/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_SCSI_SCSI_PKT_H #define _SYS_SCSI_SCSI_PKT_H #pragma ident "%Z%%M% %I% %E% SMI" #include #ifdef __cplusplus extern "C" { #endif #ifdef _KERNEL /* * SCSI packet definition. * * This structure defines the packet which is allocated by a library * function and handed to a target driver. The target driver fills * in some information, and passes it to the library for transport * to an addressed SCSI device. The host adapter found by * the library fills in some other information as the command is * processed. When the command completes (or can be taken no further) * the function specified in the packet is called with a pointer to * the packet as it argument. From fields within the packet, the target * driver can determine the success or failure of the command. */ struct scsi_pkt { opaque_t pkt_ha_private; /* private data for host adapter */ struct scsi_address pkt_address; /* destination packet is for */ opaque_t pkt_private; /* private data for target driver */ void (*pkt_comp)(struct scsi_pkt *); /* completion routine */ uint_t pkt_flags; /* flags */ int pkt_time; /* time allotted to complete command */ uchar_t *pkt_scbp; /* pointer to status block */ uchar_t *pkt_cdbp; /* pointer to command block */ ssize_t pkt_resid; /* data bytes not transferred */ uint_t pkt_state; /* state of command */ uint_t pkt_statistics; /* statistics */ uchar_t pkt_reason; /* reason completion called */ /* * The DDI does not allow a driver to allocate it's own scsi_pkt(9S), * a driver should not have *any* compiled in dependencies on * "sizeof (struct scsi_pkt)". If the driver has such dependencies, it * limits SCSA's ability to evolve. The proper way for an HBA to * allocate a scsi_pkt is via scsi_hba_pkt_alloc(9F), or the newer * tran_setup_pkt(9E) interfaces. Allocation rules have been in place * for many years, unfortunately a significant number of drivers * are still broken. * * NB: Until we can trust drivers to follow DDI scsi_pkt(9S) allocation * rules, access to all fields below require special consideration. * Access to these fields is limited to code paths that 'know' correct * scsi_pkt allocation interfaces must have been used. This means that * any target driver access to these fields is suspect, since a target * knows nothing about how an HBA drivers performs scsi_pkt allocation. * * NB: A private scsi_pkt_size() interface has been added to simplify * 'fixing' legacy HBA drivers. Use of scsi_pkt_size() is only * appropriate when the effort/cost of fixing a legacy driver to use * proper DDI scsi_pkt allocation interfaces is too great given the * remaining driver life. New HBA drivers should *not* use * scsi_pkt_size(). * * NB: While HBA drivers with violations are being fixed, in * rare cases access conditioned by scsi_pkt_allocated_correctly() is * permitted. */ /* HBA driver only, iff scsi_hba_pkt_alloc(9F)|tran_seup_pkt(9E) used */ uint_t pkt_cdblen; /* length of pkt_cdbp */ uint_t pkt_tgtlen; /* length of pkt_private */ uint_t pkt_scblen; /* lenght of pkt_scbp */ /* HBA driver only, iff tran_seup_pkt(9E) used */ ddi_dma_handle_t pkt_handle; /* private */ uint_t pkt_numcookies; /* number of DMA cookies */ off_t pkt_dma_offset; /* private */ size_t pkt_dma_len; /* private */ uint_t pkt_dma_flags; /* DMA flags */ ddi_dma_cookie_t *pkt_cookies; /* array of DMA cookies */ /* private: iff scsi_pkt_allocated_correctly() */ int pkt_path_instance; /* pHCI transport path */ #ifdef SCSI_SIZE_CLEAN_VERIFY /* * Must be last: Building a driver with-and-without * -DSCSI_SIZE_CLEAN_VERIFY, and checking driver modules for * differences with a tools like 'wsdiff' allows a developer to verify * that their driver has no dependencies on scsi*(9S) size. */ int i_pkt_pad[8]; #endif /* SCSI_SIZE_CLEAN_VERIFY */ }; #endif /* _KERNEL */ /* * Definitions for the pkt_flags field. */ /* * Following defines are generic. */ #define FLAG_STAG 0x4000 /* Run command with Simple attribute */ #define FLAG_OTAG 0x2000 /* Run command with Ordered attribute */ #define FLAG_HTAG 0x1000 /* Run command with Head of Queue attribute */ #define FLAG_TAGMASK (FLAG_HTAG|FLAG_OTAG|FLAG_STAG) #define FLAG_ACA 0x0100 /* internal; do not use */ #define FLAG_HEAD 0x8000 /* This cmd should be put at the head */ /* of the HBA driver's queue */ #define FLAG_SENSING 0x0400 /* Running request sense for failed pkt */ #define FLAG_NOINTR 0x0001 /* Run command with no cmd completion */ /* callback; command has been completed */ /* upon return from scsi_transport(9F) */ /* * Following defines are appropriate for SCSI parallel bus. */ #define FLAG_NODISCON 0x0002 /* Run command without disconnects */ #define FLAG_NOPARITY 0x0008 /* Run command without parity checking */ #define FLAG_RENEGOTIATE_WIDE_SYNC \ 0x1000000 /* Do wide and sync renegotiation before */ /* transporting this command to target */ /* * Following defines are internal i.e. not part of DDI. */ #define FLAG_IMMEDIATE_CB \ 0x0800 /* Immediate callback on command */ /* completion, ie. do not defer */ /* * Following defines are for USCSI options. */ #define FLAG_SILENT 0x00010000 #define FLAG_DIAGNOSE 0x00020000 #define FLAG_ISOLATE 0x00040000 /* * Following define is for scsi_vhci. * If pHCI cannot transport the command to the device, do not queue the pkt * in pHCI. Return immediately with TRAN_BUSY. */ #define FLAG_NOQUEUE 0x80000000 /* * Definitions for the pkt_reason field. */ /* * Following defines are generic. */ #define CMD_CMPLT 0 /* no transport errors- normal completion */ #define CMD_INCOMPLETE 1 /* transport stopped with not normal state */ #define CMD_DMA_DERR 2 /* dma direction error occurred */ #define CMD_TRAN_ERR 3 /* unspecified transport error */ #define CMD_RESET 4 /* Target completed hard reset sequence */ #define CMD_ABORTED 5 /* Command transport aborted on request */ #define CMD_TIMEOUT 6 /* Command timed out */ #define CMD_DATA_OVR 7 /* Data Overrun */ #define CMD_CMD_OVR 8 /* Command Overrun */ #define CMD_STS_OVR 9 /* Status Overrun */ #define CMD_TERMINATED 22 /* Command transport terminated on request */ /* * Following defines are appropriate for SCSI parallel bus. */ #define CMD_BADMSG 10 /* Message not Command Complete */ #define CMD_NOMSGOUT 11 /* Target refused to go to Message Out phase */ #define CMD_XID_FAIL 12 /* Extended Identify message rejected */ #define CMD_IDE_FAIL 13 /* Initiator Detected Error message rejected */ #define CMD_ABORT_FAIL 14 /* Abort message rejected */ #define CMD_REJECT_FAIL 15 /* Reject message rejected */ #define CMD_NOP_FAIL 16 /* No Operation message rejected */ #define CMD_PER_FAIL 17 /* Message Parity Error message rejected */ #define CMD_BDR_FAIL 18 /* Bus Device Reset message rejected */ #define CMD_ID_FAIL 19 /* Identify message rejected */ #define CMD_UNX_BUS_FREE 20 /* Unexpected Bus Free Phase occurred */ #define CMD_TAG_REJECT 21 /* Target rejected our tag message */ #define CMD_DEV_GONE 24 /* The device has been removed */ /* Used by scsi_rname(9F) */ #define CMD_REASON_ASCII { \ "cmplt", "incomplete", "dma_derr", "tran_err", "reset", \ "aborted", "timeout", "data_ovr", "cmd_ovr", "sts_ovr", \ "badmsg", "nomsgout", "xid_fail", "ide_fail", "abort_fail", \ "reject_fail", "nop_fail", "per_fail", "bdr_fail", "id_fail", \ "unexpected_bus_free", "tag reject", "terminated", "", "gone", \ NULL } /* * Definitions for the pkt_state field */ #define STATE_GOT_BUS 0x01 /* Success in getting SCSI bus */ #define STATE_GOT_TARGET 0x02 /* Successfully connected with target */ #define STATE_SENT_CMD 0x04 /* Command successfully sent */ #define STATE_XFERRED_DATA 0x08 /* Data transfer took place */ #define STATE_GOT_STATUS 0x10 /* SCSI status received */ #define STATE_ARQ_DONE 0x20 /* auto rqsense took place */ #define STATE_XARQ_DONE 0X40 /* extra auto rqsense took place */ /* * Definitions for the pkt_statistics field */ /* * Following defines are generic. */ #define STAT_BUS_RESET 0x8 /* Reset operation on interconnect */ #define STAT_DEV_RESET 0x10 /* Target completed hard reset sequence */ #define STAT_ABORTED 0x20 /* Command was aborted */ #define STAT_TERMINATED 0x80 /* Command was terminated */ #define STAT_TIMEOUT 0x40 /* Command experienced a timeout */ /* * Following defines are appropriate for SCSI parallel bus. */ #define STAT_DISCON 0x1 /* Command experienced a disconnect */ #define STAT_SYNC 0x2 /* Command did a synchronous data transfer */ #define STAT_PERR 0x4 /* Command experienced a SCSI parity error */ /* * Definitions for what scsi_transport returns */ #define TRAN_ACCEPT 1 #define TRAN_BUSY 0 #define TRAN_BADPKT -1 #define TRAN_FATAL_ERROR -2 /* HBA cannot accept any pkts */ #ifdef _KERNEL /* * Kernel function declarations */ int scsi_transport(struct scsi_pkt *pkt); #define pkt_transport scsi_transport #define SCSI_POLL_TIMEOUT 60 #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_SCSI_SCSI_PKT_H */