aachba.c 78.7 KB
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/*
 *	Adaptec AAC series RAID controller driver
 *	(c) Copyright 2001 Red Hat Inc.	<alan@redhat.com>
 *
 * based on the old aacraid driver that is..
 * Adaptec aacraid device driver for Linux.
 *
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 * Copyright (c) 2000-2007 Adaptec, Inc. (aacraid@adaptec.com)
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 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2, or (at your option)
 * any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; see the file COPYING.  If not, write to
 * the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 */

#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/types.h>
#include <linux/pci.h>
#include <linux/spinlock.h>
#include <linux/slab.h>
#include <linux/completion.h>
#include <linux/blkdev.h>
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#include <linux/dma-mapping.h>
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#include <asm/semaphore.h>
#include <asm/uaccess.h>

#include <scsi/scsi.h>
#include <scsi/scsi_cmnd.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_host.h>

#include "aacraid.h"

/* values for inqd_pdt: Peripheral device type in plain English */
#define	INQD_PDT_DA	0x00	/* Direct-access (DISK) device */
#define	INQD_PDT_PROC	0x03	/* Processor device */
#define	INQD_PDT_CHNGR	0x08	/* Changer (jukebox, scsi2) */
#define	INQD_PDT_COMM	0x09	/* Communication device (scsi2) */
#define	INQD_PDT_NOLUN2 0x1f	/* Unknown Device (scsi2) */
#define	INQD_PDT_NOLUN	0x7f	/* Logical Unit Not Present */

#define	INQD_PDT_DMASK	0x1F	/* Peripheral Device Type Mask */
#define	INQD_PDT_QMASK	0xE0	/* Peripheral Device Qualifer Mask */

/*
 *	Sense codes
 */
 
#define SENCODE_NO_SENSE                        0x00
#define SENCODE_END_OF_DATA                     0x00
#define SENCODE_BECOMING_READY                  0x04
#define SENCODE_INIT_CMD_REQUIRED               0x04
#define SENCODE_PARAM_LIST_LENGTH_ERROR         0x1A
#define SENCODE_INVALID_COMMAND                 0x20
#define SENCODE_LBA_OUT_OF_RANGE                0x21
#define SENCODE_INVALID_CDB_FIELD               0x24
#define SENCODE_LUN_NOT_SUPPORTED               0x25
#define SENCODE_INVALID_PARAM_FIELD             0x26
#define SENCODE_PARAM_NOT_SUPPORTED             0x26
#define SENCODE_PARAM_VALUE_INVALID             0x26
#define SENCODE_RESET_OCCURRED                  0x29
#define SENCODE_LUN_NOT_SELF_CONFIGURED_YET     0x3E
#define SENCODE_INQUIRY_DATA_CHANGED            0x3F
#define SENCODE_SAVING_PARAMS_NOT_SUPPORTED     0x39
#define SENCODE_DIAGNOSTIC_FAILURE              0x40
#define SENCODE_INTERNAL_TARGET_FAILURE         0x44
#define SENCODE_INVALID_MESSAGE_ERROR           0x49
#define SENCODE_LUN_FAILED_SELF_CONFIG          0x4c
#define SENCODE_OVERLAPPED_COMMAND              0x4E

/*
 *	Additional sense codes
 */
 
#define ASENCODE_NO_SENSE                       0x00
#define ASENCODE_END_OF_DATA                    0x05
#define ASENCODE_BECOMING_READY                 0x01
#define ASENCODE_INIT_CMD_REQUIRED              0x02
#define ASENCODE_PARAM_LIST_LENGTH_ERROR        0x00
#define ASENCODE_INVALID_COMMAND                0x00
#define ASENCODE_LBA_OUT_OF_RANGE               0x00
#define ASENCODE_INVALID_CDB_FIELD              0x00
#define ASENCODE_LUN_NOT_SUPPORTED              0x00
#define ASENCODE_INVALID_PARAM_FIELD            0x00
#define ASENCODE_PARAM_NOT_SUPPORTED            0x01
#define ASENCODE_PARAM_VALUE_INVALID            0x02
#define ASENCODE_RESET_OCCURRED                 0x00
#define ASENCODE_LUN_NOT_SELF_CONFIGURED_YET    0x00
#define ASENCODE_INQUIRY_DATA_CHANGED           0x03
#define ASENCODE_SAVING_PARAMS_NOT_SUPPORTED    0x00
#define ASENCODE_DIAGNOSTIC_FAILURE             0x80
#define ASENCODE_INTERNAL_TARGET_FAILURE        0x00
#define ASENCODE_INVALID_MESSAGE_ERROR          0x00
#define ASENCODE_LUN_FAILED_SELF_CONFIG         0x00
#define ASENCODE_OVERLAPPED_COMMAND             0x00

#define BYTE0(x) (unsigned char)(x)
#define BYTE1(x) (unsigned char)((x) >> 8)
#define BYTE2(x) (unsigned char)((x) >> 16)
#define BYTE3(x) (unsigned char)((x) >> 24)

