freebsd-nq/sys/dev/isp/isp_tpublic.h

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/* $FreeBSD$ */
/*
* Qlogic ISP Host Adapter Public Target Interface Structures && Routines
*---------------------------------------
* Copyright (c) 2000 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.
*
* Matthew Jacob
* Feral Software
* mjacob@feral.com
*/
/*
* Required software target mode message and event handling structures.
*
* The message and event structures are used by the MI layer
* to propagate messages and events upstream.
*/
#ifndef IN_MSGLEN
#define IN_MSGLEN 8
#endif
typedef struct {
void * nt_hba; /* HBA tag */
u_int64_t nt_iid; /* inititator id */
u_int64_t nt_tgt; /* target id */
u_int64_t nt_lun; /* logical unit */
u_int32_t nt_tagval; /* tag value */
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u_int8_t nt_bus; /* bus */
u_int8_t nt_tagtype; /* tag type */
u_int8_t nt_msg[IN_MSGLEN]; /* message content */
} tmd_msg_t;
typedef struct {
void * ev_hba; /* HBA tag */
u_int32_t ev_bus; /* bus */
u_int32_t ev_event; /* type of async event */
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} tmd_event_t;
/*
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* Suggested Software Target Mode Command Handling structure.
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*
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* A note about terminology:
*
* MD stands for "Machine Dependent".
*
* This driver is structured in three layers: Outer MD, core, and inner MD.
* The latter also is bus dependent (i.e., is cognizant of PCI bus issues
* as well as platform issues).
*
*
* "Outer Layer" means "Other Module"
*
* Some additional module that actually implements SCSI target command
* policy is the recipient of incoming commands and the source of the
* disposition for them.
*
* The command structure below is one suggested possible MD command structure,
* but since the handling of thbis is entirely in the MD layer, there is
* no explicit or implicit requirement that it be used.
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*
* The cd_private tag should be used by the MD layer to keep a free list
* of these structures. Code outside of this driver can then use this
* to identify it's own unit structures. That is, when not on the MD
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* layer's freelist, the MD layer should shove into it the identifier
* that the outer layer has for it- passed in on an initial QIN_HBA_REG
* call (see below).
*
* The cd_hba tag is a tag that uniquely identifies the HBA this target
* mode command is coming from. The outer layer has to pass this back
* unchanged to avoid chaos.
*
* The cd_iid, cd_tgt, cd_lun and cd_bus tags are used to identify the
* id of the initiator who sent us a command, the target claim to be, the
* lun on the target we claim to be, and the bus instance (for multiple
* bus host adapters) that this applies to (consider it an extra Port
* parameter). The iid, tgt and lun values are deliberately chosen to be
* fat so that, for example, World Wide Names can be used instead of
* the units that the Qlogic firmware uses (in the case where the MD
* layer maintains a port database, for example).
*
* The cd_tagtype field specifies what kind of command tag has been
* sent with the command. The cd_tagval is the tag's value (low 16
* bits). It also contains (in the upper 16 bits) any command handle.
*
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*
* N.B.: when the MD layer sends this command to outside software
* the outside software likely *MUST* return the same cd_tagval that
* was in place because this value is likely what the Qlogic f/w uses
* to identify a command.
*
* The cd_cdb contains storage for the passed in command descriptor block.
* This is the maximum size we can get out of the Qlogic f/w. There's no
* passed in length because whoever decodes the command to act upon it
* will know what the appropriate length is.
*
* The tag cd_lflags are the flags set by the MD driver when it gets
* command incoming or when it needs to inform any outside entities
* that the last requested action failed.
*
* The tag cd_hflags should be set by any outside software to indicate
* the validity of sense and status fields (defined below) and to indicate
* the direction data is expected to move. It is an error to have both
* CDFH_DATA_IN and CDFH_DATA_OUT set.
