e87fa217f4
ATAPI controllers. This will eventually be used for power management of e.g. PCMCIA SCSI and IDE controller cards.
581 lines
18 KiB
C
581 lines
18 KiB
C
/* $NetBSD: scsipiconf.h,v 1.25 1998/11/19 20:08:52 thorpej Exp $ */
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/*-
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* Copyright (c) 1998 The NetBSD Foundation, Inc.
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* All rights reserved.
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*
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* This code is derived from software contributed to The NetBSD Foundation
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* by Charles M. Hannum.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the NetBSD
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* Foundation, Inc. and its contributors.
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* 4. Neither the name of The NetBSD Foundation nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
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* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
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* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
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* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*/
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/*
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* Originally written by Julian Elischer (julian@tfs.com)
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* for TRW Financial Systems for use under the MACH(2.5) operating system.
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*
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* TRW Financial Systems, in accordance with their agreement with Carnegie
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* Mellon University, makes this software available to CMU to distribute
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* or use in any manner that they see fit as long as this message is kept with
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* the software. For this reason TFS also grants any other persons or
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* organisations permission to use or modify this software.
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*
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* TFS supplies this software to be publicly redistributed
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* on the understanding that TFS is not responsible for the correct
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* functioning of this software in any circumstances.
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*
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* Ported to run under 386BSD by Julian Elischer (julian@tfs.com) Sept 1992
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*/
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#ifndef _DEV_SCSIPI_SCSIPICONF_H_
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#define _DEV_SCSIPI_SCSIPICONF_H_
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typedef int boolean;
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#include <sys/queue.h>
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#include <machine/cpu.h>
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#include <dev/scsipi/scsipi_debug.h>
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/*
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* The following documentation tries to describe the relationship between the
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* various structures defined in this file:
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*
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* each adapter type has a scsipi_adapter struct. This describes the adapter
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* and identifies routines that can be called to use the adapter.
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* each device type has a scsipi_device struct. This describes the device and
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* identifies routines that can be called to use the device.
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* each existing device position (scsibus + target + lun or atapibus + drive)
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* can be described by a scsipi_link struct.
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* Only scsipi positions that actually have devices, have a scsipi_link
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* structure assigned. so in effect each device has scsipi_link struct.
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* The scsipi_link structure contains information identifying both the
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* device driver and the adapter driver for that position on that scsipi
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* bus, and can be said to 'link' the two.
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* each individual scsipi bus has an array that points to all the scsipi_link
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* structs associated with that scsipi bus. Slots with no device have
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* a NULL pointer.
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* each individual device also knows the address of it's own scsipi_link
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* structure.
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*
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* -------------
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*
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* The key to all this is the scsipi_link structure which associates all the
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* other structures with each other in the correct configuration. The
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* scsipi_link is the connecting information that allows each part of the
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* scsipi system to find the associated other parts.
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*/
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struct buf;
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struct proc;
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struct scsipi_link;
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struct scsipi_xfer;
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struct scsipi_generic {
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u_int8_t opcode;
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u_int8_t bytes[15];
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};
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/*
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* return values for scsipi_cmd()
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*/
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#define SUCCESSFULLY_QUEUED 0
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#define TRY_AGAIN_LATER 1
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#define COMPLETE 2
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#define ESCAPE_NOT_SUPPORTED 3
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/*
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* Device Specific Sense Handlers return either an errno
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* or one of these three items.
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*/
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#define SCSIRET_NOERROR 0 /* No Error */
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#define SCSIRET_RETRY -1 /* Retry the command that got this sense */
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#define SCSIRET_CONTINUE -2 /* Continue with standard sense processing */
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/*
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* These entry points are called by the low-end drivers to get services from
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* whatever high-end drivers they are attached to. Each device type has one
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* of these statically allocated.
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*/
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struct scsipi_device {
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int (*err_handler) __P((struct scsipi_xfer *));
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/* returns -1 to say err processing done */
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void (*start) __P((void *));
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int (*async) __P((void));
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/*
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* When called with `0' as the second argument, we expect status
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* back from the upper-level driver. When called with a `1',
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* we're simply notifying the upper-level driver that the command
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* is complete and expect no status back.
