200 /* log SCSI command "warnings" (e.g., check conditions) */
#define ISP_LOGTINFO 0x1000 /* log informational messages (target mode) */
#define ISP_LOGTDEBUG0 0x2000 /* log simple debug messages (target mode) */
#define ISP_LOGTDEBUG1 0x4000 /* log intermediate debug messages (target) */
#define ISP_LOGTDEBUG2 0x8000 /* log all debug messages (target) */
/*
* Each Platform provides its own isposinfo substructure of the ispsoftc
* defined above.
*
* Each platform must also provide the following macros/defines:
*
*
* ISP_FC_SCRLEN FC scratch area DMA length
*
* ISP_MEMZERO(dst, src) platform zeroing function
* ISP_MEMCPY(dst, src, count) platform copying function
* ISP_SNPRINTF(buf, bufsize, fmt, ...) snprintf
* ISP_DELAY(usecs) microsecond spindelay function
* ISP_SLEEP(isp, usecs) microsecond sleep function
*
* ISP_INLINE ___inline or not- depending on how
* good your debugger is
* ISP_MIN shorthand for ((a) < (b))? (a) : (b)
*
* NANOTIME_T nanosecond time type
*
* GET_NANOTIME(NANOTIME_T *) get current nanotime.
*
* GET_NANOSEC(NANOTIME_T *) get uint64_t from NANOTIME_T
*
* NANOTIME_SUB(NANOTIME_T *, NANOTIME_T *)
* subtract two NANOTIME_T values
*
* MAXISPREQUEST(ispsoftc_t *) maximum request queue size
* for this particular board type
*
* MEMORYBARRIER(ispsoftc_t *, barrier_type, offset, size, chan)
*
* Function/Macro the provides memory synchronization on
* various objects so that the ISP's and the system's view
* of the same object is consistent.
*
* MBOX_ACQUIRE(ispsoftc_t *) acquire lock on mailbox regs
* MBOX_WAIT_COMPLETE(ispsoftc_t *, mbreg_t *) wait for cmd to be done
* MBOX_NOTIFY_COMPLETE(ispsoftc_t *) notification of mbox cmd donee
* MBOX_RELEASE(ispsoftc_t *) release lock on mailbox regs
*
* FC_SCRATCH_ACQUIRE(ispsoftc_t *, chan) acquire lock on FC scratch area
* return -1 if you cannot
* FC_SCRATCH_RELEASE(ispsoftc_t *, chan) acquire lock on FC scratch area
*
* SCSI_GOOD SCSI 'Good' Status
* SCSI_CHECK SCSI 'Check Condition' Status
* SCSI_BUSY SCSI 'Busy' Status
* SCSI_QFULL SCSI 'Queue Full' Status
*
* XS_T Platform SCSI transaction type (i.e., command for HBA)
* XS_DMA_ADDR_T Platform PCI DMA Address Type
* XS_GET_DMA_SEG(..) Get 32 bit dma segment list value
* XS_GET_DMA64_SEG(..) Get 64 bit dma segment list value
* XS_ISP(xs) gets an instance out of an XS_T
* XS_CHANNEL(xs) gets the channel (bus # for DUALBUS cards) ""
* XS_TGT(xs) gets the target ""
* XS_LUN(xs) gets the lun ""
* XS_CDBP(xs) gets a pointer to the scsi CDB ""
* XS_CDBLEN(xs) gets the CDB's length ""
* XS_XFRLEN(xs) gets the associated data transfer length ""
* XS_TIME(xs) gets the time (in milliseconds) for this command
* XS_GET_RESID(xs) gets the current residual count
* XS_GET_RESID(xs, resid) sets the current residual count
* XS_STSP(xs) gets a pointer to the SCSI status byte ""
* XS_SNSP(xs) gets a pointer to the associate sense data
* XS_SNSLEN(xs) gets the length of sense data storage
* XS_SNSKEY(xs) dereferences XS_SNSP to get the current stored Sense Key
* XS_SNSASC(xs) dereferences XS_SNSP to get the current stored Additional Sense Code
* XS_SNSASCQ(xs) dereferences XS_SNSP to get the current stored Additional Sense Code Qualifier
* XS_TAG_P(xs) predicate of whether this command should be tagged
* XS_TAG_TYPE(xs) which type of tag to use
* XS_SETERR(xs) set error state
*
* HBA_NOERROR command has no erros
* HBA_BOTCH hba botched something
* HBA_CMDTIMEOUT command timed out
* HBA_SELTIMEOUT selection timed out (also port logouts for FC)
* HBA_TGTBSY target returned a BUSY status
* HBA_BUSRESET bus reset destroyed command
* HBA_ABORTED command was aborted (by request)
* HBA_DATAOVR a data overrun was detected
* HBA_ARQFAIL Automatic Request Sense failed
*
* XS_ERR(xs) return current error state
* XS_NOERR(xs) there is no error currently set
* XS_INITERR(xs) initialize error state
*
* XS_SAVE_SENSE(xs, sp, len) save sense data
*
* XS_SENSE_VALID(xs) indicates whether sense is valid
*
* DEFAULT_FRAMESIZE(ispsoftc_t *) Default Frame Size
* DEFAULT_EXEC_THROTTLE(ispsoftc_t *) Default Execution Throttle
*
* GET_DEFAULT_ROLE(ispsoftc_t *, int) Get Default Role for a channel
* SET_DEFAULT_ROLE(ispsoftc_t *, int, int) Set Default Role for a channel
* DEFAULT_IID(ispsoftc_t *, int) Default SCSI initiator ID
* DEFAULT_LOOPID(ispsoftc_t *, int) Default FC Loop ID
*
* These establish reasonable defaults for each platform.