/*------------------------------------------------------------------------------
 *              S T R U C T S / T Y P E D E F S
 *----------------------------------------------------------------------------*/
/* SCSI inquiry data */
struct inquiry_data {
	u8 inqd_pdt;	/* Peripheral qualifier | Peripheral Device Type  */
	u8 inqd_dtq;	/* RMB | Device Type Qualifier  */
	u8 inqd_ver;	/* ISO version | ECMA version | ANSI-approved version */
	u8 inqd_rdf;	/* AENC | TrmIOP | Response data format */
	u8 inqd_len;	/* Additional length (n-4) */
	u8 inqd_pad1[2];/* Reserved - must be zero */
	u8 inqd_pad2;	/* RelAdr | WBus32 | WBus16 |  Sync  | Linked |Reserved| CmdQue | SftRe */
	u8 inqd_vid[8];	/* Vendor ID */
	u8 inqd_pid[16];/* Product ID */
	u8 inqd_prl[4];	/* Product Revision Level */
};

/*
 *              M O D U L E   G L O B A L S
 */
 
static unsigned long aac_build_sg(struct scsi_cmnd* scsicmd, struct sgmap* sgmap);
static unsigned long aac_build_sg64(struct scsi_cmnd* scsicmd, struct sgmap64* psg);
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static unsigned long aac_build_sgraw(struct scsi_cmnd* scsicmd, struct sgmapraw* psg);
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static int aac_send_srb_fib(struct scsi_cmnd* scsicmd);
#ifdef AAC_DETAILED_STATUS_INFO
static char *aac_get_status_string(u32 status);
#endif

/*
 *	Non dasd selection is handled entirely in aachba now
 */	
 
static int nondasd = -1;
static int dacmode = -1;

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int aac_commit = -1;
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int startup_timeout = 180;
int aif_timeout = 120;
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module_param(nondasd, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(nondasd, "Control scanning of hba for nondasd devices. 0=off, 1=on");
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module_param(dacmode, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(dacmode, "Control whether dma addressing is using 64 bit DAC. 0=off, 1=on");
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module_param_named(commit, aac_commit, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(commit, "Control whether a COMMIT_CONFIG is issued to the adapter for foreign arrays.\nThis is typically needed in systems that do not have a BIOS. 0=off, 1=on");
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module_param(startup_timeout, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(startup_timeout, "The duration of time in seconds to wait for adapter to have it's kernel up and\nrunning. This is typically adjusted for large systems that do not have a BIOS.");
module_param(aif_timeout, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(aif_timeout, "The duration of time in seconds to wait for applications to pick up AIFs before\nderegistering them. This is typically adjusted for heavily burdened systems.");
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int numacb = -1;
module_param(numacb, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(numacb, "Request a limit to the number of adapter control blocks (FIB) allocated. Valid values are 512 and down. Default is to use suggestion from Firmware.");
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int acbsize = -1;
module_param(acbsize, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(acbsize, "Request a specific adapter control block (FIB) size. Valid values are 512, 2048, 4096 and 8192. Default is to use suggestion from Firmware.");
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int update_interval = 30 * 60;
module_param(update_interval, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(update_interval, "Interval in seconds between time sync updates issued to adapter.");

int check_interval = 24 * 60 * 60;
module_param(check_interval, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(check_interval, "Interval in seconds between adapter health checks.");

int check_reset = 1;
module_param(check_reset, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(check_reset, "If adapter fails health check, reset the adapter.");

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int expose_physicals = -1;
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module_param(expose_physicals, int, S_IRUGO|S_IWUSR);
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MODULE_PARM_DESC(expose_physicals, "Expose physical components of the arrays. -1=protect 0=off, 1=on");
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int aac_reset_devices = 0;
module_param_named(reset_devices, aac_reset_devices, int, S_IRUGO|S_IWUSR);
MODULE_PARM_DESC(reset_devices, "Force an adapter reset at initialization.");
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static inline int aac_valid_context(struct scsi_cmnd *scsicmd,
		struct fib *fibptr) {
	struct scsi_device *device;

	if (unlikely(!scsicmd || !scsicmd->scsi_done )) {
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		dprintk((KERN_WARNING "aac_valid_context: scsi command corrupt\n"));
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                aac_fib_complete(fibptr);
                aac_fib_free(fibptr);
                return 0;
        }
	scsicmd->SCp.phase = AAC_OWNER_MIDLEVEL;
	device = scsicmd->device;
	if (unlikely(!device || !scsi_device_online(device))) {
		dprintk((KERN_WARNING "aac_valid_context: scsi device corrupt\n"));
		aac_fib_complete(fibptr);
		aac_fib_free(fibptr);
		return 0;
	}
	return 1;
}

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/**
 *	aac_get_config_status	-	check the adapter configuration
 *	@common: adapter to query
 *
 *	Query config status, and commit the configuration if needed.
 */
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int aac_get_config_status(struct aac_dev *dev, int commit_flag)
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{
	int status = 0;
	struct fib * fibptr;

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	if (!(fibptr = aac_fib_alloc(dev)))
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		return -ENOMEM;