*
* If the CDFH_STSVALID flag is set, the command should be completed (after
* sending any data and/or status). If CDFH_SNSVALID is set and the MD layer
* can also handle sending the associated sense data (either back with an
* FCP RESPONSE IU for Fibre Channel or otherwise automatically handling a
* REQUEST SENSE from the initator for this target/lun), the MD layer will
* set the CDFL_SENTSENSE flag on successful transmission of the sense data.
* It is an error for the CDFH_SNSVALID bit to be set and CDFH_STSVALID not
* to be set. It is an error for the CDFH_SNSVALID be set and the associated
* SCSI status (cd_scsi_status) not be set to CHECK CONDITON.
*
* The tag cd_data points to a data segment to either be filled or
* read from depending on the direction of data movement. The tag
* is undefined if no data direction is set. The MD layer and outer
* layers must agree on the meaning of cd_data.
*
* The tag cd_totlen is the total data amount expected to be moved
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* over the life of the command. It *may* be set by the MD layer, possibly
* from the datalen field of an FCP CMND IU unit. If it shows up in the outer
* layers set to zero and the CDB indicates data should be moved, the outer
* layer should set it to the amount expected to be moved.
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*
* The tag cd_resid should be the total residual of data not transferred.
* The outer layers need to set this at the begining of command processing
* to equal cd_totlen. As data is successfully moved, this value is decreased.
* At the end of a command, any nonzero residual indicates the number of bytes
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* requested but not moved. XXXXXXXXXXXXXXXXXXXXXXX TOO VAGUE!!!
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*
* The tag cd_xfrlen is the length of the currently active data transfer.
* This allows several interations between any outside software and the
* MD layer to move data.
*
* The reason that total length and total residual have to be tracked
* is that fibre channel FCP DATA IU units have to have a relative
* offset field.
*
* N.B.: there is no necessary 1-to-1 correspondence between any one
* data transfer segment and the number of CTIOs that will be generated
* satisfy the current data transfer segment. It's not also possible to
* predict how big a transfer can be before it will be 'too big'. Be
* reasonable- a 64KB transfer is 'reasonable'. A 1MB transfer may not
* be. A 32MB transfer is unreasonable. The problem here has to do with
* how CTIOs can be used to map passed data pointers. In systems which
* have page based scatter-gather requirements, each PAGESIZEd chunk will
* consume one data segment descriptor- you get 3 or 4 of them per CTIO.
* The size of the REQUEST QUEUE you drop a CTIO onto is finite (typically
* it's 256, but on some systems it's even smaller, and note you have to
* sure this queue with the initiator side of this driver).
*
* The tags cd_sense and cd_scsi_status are pretty obvious.
*
* The tag cd_error is to communicate between the MD layer and outer software
* the current error conditions.
*
* The tag cd_lreserved, cd_hreserved are scratch areas for use for the MD
* and outer layers respectively.
*
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*/
#ifndef TMD_CDBLEN
#define TMD_CDBLEN 16
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#endif
#ifndef TMD_SENSELEN
#define TMD_SENSELEN 24
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#endif
#ifndef QCDS
#define QCDS 8
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#endif
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typedef struct tmd_cmd {
void * cd_private; /* private data pointer */
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void * cd_hba; /* HBA tag */
void * cd_data; /* 'pointer' to data */
u_int64_t cd_iid; /* initiator ID */
u_int64_t cd_tgt; /* target id */
u_int64_t cd_lun; /* logical unit */
u_int32_t cd_tagval; /* tag value */
u_int32_t cd_lflags; /* flags lower level sets */
u_int32_t cd_hflags; /* flags higher level sets */
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u_int32_t cd_totlen; /* total data requirement */
u_int32_t cd_resid; /* total data residual */
u_int32_t cd_xfrlen; /* current data requirement */
int32_t cd_error; /* current error */
u_int32_t
cd_scsi_status : 16, /* closing SCSI status */
: 7,
cd_chan : 1, /* channel on card */
: 2,
cd_tagtype : 6; /* tag type */
u_int8_t cd_senselen;
u_int8_t cd_cdblen;
u_int8_t cd_sense[TMD_SENSELEN];
u_int8_t cd_cdb[TMD_CDBLEN]; /* Command */
union {
void * ptrs[QCDS / sizeof (void *)];
u_int64_t llongs[QCDS / sizeof (u_int64_t)];
u_int32_t longs[QCDS / sizeof (u_int32_t)];
u_int16_t shorts[QCDS / sizeof (u_int16_t)];
u_int8_t bytes[QCDS];
} cd_lreserved[2], cd_hreserved[2];
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} tmd_cmd_t;
#ifndef TMD_SIZE
#define TMD_SIZE (sizeof (tmd_cmd_t))
#endif
/*
* Note that NODISC (obviously) doesn't apply to non-SPI transport.