* These must be available independent of card NVRAM and are
* to be used should NVRAM not be readable.
*
* DEFAULT_NODEWWN(ispsoftc_t *, chan) Default FC Node WWN to use
* DEFAULT_PORTWWN(ispsoftc_t *, chan) Default FC Port WWN to use
*
* These defines are hooks to allow the setting of node and
* port WWNs when NVRAM cannot be read or is to be overriden.
*
* ACTIVE_NODEWWN(ispsoftc_t *, chan) FC Node WWN to use
* ACTIVE_PORTWWN(ispsoftc_t *, chan) FC Port WWN to use
*
* After NVRAM is read, these will be invoked to get the
* node and port WWNs that will actually be used for this
* channel.
*
*
* ISP_IOXPUT_8(ispsoftc_t *, uint8_t srcval, uint8_t *dstptr)
* ISP_IOXPUT_16(ispsoftc_t *, uint16_t srcval, uint16_t *dstptr)
* ISP_IOXPUT_32(ispsoftc_t *, uint32_t srcval, uint32_t *dstptr)
*
* ISP_IOXGET_8(ispsoftc_t *, uint8_t *srcptr, uint8_t dstrval)
* ISP_IOXGET_16(ispsoftc_t *, uint16_t *srcptr, uint16_t dstrval)
* ISP_IOXGET_32(ispsoftc_t *, uint32_t *srcptr, uint32_t dstrval)
*
* ISP_SWIZZLE_NVRAM_WORD(ispsoftc_t *, uint16_t *)
* ISP_SWIZZLE_NVRAM_LONG(ispsoftc_t *, uint32_t *)
* ISP_SWAP16(ispsoftc_t *, uint16_t srcval)
* ISP_SWAP32(ispsoftc_t *, uint32_t srcval)
*/
#ifdef ISP_TARGET_MODE
/*
* The functions below are for the publicly available
* target mode functions that are internal to the Qlogic driver.
*/
/*
* This function handles new response queue entry appropriate for target mode.
*/
int isp_target_notify(ispsoftc_t *, void *, uint32_t *);
/*
* This function externalizes the ability to acknowledge an Immediate Notify request.
*/
int isp_notify_ack(ispsoftc_t *, void *);
/*
* This function externalized acknowledging (success/fail) an ABTS frame
*/
int isp_acknak_abts(ispsoftc_t *, void *, int);
/*
* Enable/Disable/Modify a logical unit.
* (softc, cmd, bus, tgt, lun, cmd_cnt, inotify_cnt)
*/
#define DFLT_CMND_CNT 0xfe /* unmonitored */
#define DFLT_INOT_CNT 0xfe /* unmonitored */
int isp_lun_cmd(ispsoftc_t *, int, int, int, int, int);
/*
* General request queue 'put' routine for target mode entries.
*/
int isp_target_put_entry(ispsoftc_t *isp, void *);
/*
* General routine to put back an ATIO entry-
* used for replenishing f/w resource counts.
* The argument is a pointer to a source ATIO
* or ATIO2.
*/
int isp_target_put_atio(ispsoftc_t *, void *);
/*
* General routine to send a final CTIO for a command- used mostly for
* local responses.
*/
int isp_endcmd(ispsoftc_t *, ...);
#define ECMD_SVALID 0x100
#define ECMD_TERMINATE 0x200
/*
* Handle an asynchronous event
*
* Return nonzero if the interrupt that generated this event has been dismissed.
*/
int isp_target_async(ispsoftc_t *, int, int);
#endif
#endif /* _ISPVAR_H */
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