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*/
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void (*done) __P((struct scsipi_xfer *));
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};
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/*
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* These entrypoints are called by the high-end drivers to get services from
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* whatever low-end drivers they are attached to. Each adapter instance has
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* one of these.
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*
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* scsipi_cmd required
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* scsipi_minphys required
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* scsipi_ioctl optional
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* scsipi_enable optional
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*/
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struct scsipi_adapter {
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int scsipi_refcnt;
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int (*scsipi_cmd) __P((struct scsipi_xfer *));
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void (*scsipi_minphys) __P((struct buf *));
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int (*scsipi_ioctl) __P((struct scsipi_link *, u_long,
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caddr_t, int, struct proc *));
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int (*scsipi_enable) __P((void *, int));
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};
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/*
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* This structure describes the connection between an adapter driver and
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* a device driver, and is used by each to call services provided by
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* the other, and to allow generic scsipi glue code to call these services
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* as well.
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*
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* XXX Given the way NetBSD's autoconfiguration works, this is ...
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* XXX nasty.
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*/
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struct scsipi_link {
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u_int8_t type; /* device type, i.e. SCSI, ATAPI, ...*/
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#define BUS_SCSI 0
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#define BUS_ATAPI 1
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u_int8_t openings; /* available operations */
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u_int8_t active; /* operations in progress */
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u_int8_t flags; /* flags that all devices have */
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#define SDEV_REMOVABLE 0x01 /* media is removable */
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#define SDEV_MEDIA_LOADED 0x02 /* device figures are still valid */
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#define SDEV_WAITING 0x04 /* a process is waiting for this */
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#define SDEV_OPEN 0x08 /* at least 1 open session */
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#define SDEV_DBX 0xf0 /* debuging flags (scsipi_debug.h) */
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u_int16_t quirks; /* per-device oddities */
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#define SDEV_AUTOSAVE 0x0001 /*
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* Do implicit SAVEDATAPOINTER on
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* disconnect (ancient).
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*/
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#define SDEV_NOSYNC 0x0002 /* does not grok SDTR */
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#define SDEV_NOWIDE 0x0004 /* does not grok WDTR */
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#define SDEV_NOTAG 0x0008 /* does not do command tagging */
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#define SDEV_NOLUNS 0x0010 /* does not grok LUNs */
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#define SDEV_FORCELUNS 0x0020 /* prehistoric drive/ctlr groks LUNs */
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#define SDEV_NOMODESENSE 0x0040 /* removable media/optical drives */
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#define SDEV_NOSTARTUNIT 0x0080 /*
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* Do not issue START UNIT
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* requests in sd.c
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*/
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#define SDEV_NOSYNCCACHE 0x0100 /* does not grok SYNCHRONIZE CACHE */
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#define ADEV_CDROM 0x0200 /* device is a CD-ROM */
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#define ADEV_LITTLETOC 0x0400 /* Audio TOC uses wrong byte order */
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#define ADEV_NOCAPACITY 0x0800 /* no READ_CD_CAPACITY command */
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#define ADEV_NOTUR 0x1000 /* no TEST_UNIT_READY command */
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#define ADEV_NODOORLOCK 0x2000 /* device can't lock door */
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struct scsipi_device *device; /* device entry points etc. */
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void *device_softc; /* needed for call to foo_start */
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struct scsipi_adapter *adapter;/* adapter entry points etc. */
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void *adapter_softc; /* needed for call to foo_scsipi_cmd */
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union { /* needed for call to foo_scsipi_cmd */
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struct scsi_link {
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int channel; /* channel, i.e. bus # on controller */
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u_int8_t scsi_version; /* SCSI-I, SCSI-II, etc. */
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u_int8_t scsibus; /* the Nth scsibus */
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u_int8_t target; /* targ of this dev */
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u_int8_t lun; /* lun of this dev */
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u_int8_t adapter_target;/* what are we on the scsi
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bus */
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int max_target; /* XXX max target supported
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by adapter */
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} scsipi_scsi;
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struct atapi_link {
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u_int8_t drive; /* drive number on the bus */
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u_int8_t channel; /* channel, i.e. bus # on
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controller */
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u_int8_t atapibus;
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u_int8_t cap; /* drive capability */
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#define ACAP_DRQ_MPROC 0x0000 /* microprocessor DRQ */
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#define ACAP_DRQ_INTR 0x0200 /* interrupt DRQ */