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	aac_fib_init(fibptr);
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	{
		struct aac_get_config_status *dinfo;
		dinfo = (struct aac_get_config_status *) fib_data(fibptr);

		dinfo->command = cpu_to_le32(VM_ContainerConfig);
		dinfo->type = cpu_to_le32(CT_GET_CONFIG_STATUS);
		dinfo->count = cpu_to_le32(sizeof(((struct aac_get_config_status_resp *)NULL)->data));
	}

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	status = aac_fib_send(ContainerCommand,
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			    fibptr,
			    sizeof (struct aac_get_config_status),
			    FsaNormal,
			    1, 1,
			    NULL, NULL);
	if (status < 0 ) {
		printk(KERN_WARNING "aac_get_config_status: SendFIB failed.\n");
	} else {
		struct aac_get_config_status_resp *reply
		  = (struct aac_get_config_status_resp *) fib_data(fibptr);
		dprintk((KERN_WARNING
		  "aac_get_config_status: response=%d status=%d action=%d\n",
		  le32_to_cpu(reply->response),
		  le32_to_cpu(reply->status),
		  le32_to_cpu(reply->data.action)));
		if ((le32_to_cpu(reply->response) != ST_OK) ||
		     (le32_to_cpu(reply->status) != CT_OK) ||
		     (le32_to_cpu(reply->data.action) > CFACT_PAUSE)) {
			printk(KERN_WARNING "aac_get_config_status: Will not issue the Commit Configuration\n");
			status = -EINVAL;
		}
	}
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	aac_fib_complete(fibptr);
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	/* Send a CT_COMMIT_CONFIG to enable discovery of devices */
	if (status >= 0) {
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		if ((aac_commit == 1) || commit_flag) {
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			struct aac_commit_config * dinfo;
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			aac_fib_init(fibptr);
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			dinfo = (struct aac_commit_config *) fib_data(fibptr);
	
			dinfo->command = cpu_to_le32(VM_ContainerConfig);
			dinfo->type = cpu_to_le32(CT_COMMIT_CONFIG);
	
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			status = aac_fib_send(ContainerCommand,
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				    fibptr,
				    sizeof (struct aac_commit_config),
				    FsaNormal,
				    1, 1,
				    NULL, NULL);
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			aac_fib_complete(fibptr);
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		} else if (aac_commit == 0) {
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			printk(KERN_WARNING
			  "aac_get_config_status: Foreign device configurations are being ignored\n");
		}
	}
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	aac_fib_free(fibptr);
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	return status;
}

/**
 *	aac_get_containers	-	list containers
 *	@common: adapter to probe
 *
 *	Make a list of all containers on this controller
 */
int aac_get_containers(struct aac_dev *dev)
{
	struct fsa_dev_info *fsa_dev_ptr;
	u32 index; 
	int status = 0;
	struct fib * fibptr;
	struct aac_get_container_count *dinfo;
	struct aac_get_container_count_resp *dresp;
	int maximum_num_containers = MAXIMUM_NUM_CONTAINERS;

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	if (!(fibptr = aac_fib_alloc(dev)))
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		return -ENOMEM;

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	aac_fib_init(fibptr);
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	dinfo = (struct aac_get_container_count *) fib_data(fibptr);
	dinfo->command = cpu_to_le32(VM_ContainerConfig);
	dinfo->type = cpu_to_le32(CT_GET_CONTAINER_COUNT);

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	status = aac_fib_send(ContainerCommand,
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		    fibptr,
		    sizeof (struct aac_get_container_count),
		    FsaNormal,
		    1, 1,
		    NULL, NULL);
	if (status >= 0) {
		dresp = (struct aac_get_container_count_resp *)fib_data(fibptr);
		maximum_num_containers = le32_to_cpu(dresp->ContainerSwitchEntries);
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		aac_fib_complete(fibptr);
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	}
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	aac_fib_free(fibptr);
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	if (maximum_num_containers < MAXIMUM_NUM_CONTAINERS)
		maximum_num_containers = MAXIMUM_NUM_CONTAINERS;
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	fsa_dev_ptr = kzalloc(sizeof(*fsa_dev_ptr) * maximum_num_containers,
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			GFP_KERNEL);
	if (!fsa_dev_ptr)
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		return -ENOMEM;

	dev->fsa_dev = fsa_dev_ptr;
	dev->maximum_num_containers = maximum_num_containers;

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	for (index = 0; index < dev->maximum_num_containers; ) {
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		fsa_dev_ptr[index].devname[0] = '\0';

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		status = aac_probe_container(dev, index);
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		if (status < 0) {
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			printk(KERN_WARNING "aac_get_containers: SendFIB failed.\n");
			break;
		}
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		/*
		 *	If there are no more containers, then stop asking.
		 */
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		if (++index >= status)
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			break;
	}
	return status;
}

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static void aac_internal_transfer(struct scsi_cmnd *scsicmd, void *data, unsigned int offset, unsigned int len)
{
	void *buf;
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	int transfer_len;
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	struct scatterlist *sg = scsi_sglist(scsicmd);

	buf = kmap_atomic(sg->page, KM_IRQ0) + sg->offset;
	transfer_len = min(sg->length, len + offset);
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	transfer_len -= offset;
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	if (buf && transfer_len > 0)
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		memcpy(buf + offset, data, transfer_len);
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	kunmap_atomic(buf - sg->offset, KM_IRQ0);
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}