*
* Note that knowing the data direction and lengh at the time of receipt of
* a command from the initiator is a feature only of Fibre Channel.
*
* The CDFL_BIDIR is in anticipation of the adoption of some newer
* features required by OSD.
*
* The principle selector for MD layer to know whether data is to
* be transferred in any QOUT_TMD_CONT call is cd_xfrlen- the
* flags CDFH_DATA_IN and CDFH_DATA_OUT define which direction.
*/
#define CDFL_SNSVALID 0x01 /* sense data (from f/w) good */
#define CDFL_SENTSTATUS 0x02 /* last action sent status */
#define CDFL_DATA_IN 0x04 /* target (us) -> initiator (them) */
#define CDFL_DATA_OUT 0x08 /* initiator (them) -> target (us) */
#define CDFL_BIDIR 0x0C /* bidirectional data */
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#define CDFL_ERROR 0x10 /* last action ended in error */
#define CDFL_NODISC 0x20 /* disconnects disabled */
#define CDFL_SENTSENSE 0x40 /* last action sent sense data */
#define CDFL_BUSY 0x80 /* this command is not on a free list */
#define CDFL_PRIVATE 0xFF000000 /* private layer flags */
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#define CDFH_SNSVALID 0x01 /* sense data (from outer layer) good */
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#define CDFH_STSVALID 0x02 /* status valid */
#define CDFH_DATA_IN 0x04 /* target (us) -> initiator (them) */
#define CDFH_DATA_OUT 0x08 /* initiator (them) -> target (us) */
#define CDFH_DATA_MASK 0x0C /* mask to cover data direction */
#define CDFH_PRIVATE 0xFF000000 /* private layer flags */
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/*
* Action codes set by the Qlogic MD target driver for
* the external layer to figure out what to do with.
*/
typedef enum {
QOUT_HBA_REG=0, /* the argument is a pointer to a hba_register_t */
QOUT_ENABLE, /* the argument is a pointer to a enadis_t */
QOUT_DISABLE, /* the argument is a pointer to a enadis_t */
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QOUT_TMD_START, /* the argument is a pointer to a tmd_cmd_t */
QOUT_TMD_DONE, /* the argument is a pointer to a tmd_cmd_t */
QOUT_TEVENT, /* the argument is a pointer to a tmd_event_t */
QOUT_TMSG, /* the argument is a pointer to a tmd_msg_t */
QOUT_IOCTL, /* the argument is a pointer to a ioctl_cmd_t */
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QOUT_HBA_UNREG /* the argument is a pointer to a hba_register_t */
} tact_e;
/*
* Action codes set by the external layer for the
* MD Qlogic driver to figure out what to do with.
*/
typedef enum {
QIN_HBA_REG=99, /* the argument is a pointer to a hba_register_t */
QIN_ENABLE, /* the argument is a pointer to a enadis_t */
QIN_DISABLE, /* the argument is a pointer to a enadis_t */
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QIN_TMD_CONT, /* the argument is a pointer to a tmd_cmd_t */
QIN_TMD_FIN, /* the argument is a pointer to a tmd_cmd_t */
QIN_IOCTL, /* the argument is a pointer to a ioctl_cmd_t */
QIN_HBA_UNREG, /* the argument is a pointer to a hba_register_t */
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} qact_e;
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/*
* A word about the START/CONT/DONE/FIN dance:
*
* When the HBA is enabled for receiving commands, one may show up
* without notice. When that happens, the Qlogic target mode driver
* gets a tmd_cmd_t, fills it with the info that just arrived, and
* calls the outer layer with a QOUT_TMD_START code and pointer to
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* the tmd_cmd_t.