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#define ACAP_DRQ_ACCEL 0x0400 /* accelerated DRQ */
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#define ACAP_DRQ_MASK 0x0600 /* same as in ataparams */
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#define ACAP_LEN 0x0100 /* 16 bit commands */
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} scsipi_atapi;
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} _scsipi_link;
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int (*scsipi_cmd) __P((struct scsipi_link *, struct scsipi_generic *,
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int cmdlen, u_char *data_addr, int datalen, int retries,
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int timeout, struct buf *bp, int flags));
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int (*scsipi_interpret_sense) __P((struct scsipi_xfer *));
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void (*sc_print_addr) __P((struct scsipi_link *sc_link));
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};
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#define scsipi_scsi _scsipi_link.scsipi_scsi
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#define scsipi_atapi _scsipi_link.scsipi_atapi
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/*
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* Each scsipi transaction is fully described by one of these structures
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* It includes information about the source of the command and also the
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* device and adapter for which the command is destined.
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* (via the scsipi_link structure)
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*/
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struct scsipi_xfer {
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LIST_ENTRY(scsipi_xfer) free_list;
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volatile int flags; /* 0x00ff0000 reserved for ATAPI */
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struct scsipi_link *sc_link; /* all about our device and adapter */
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int retries; /* the number of times to retry */
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int timeout; /* in milliseconds */
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struct scsipi_generic *cmd; /* The scsipi command to execute */
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int cmdlen; /* how long it is */
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u_char *data; /* dma address OR a uio address */
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int datalen; /* data len (blank if uio) */
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int resid; /* how much buffer was not touched */
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int error; /* an error value */
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struct buf *bp; /* If we need to associate with */
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/* a buf */
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union {
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struct scsipi_sense_data scsi_sense; /* 32 bytes */
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u_int32_t atapi_sense;
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} sense;
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/*
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* Believe it or not, Some targets fall on the ground with
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* anything but a certain sense length.
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*/
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int req_sense_length; /* Explicit request sense length */
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u_int8_t status; /* SCSI status */
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struct scsipi_generic cmdstore
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__attribute__ ((aligned (4)));/* stash the command in here */
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};
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/*
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* Per-request Flag values
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*/
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#define SCSI_NOSLEEP 0x0001 /* don't sleep */
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#define SCSI_POLL 0x0002 /* poll for completion */
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#define SCSI_AUTOCONF (SCSI_NOSLEEP | SCSI_POLL)
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#define SCSI_USER 0x0004 /* Is a user cmd, call scsipi_user_done */
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#define ITSDONE 0x0008 /* the transfer is as done as it gets */
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#define INUSE 0x0010 /* The scsipi_xfer block is in use */
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#define SCSI_SILENT 0x0020 /* don't announce NOT READY or MEDIA CHANGE */
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#define SCSI_IGNORE_NOT_READY 0x0040 /* ignore NOT READY */
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#define SCSI_IGNORE_MEDIA_CHANGE 0x0080 /* ignore MEDIA CHANGE */
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#define SCSI_IGNORE_ILLEGAL_REQUEST 0x0100 /* ignore ILLEGAL REQUEST */
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#define SCSI_RESET 0x0200 /* Reset the device in question */
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#define SCSI_DATA_UIO 0x0400 /* The data address refers to a UIO */
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#define SCSI_DATA_IN 0x0800 /* expect data to come INTO memory */
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#define SCSI_DATA_OUT 0x1000 /* expect data to flow OUT of memory */
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#define SCSI_TARGET 0x2000 /* This defines a TARGET mode op. */
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#define SCSI_ESCAPE 0x4000 /* Escape operation */
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#define SCSI_URGENT 0x8000 /* Urgent operation (e.g., HTAG) */
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/* 0x00ff0000 reserved for ATAPI. */
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/*
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* Error values an adapter driver may return
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*/
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#define XS_NOERROR 0 /* there is no error, (sense is invalid) */
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#define XS_SENSE 1 /* Check the returned sense for the error */
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#define XS_SHORTSENSE 2 /* Check the ATAPI sense for the error */
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#define XS_DRIVER_STUFFUP 3 /* Driver failed to perform operation */
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#define XS_SELTIMEOUT 4 /* The device timed out.. turned off? */
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#define XS_TIMEOUT 5 /* The Timeout reported was caught by SW */
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#define XS_BUSY 7 /* The device busy, try again later? */
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#define XS_RESET 8 /* bus was reset; possible retry command */
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/*
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* This describes matching information for scsipi_inqmatch(). The more things
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* match, the higher the configuration priority.