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static void get_container_name_callback(void *context, struct fib * fibptr)
{
	struct aac_get_name_resp * get_name_reply;
	struct scsi_cmnd * scsicmd;

	scsicmd = (struct scsi_cmnd *) context;

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	if (!aac_valid_context(scsicmd, fibptr))
		return;

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	dprintk((KERN_DEBUG "get_container_name_callback[cpu %d]: t = %ld.\n", smp_processor_id(), jiffies));
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	BUG_ON(fibptr == NULL);
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	get_name_reply = (struct aac_get_name_resp *) fib_data(fibptr);
	/* Failure is irrelevant, using default value instead */
	if ((le32_to_cpu(get_name_reply->status) == CT_OK)
	 && (get_name_reply->data[0] != '\0')) {
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		char *sp = get_name_reply->data;
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		sp[sizeof(((struct aac_get_name_resp *)NULL)->data)-1] = '\0';
		while (*sp == ' ')
			++sp;
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		if (*sp) {
			char d[sizeof(((struct inquiry_data *)NULL)->inqd_pid)];
			int count = sizeof(d);
			char *dp = d;
			do {
				*dp++ = (*sp) ? *sp++ : ' ';
			} while (--count > 0);
			aac_internal_transfer(scsicmd, d, 
			  offsetof(struct inquiry_data, inqd_pid), sizeof(d));
		}
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	}
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	scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;

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	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
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	scsicmd->scsi_done(scsicmd);
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}

/**
 *	aac_get_container_name	-	get container name, none blocking.
 */
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static int aac_get_container_name(struct scsi_cmnd * scsicmd)
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{
	int status;
	struct aac_get_name *dinfo;
	struct fib * cmd_fibcontext;
	struct aac_dev * dev;

	dev = (struct aac_dev *)scsicmd->device->host->hostdata;

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	if (!(cmd_fibcontext = aac_fib_alloc(dev)))
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		return -ENOMEM;

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	aac_fib_init(cmd_fibcontext);
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	dinfo = (struct aac_get_name *) fib_data(cmd_fibcontext);

	dinfo->command = cpu_to_le32(VM_ContainerConfig);
	dinfo->type = cpu_to_le32(CT_READ_NAME);
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	dinfo->cid = cpu_to_le32(scmd_id(scsicmd));
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	dinfo->count = cpu_to_le32(sizeof(((struct aac_get_name_resp *)NULL)->data));

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	status = aac_fib_send(ContainerCommand,
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		  cmd_fibcontext, 
		  sizeof (struct aac_get_name),
		  FsaNormal, 
		  0, 1, 
		  (fib_callback) get_container_name_callback, 
		  (void *) scsicmd);
	
	/*
	 *	Check that the command queued to the controller
	 */
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	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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		return 0;
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	}
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	printk(KERN_WARNING "aac_get_container_name: aac_fib_send failed with status: %d.\n", status);
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
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	return -1;
}

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static int aac_probe_container_callback2(struct scsi_cmnd * scsicmd)
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{
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	struct fsa_dev_info *fsa_dev_ptr = ((struct aac_dev *)(scsicmd->device->host->hostdata))->fsa_dev;
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	if ((fsa_dev_ptr[scmd_id(scsicmd)].valid & 1))
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		return aac_scsi_cmd(scsicmd);
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	scsicmd->result = DID_NO_CONNECT << 16;
	scsicmd->scsi_done(scsicmd);
	return 0;
}

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static void _aac_probe_container2(void * context, struct fib * fibptr)
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{
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	struct fsa_dev_info *fsa_dev_ptr;
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	int (*callback)(struct scsi_cmnd *);
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	struct scsi_cmnd * scsicmd = (struct scsi_cmnd *)context;


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	if (!aac_valid_context(scsicmd, fibptr))
		return;
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	scsicmd->SCp.Status = 0;
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	fsa_dev_ptr = fibptr->dev->fsa_dev;
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	if (fsa_dev_ptr) {
		struct aac_mount * dresp = (struct aac_mount *) fib_data(fibptr);
		fsa_dev_ptr += scmd_id(scsicmd);

		if ((le32_to_cpu(dresp->status) == ST_OK) &&
		    (le32_to_cpu(dresp->mnt[0].vol) != CT_NONE) &&
		    (le32_to_cpu(dresp->mnt[0].state) != FSCS_HIDDEN)) {
			fsa_dev_ptr->valid = 1;
			fsa_dev_ptr->type = le32_to_cpu(dresp->mnt[0].vol);
			fsa_dev_ptr->size
			  = ((u64)le32_to_cpu(dresp->mnt[0].capacity)) +
			    (((u64)le32_to_cpu(dresp->mnt[0].capacityhigh)) << 32);
			fsa_dev_ptr->ro = ((le32_to_cpu(dresp->mnt[0].state) & FSCS_READONLY) != 0);
		}
		if ((fsa_dev_ptr->valid & 1) == 0)
			fsa_dev_ptr->valid = 0;
		scsicmd->SCp.Status = le32_to_cpu(dresp->count);
	}
	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
	callback = (int (*)(struct scsi_cmnd *))(scsicmd->SCp.ptr);
	scsicmd->SCp.ptr = NULL;
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	(*callback)(scsicmd);
	return;
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}