*
* The outer layer decodes the command, fetches data, prepares stuff,
* whatever, and starts by passing back the pointer with a QIN_TMD_CONT
* code which causes the Qlogic target mode driver to generate CTIOs to
* satisfy whatever action needs to be taken. When those CTIOs complete,
* the Qlogic target driver sends the pointer to the cmd_tmd_t back with
* a QOUT_TMD_DONE code. This repeats for as long as necessary.
*
* The outer layer signals it wants to end the command by settings within
* the tmd_cmd_t itself. When the final QIN_TMD_CONT is reported completed,
* the outer layer frees the tmd_cmd_t by sending the pointer to it
* back with a QIN_TMD_FIN code.
*
* The graph looks like:
*
* QOUT_TMD_START -> [ QIN_TMD_CONT -> QOUT_TMD_DONE ] * -> QIN_TMD_FIN.
*
*/
/*
* A word about ENABLE/DISABLE: the argument is a pointer to a enadis_t
* with cd_hba, cd_iid, cd_chan, cd_tgt and cd_lun filled out.
*
* If an error occurs in either enabling or disabling the described lun
* cd_error is set with an appropriate non-zero value.
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*
* Logical unit zero must be the first enabled and the last disabled.
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*/
typedef struct {
void * cd_private; /* for outer layer usage */
void * cd_hba; /* HBA tag */
u_int64_t cd_iid; /* initiator ID */
u_int64_t cd_tgt; /* target id */
u_int64_t cd_lun; /* logical unit */
u_int8_t cd_chan; /* channel on card */
int32_t cd_error;
} enadis_t;
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/*
* This structure is used to register to other software modules the
* binding of an HBA identifier, driver name and instance and the
* lun width capapbilities of this target driver. It's up to each
* platform to figure out how it wants to do this, but a typical
* sequence would be for the MD layer to find some external module's
* entry point and start by sending a QOUT_HBA_REG with info filled
* in, and the external module to call back with a QIN_HBA_REG that
* passes back the corresponding information.
*/
#define QR_VERSION 1
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typedef struct {
void * r_identity;
void (*r_action)(qact_e, void *);
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char r_name[8];
int r_inst;
int r_version;
enum { R_FC, R_SCSI } r_type;
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} hba_register_t;
/*
* This structure is used to pass an encapsulated ioctl through to the
* MD layer. In many implementations it's often convenient to open just
* one device, but actions you want to take need to be taken on the
* underlying HBA. Rather than invent a separate protocol for each action,
* an ioctl passthrough seems simpler.
*
* In order to avoid cross domain copy problems, though, the caller will
* be responsible for allocating and providing a staging area for all ioctl
* related data. This, unavoidably, requires some ioctl decode capability
* in the outer layer code.`
*
* And also, albeit being cheesy, we'll define a few internal ioctls here.
*/
typedef struct {
void * i_identity; /* HBA tag */
void * i_syncptr; /* synchronization pointer */
int i_cmd; /* ioctl command */
void * i_arg; /* ioctl argument area */
int i_errno; /* ioctl error return */
} ioctl_cmd_t;
#define QI_IOC ('Q' << 8)
#define QI_SCSI_TINI QI_IOC|0
#define QI_SCSI_CMD QI_IOC|1
#define QI_WWPN_XLT QI_IOC|2
/*
* Target handler functions.
*
* The MD target handler function (the outer layer calls this)
* should be be prototyped like:
*
* void target_action(qact_e, void *arg)
*
* The outer layer target handler function (the MD layer calls this)
* should be be prototyped like:
*
* void system_target_handler(tact_e, void *arg)
*/