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*/
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struct scsipi_inquiry_pattern {
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u_int8_t type;
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boolean removable;
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char *vendor;
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char *product;
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char *revision;
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};
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/*
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* This is used to pass information from the high-level configuration code
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* to the device-specific drivers.
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*/
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struct scsipibus_attach_args {
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struct scsipi_link *sa_sc_link;
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struct scsipi_inquiry_pattern sa_inqbuf;
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union { /* bus-type specific infos */
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u_int8_t scsi_version; /* SCSI version */
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} scsipi_info;
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};
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/*
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* this describes a quirk entry
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*/
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struct scsi_quirk_inquiry_pattern {
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struct scsipi_inquiry_pattern pattern;
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u_int16_t quirks;
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};
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/*
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* Macro to issue a SCSI command. Treat it like a function:
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*
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* int scsipi_command __P((struct scsipi_link *link,
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* struct scsipi_generic *scsipi_cmd, int cmdlen,
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* u_char *data_addr, int datalen, int retries,
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* int timeout, struct buf *bp, int flags));
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*/
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#define scsipi_command(l, c, cl, da, dl, r, t, b, f) \
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(*(l)->scsipi_cmd)((l), (c), (cl), (da), (dl), (r), (t), (b), (f))
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/*
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* Similar, but invoke the controller directly with a scsipi_xfer.
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*/
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#define scsipi_command_direct(xs) \
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(*(xs)->sc_link->adapter->scsipi_cmd)((xs))
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/*
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* Macro to test whether a request will complete asynchronously.
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*/
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#define SCSIPI_XFER_ASYNC(xs) \
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((xs->flags & (SCSI_NOSLEEP | SCSI_POLL)) == SCSI_NOSLEEP)
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#ifdef _KERNEL
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void scsipi_init __P((void));
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caddr_t scsipi_inqmatch __P((struct scsipi_inquiry_pattern *, caddr_t,
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int, int, int *));
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char *scsipi_dtype __P((int));
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void scsipi_strvis __P((u_char *, int, u_char *, int));
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int scsipi_execute_xs __P((struct scsipi_xfer *));
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u_long scsipi_size __P((struct scsipi_link *, int));
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int scsipi_test_unit_ready __P((struct scsipi_link *, int));
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int scsipi_prevent __P((struct scsipi_link *, int, int));
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int scsipi_inquire __P((struct scsipi_link *,
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struct scsipi_inquiry_data *, int));
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int scsipi_start __P((struct scsipi_link *, int, int));
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void scsipi_done __P((struct scsipi_xfer *));
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void scsipi_user_done __P((struct scsipi_xfer *));
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int scsipi_interpret_sense __P((struct scsipi_xfer *));
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#ifdef SCSIVERBOSE
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void scsipi_print_sense __P((struct scsipi_xfer *, int));
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void scsipi_print_sense_data __P((struct scsipi_sense_data *, int));
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char *scsipi_decode_sense __P((void *, int));
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#endif
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int scsipi_do_ioctl __P((struct scsipi_link *, dev_t, u_long, caddr_t,
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int, struct proc *));
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int scsipi_adapter_addref __P((struct scsipi_link *));
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void scsipi_adapter_delref __P((struct scsipi_link *));
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void show_scsipi_xs __P((struct scsipi_xfer *));
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void show_scsipi_cmd __P((struct scsipi_xfer *));
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void show_mem __P((u_char *, int));
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#endif /* _KERNEL */
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static __inline void _lto2b __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void _lto3b __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void _lto4b __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _2btol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _3btol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _4btol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void _lto2l __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void _lto3l __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void _lto4l __P((u_int32_t val, u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _2ltol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _3ltol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline u_int32_t _4ltol __P((const u_int8_t *bytes))
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__attribute__ ((unused));
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static __inline void bswap __P((char *, int))