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static void _aac_probe_container1(void * context, struct fib * fibptr)
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{
	struct scsi_cmnd * scsicmd;
	struct aac_mount * dresp;
	struct aac_query_mount *dinfo;
	int status;

	dresp = (struct aac_mount *) fib_data(fibptr);
	dresp->mnt[0].capacityhigh = 0;
	if ((le32_to_cpu(dresp->status) != ST_OK) ||
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	    (le32_to_cpu(dresp->mnt[0].vol) != CT_NONE)) {
		_aac_probe_container2(context, fibptr);
		return;
	}
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	scsicmd = (struct scsi_cmnd *) context;
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	if (!aac_valid_context(scsicmd, fibptr))
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		return;
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	aac_fib_init(fibptr);
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	dinfo = (struct aac_query_mount *)fib_data(fibptr);

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	dinfo->command = cpu_to_le32(VM_NameServe64);
	dinfo->count = cpu_to_le32(scmd_id(scsicmd));
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	dinfo->type = cpu_to_le32(FT_FILESYS);

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	status = aac_fib_send(ContainerCommand,
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			  fibptr,
			  sizeof(struct aac_query_mount),
			  FsaNormal,
			  0, 1,
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			  _aac_probe_container2,
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			  (void *) scsicmd);
	/*
	 *	Check that the command queued to the controller
	 */
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	if (status == -EINPROGRESS)
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		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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	else if (status < 0) {
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		/* Inherit results from VM_NameServe, if any */
		dresp->status = cpu_to_le32(ST_OK);
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		_aac_probe_container2(context, fibptr);
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	}
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}
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static int _aac_probe_container(struct scsi_cmnd * scsicmd, int (*callback)(struct scsi_cmnd *))
{
	struct fib * fibptr;
	int status = -ENOMEM;

	if ((fibptr = aac_fib_alloc((struct aac_dev *)scsicmd->device->host->hostdata))) {
		struct aac_query_mount *dinfo;

		aac_fib_init(fibptr);

		dinfo = (struct aac_query_mount *)fib_data(fibptr);
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		dinfo->command = cpu_to_le32(VM_NameServe);
		dinfo->count = cpu_to_le32(scmd_id(scsicmd));
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		dinfo->type = cpu_to_le32(FT_FILESYS);
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		scsicmd->SCp.ptr = (char *)callback;
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		status = aac_fib_send(ContainerCommand,
			  fibptr,
			  sizeof(struct aac_query_mount),
			  FsaNormal,
			  0, 1,
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			  _aac_probe_container1,
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			  (void *) scsicmd);
		/*
		 *	Check that the command queued to the controller
		 */
		if (status == -EINPROGRESS) {
			scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
			return 0;
		}
		if (status < 0) {
			scsicmd->SCp.ptr = NULL;
			aac_fib_complete(fibptr);
			aac_fib_free(fibptr);
		}
	}
	if (status < 0) {
		struct fsa_dev_info *fsa_dev_ptr = ((struct aac_dev *)(scsicmd->device->host->hostdata))->fsa_dev;
		if (fsa_dev_ptr) {
			fsa_dev_ptr += scmd_id(scsicmd);
			if ((fsa_dev_ptr->valid & 1) == 0) {
				fsa_dev_ptr->valid = 0;
				return (*callback)(scsicmd);
			}
		}
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	}
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	return status;
}
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/**
 *	aac_probe_container		-	query a logical volume
 *	@dev: device to query
 *	@cid: container identifier
 *
 *	Queries the controller about the given volume. The volume information
 *	is updated in the struct fsa_dev_info structure rather than returned.
 */
static int aac_probe_container_callback1(struct scsi_cmnd * scsicmd)
{
	scsicmd->device = NULL;
	return 0;
}
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int aac_probe_container(struct aac_dev *dev, int cid)
{
	struct scsi_cmnd *scsicmd = kmalloc(sizeof(*scsicmd), GFP_KERNEL);
	struct scsi_device *scsidev = kmalloc(sizeof(*scsidev), GFP_KERNEL);
	int status;

	if (!scsicmd || !scsidev) {
		kfree(scsicmd);
		kfree(scsidev);
		return -ENOMEM;
	}
	scsicmd->list.next = NULL;
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	scsicmd->scsi_done = (void (*)(struct scsi_cmnd*))aac_probe_container_callback1;
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	scsicmd->device = scsidev;
	scsidev->sdev_state = 0;
	scsidev->id = cid;
	scsidev->host = dev->scsi_host_ptr;

	if (_aac_probe_container(scsicmd, aac_probe_container_callback1) == 0)
		while (scsicmd->device == scsidev)
			schedule();
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	kfree(scsidev);
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	status = scsicmd->SCp.Status;
	kfree(scsicmd);
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	return status;
}

/* Local Structure to set SCSI inquiry data strings */
struct scsi_inq {
	char vid[8];         /* Vendor ID */
	char pid[16];        /* Product ID */
	char prl[4];         /* Product Revision Level */
};

/**
 *	InqStrCopy	-	string merge
 *	@a:	string to copy from
 *	@b:	string to copy to
 *
 * 	Copy a String from one location to another
 *	without copying \0
 */

static void inqstrcpy(char *a, char *b)
{

	while(*a != (char)0) 
		*b++ = *a++;
}

static char *container_types[] = {
        "None",
        "Volume",
        "Mirror",
        "Stripe",
        "RAID5",
        "SSRW",
        "SSRO",
        "Morph",
        "Legacy",
        "RAID4",
        "RAID10",             
        "RAID00",             
        "V-MIRRORS",          
        "PSEUDO R4",          
	"RAID50",
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	"RAID5D",
	"RAID5D0",
	"RAID1E",
	"RAID6",
	"RAID60",
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        "Unknown"
};



/* Function: setinqstr
 *
 * Arguments: [1] pointer to void [1] int
 *
 * Purpose: Sets SCSI inquiry data strings for vendor, product
 * and revision level. Allows strings to be set in platform dependant
 * files instead of in OS dependant driver source.
 */

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static void setinqstr(struct aac_dev *dev, void *data, int tindex)
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{
	struct scsi_inq *str;

	str = (struct scsi_inq *)(data); /* cast data to scsi inq block */
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	memset(str, ' ', sizeof(*str));

	if (dev->supplement_adapter_info.AdapterTypeText[0]) {
		char * cp = dev->supplement_adapter_info.AdapterTypeText;
		int c = sizeof(str->vid);
		while (*cp && *cp != ' ' && --c)
			++cp;
		c = *cp;
		*cp = '\0';
		inqstrcpy (dev->supplement_adapter_info.AdapterTypeText,
		  str->vid); 
		*cp = c;
		while (*cp && *cp != ' ')
			++cp;
		while (*cp == ' ')
			++cp;
		/* last six chars reserved for vol type */
		c = 0;
		if (strlen(cp) > sizeof(str->pid)) {
			c = cp[sizeof(str->pid)];
			cp[sizeof(str->pid)] = '\0';
		}
		inqstrcpy (cp, str->pid);
		if (c)
			cp[sizeof(str->pid)] = c;
	} else {
		struct aac_driver_ident *mp = aac_get_driver_ident(dev->cardtype);
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		inqstrcpy (mp->vname, str->vid);
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		/* last six chars reserved for vol type */
		inqstrcpy (mp->model, str->pid);
	}
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	if (tindex < ARRAY_SIZE(container_types)){
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		char *findit = str->pid;

		for ( ; *findit != ' '; findit++); /* walk till we find a space */
		/* RAID is superfluous in the context of a RAID device */
		if (memcmp(findit-4, "RAID", 4) == 0)
			*(findit -= 4) = ' ';
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		if (((findit - str->pid) + strlen(container_types[tindex]))
		 < (sizeof(str->pid) + sizeof(str->prl)))
			inqstrcpy (container_types[tindex], findit + 1);
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	}
	inqstrcpy ("V1.0", str->prl);
}

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static void get_container_serial_callback(void *context, struct fib * fibptr)
{
	struct aac_get_serial_resp * get_serial_reply;
	struct scsi_cmnd * scsicmd;

	BUG_ON(fibptr == NULL);

	scsicmd = (struct scsi_cmnd *) context;
	if (!aac_valid_context(scsicmd, fibptr))
		return;

	get_serial_reply = (struct aac_get_serial_resp *) fib_data(fibptr);
	/* Failure is irrelevant, using default value instead */
	if (le32_to_cpu(get_serial_reply->status) == CT_OK) {
		char sp[13];
		/* EVPD bit set */
		sp[0] = INQD_PDT_DA;
		sp[1] = scsicmd->cmnd[2];
		sp[2] = 0;
		sp[3] = snprintf(sp+4, sizeof(sp)-4, "%08X",
		  le32_to_cpu(get_serial_reply->uid));
		aac_internal_transfer(scsicmd, sp, 0, sizeof(sp));
	}

	scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;

	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
	scsicmd->scsi_done(scsicmd);
}

/**
 *	aac_get_container_serial - get container serial, none blocking.
 */
static int aac_get_container_serial(struct scsi_cmnd * scsicmd)
{
	int status;
	struct aac_get_serial *dinfo;
	struct fib * cmd_fibcontext;
	struct aac_dev * dev;

	dev = (struct aac_dev *)scsicmd->device->host->hostdata;

	if (!(cmd_fibcontext = aac_fib_alloc(dev)))
		return -ENOMEM;

	aac_fib_init(cmd_fibcontext);
	dinfo = (struct aac_get_serial *) fib_data(cmd_fibcontext);

	dinfo->command = cpu_to_le32(VM_ContainerConfig);
	dinfo->type = cpu_to_le32(CT_CID_TO_32BITS_UID);
	dinfo->cid = cpu_to_le32(scmd_id(scsicmd));

	status = aac_fib_send(ContainerCommand,
		  cmd_fibcontext,
		  sizeof (struct aac_get_serial),
		  FsaNormal,
		  0, 1,
		  (fib_callback) get_container_serial_callback,
		  (void *) scsicmd);