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__attribute__ ((unused));
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static __inline void
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_lto2b(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = (val >> 8) & 0xff;
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bytes[1] = val & 0xff;
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}
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static __inline void
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_lto3b(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = (val >> 16) & 0xff;
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bytes[1] = (val >> 8) & 0xff;
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bytes[2] = val & 0xff;
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}
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static __inline void
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_lto4b(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = (val >> 24) & 0xff;
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bytes[1] = (val >> 16) & 0xff;
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bytes[2] = (val >> 8) & 0xff;
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bytes[3] = val & 0xff;
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}
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static __inline u_int32_t
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_2btol(bytes)
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const u_int8_t *bytes;
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{
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register u_int32_t rv;
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rv = (bytes[0] << 8) |
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bytes[1];
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return (rv);
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}
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static __inline u_int32_t
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_3btol(bytes)
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const u_int8_t *bytes;
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{
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register u_int32_t rv;
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rv = (bytes[0] << 16) |
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(bytes[1] << 8) |
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bytes[2];
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return (rv);
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}
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static __inline u_int32_t
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_4btol(bytes)
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const u_int8_t *bytes;
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{
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register u_int32_t rv;
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rv = (bytes[0] << 24) |
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(bytes[1] << 16) |
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(bytes[2] << 8) |
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bytes[3];
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return (rv);
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}
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static __inline void
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_lto2l(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = val & 0xff;
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bytes[1] = (val >> 8) & 0xff;
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}
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static __inline void
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_lto3l(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = val & 0xff;
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bytes[1] = (val >> 8) & 0xff;
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bytes[2] = (val >> 16) & 0xff;
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}
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static __inline void
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_lto4l(val, bytes)
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u_int32_t val;
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u_int8_t *bytes;
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{
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bytes[0] = val & 0xff;
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bytes[1] = (val >> 8) & 0xff;
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bytes[2] = (val >> 16) & 0xff;
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bytes[3] = (val >> 24) & 0xff;
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}
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static __inline u_int32_t
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_2ltol(bytes)
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const u_int8_t *bytes;
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{
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register u_int32_t rv;
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|
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rv = bytes[0] |
|
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(bytes[1] << 8);
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return (rv);
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}
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static __inline u_int32_t
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_3ltol(bytes)
|
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const u_int8_t *bytes;
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{
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register u_int32_t rv;
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rv = bytes[0] |
|
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(bytes[1] << 8) |
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(bytes[2] << 16);
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return (rv);
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}
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static __inline u_int32_t
|
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_4ltol(bytes)
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const u_int8_t *bytes;
|
|
{
|
|
register u_int32_t rv;
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|
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rv = bytes[0] |
|
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(bytes[1] << 8) |
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(bytes[2] << 16) |
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(bytes[3] << 24);
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return (rv);
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}
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static __inline void
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bswap (buf, len)
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char *buf;
|
|
int len;
|
|
{
|
|
u_int16_t *p = (u_int16_t *)(buf + len);
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while (--p >= (u_int16_t *)buf)
|
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*p = (*p & 0xff) << 8 | (*p >> 8 & 0xff);
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}
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#endif /* _DEV_SCSIPI_SCSIPICONF_H_ */
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