	/*
	 *	Check that the command queued to the controller
	 */
	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
		return 0;
	}

	printk(KERN_WARNING "aac_get_container_serial: aac_fib_send failed with status: %d.\n", status);
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
	return -1;
}

/* Function: setinqserial
 *
 * Arguments: [1] pointer to void [1] int
 *
 * Purpose: Sets SCSI Unit Serial number.
 *          This is a fake. We should read a proper
 *          serial number from the container. <SuSE>But
 *          without docs it's quite hard to do it :-)
 *          So this will have to do in the meantime.</SuSE>
 */

static int setinqserial(struct aac_dev *dev, void *data, int cid)
{
	/*
	 *	This breaks array migration.
	 */
	return snprintf((char *)(data), sizeof(struct scsi_inq) - 4, "%08X%02X",
			le32_to_cpu(dev->adapter_info.serial[0]), cid);
}

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static void set_sense(u8 *sense_buf, u8 sense_key, u8 sense_code,
		      u8 a_sense_code, u8 incorrect_length,
		      u8 bit_pointer, u16 field_pointer,
		      u32 residue)
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{
	sense_buf[0] = 0xF0;	/* Sense data valid, err code 70h (current error) */
	sense_buf[1] = 0;	/* Segment number, always zero */

	if (incorrect_length) {
		sense_buf[2] = sense_key | 0x20;/* Set ILI bit | sense key */
		sense_buf[3] = BYTE3(residue);
		sense_buf[4] = BYTE2(residue);
		sense_buf[5] = BYTE1(residue);
		sense_buf[6] = BYTE0(residue);
	} else
		sense_buf[2] = sense_key;	/* Sense key */

	if (sense_key == ILLEGAL_REQUEST)
		sense_buf[7] = 10;	/* Additional sense length */
	else
		sense_buf[7] = 6;	/* Additional sense length */

	sense_buf[12] = sense_code;	/* Additional sense code */
	sense_buf[13] = a_sense_code;	/* Additional sense code qualifier */
	if (sense_key == ILLEGAL_REQUEST) {
		sense_buf[15] = 0;

		if (sense_code == SENCODE_INVALID_PARAM_FIELD)
			sense_buf[15] = 0x80;/* Std sense key specific field */
		/* Illegal parameter is in the parameter block */

		if (sense_code == SENCODE_INVALID_CDB_FIELD)
			sense_buf[15] = 0xc0;/* Std sense key specific field */
		/* Illegal parameter is in the CDB block */
		sense_buf[15] |= bit_pointer;
		sense_buf[16] = field_pointer >> 8;	/* MSB */
		sense_buf[17] = field_pointer;		/* LSB */
	}
}

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static int aac_bounds_32(struct aac_dev * dev, struct scsi_cmnd * cmd, u64 lba)
{
	if (lba & 0xffffffff00000000LL) {
		int cid = scmd_id(cmd);
		dprintk((KERN_DEBUG "aacraid: Illegal lba\n"));
		cmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 |
			SAM_STAT_CHECK_CONDITION;
		set_sense((u8 *) &dev->fsa_dev[cid].sense_data,
			    HARDWARE_ERROR,
			    SENCODE_INTERNAL_TARGET_FAILURE,
			    ASENCODE_INTERNAL_TARGET_FAILURE, 0, 0,
			    0, 0);
		memcpy(cmd->sense_buffer, &dev->fsa_dev[cid].sense_data,
		  (sizeof(dev->fsa_dev[cid].sense_data) > sizeof(cmd->sense_buffer))
		    ? sizeof(cmd->sense_buffer)
		    : sizeof(dev->fsa_dev[cid].sense_data));
		cmd->scsi_done(cmd);
		return 1;
	}
	return 0;
}

static int aac_bounds_64(struct aac_dev * dev, struct scsi_cmnd * cmd, u64 lba)
{
	return 0;
}

static void io_callback(void *context, struct fib * fibptr);

static int aac_read_raw_io(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count)
{
	u16 fibsize;
	struct aac_raw_io *readcmd;
	aac_fib_init(fib);
	readcmd = (struct aac_raw_io *) fib_data(fib);
	readcmd->block[0] = cpu_to_le32((u32)(lba&0xffffffff));
	readcmd->block[1] = cpu_to_le32((u32)((lba&0xffffffff00000000LL)>>32));
	readcmd->count = cpu_to_le32(count<<9);
	readcmd->cid = cpu_to_le16(scmd_id(cmd));
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	readcmd->flags = cpu_to_le16(IO_TYPE_READ);
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	readcmd->bpTotal = 0;
	readcmd->bpComplete = 0;

	aac_build_sgraw(cmd, &readcmd->sg);
	fibsize = sizeof(struct aac_raw_io) + ((le32_to_cpu(readcmd->sg.count) - 1) * sizeof (struct sgentryraw));
	BUG_ON(fibsize > (fib->dev->max_fib_size - sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerRawIo,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

static int aac_read_block64(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count)
{
	u16 fibsize;
	struct aac_read64 *readcmd;
	aac_fib_init(fib);
	readcmd = (struct aac_read64 *) fib_data(fib);
	readcmd->command = cpu_to_le32(VM_CtHostRead64);
	readcmd->cid = cpu_to_le16(scmd_id(cmd));
	readcmd->sector_count = cpu_to_le16(count);
	readcmd->block = cpu_to_le32((u32)(lba&0xffffffff));
	readcmd->pad   = 0;
	readcmd->flags = 0;

	aac_build_sg64(cmd, &readcmd->sg);
	fibsize = sizeof(struct aac_read64) +
		((le32_to_cpu(readcmd->sg.count) - 1) *
		 sizeof (struct sgentry64));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerCommand64,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

static int aac_read_block(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count)
{
	u16 fibsize;
	struct aac_read *readcmd;
	aac_fib_init(fib);
	readcmd = (struct aac_read *) fib_data(fib);
	readcmd->command = cpu_to_le32(VM_CtBlockRead);
	readcmd->cid = cpu_to_le16(scmd_id(cmd));
	readcmd->block = cpu_to_le32((u32)(lba&0xffffffff));
	readcmd->count = cpu_to_le32(count * 512);

	aac_build_sg(cmd, &readcmd->sg);
	fibsize = sizeof(struct aac_read) +
			((le32_to_cpu(readcmd->sg.count) - 1) *
			 sizeof (struct sgentry));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerCommand,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

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static int aac_write_raw_io(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count, int fua)
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{
	u16 fibsize;
	struct aac_raw_io *writecmd;
	aac_fib_init(fib);
	writecmd = (struct aac_raw_io *) fib_data(fib);
	writecmd->block[0] = cpu_to_le32((u32)(lba&0xffffffff));
	writecmd->block[1] = cpu_to_le32((u32)((lba&0xffffffff00000000LL)>>32));
	writecmd->count = cpu_to_le32(count<<9);
	writecmd->cid = cpu_to_le16(scmd_id(cmd));
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	writecmd->flags = fua ?
		cpu_to_le16(IO_TYPE_WRITE|IO_SUREWRITE) :
		cpu_to_le16(IO_TYPE_WRITE);
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	writecmd->bpTotal = 0;
	writecmd->bpComplete = 0;

	aac_build_sgraw(cmd, &writecmd->sg);
	fibsize = sizeof(struct aac_raw_io) + ((le32_to_cpu(writecmd->sg.count) - 1) * sizeof (struct sgentryraw));
	BUG_ON(fibsize > (fib->dev->max_fib_size - sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerRawIo,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

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static int aac_write_block64(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count, int fua)
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{
	u16 fibsize;
	struct aac_write64 *writecmd;
	aac_fib_init(fib);
	writecmd = (struct aac_write64 *) fib_data(fib);
	writecmd->command = cpu_to_le32(VM_CtHostWrite64);
	writecmd->cid = cpu_to_le16(scmd_id(cmd));
	writecmd->sector_count = cpu_to_le16(count);
	writecmd->block = cpu_to_le32((u32)(lba&0xffffffff));
	writecmd->pad	= 0;
	writecmd->flags	= 0;

	aac_build_sg64(cmd, &writecmd->sg);
	fibsize = sizeof(struct aac_write64) +
		((le32_to_cpu(writecmd->sg.count) - 1) *
		 sizeof (struct sgentry64));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerCommand64,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

1068
static int aac_write_block(struct fib * fib, struct scsi_cmnd * cmd, u64 lba, u32 count, int fua)
1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144
{
	u16 fibsize;
	struct aac_write *writecmd;
	aac_fib_init(fib);
	writecmd = (struct aac_write *) fib_data(fib);
	writecmd->command = cpu_to_le32(VM_CtBlockWrite);
	writecmd->cid = cpu_to_le16(scmd_id(cmd));
	writecmd->block = cpu_to_le32((u32)(lba&0xffffffff));
	writecmd->count = cpu_to_le32(count * 512);
	writecmd->sg.count = cpu_to_le32(1);
	/* ->stable is not used - it did mean which type of write */

	aac_build_sg(cmd, &writecmd->sg);
	fibsize = sizeof(struct aac_write) +
		((le32_to_cpu(writecmd->sg.count) - 1) *
		 sizeof (struct sgentry));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));
	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ContainerCommand,
			  fib,
			  fibsize,
			  FsaNormal,
			  0, 1,
			  (fib_callback) io_callback,
			  (void *) cmd);
}

static struct aac_srb * aac_scsi_common(struct fib * fib, struct scsi_cmnd * cmd)
{
	struct aac_srb * srbcmd;
	u32 flag;
	u32 timeout;

	aac_fib_init(fib);
	switch(cmd->sc_data_direction){
	case DMA_TO_DEVICE:
		flag = SRB_DataOut;
		break;
	case DMA_BIDIRECTIONAL:
		flag = SRB_DataIn | SRB_DataOut;
		break;
	case DMA_FROM_DEVICE:
		flag = SRB_DataIn;
		break;
	case DMA_NONE:
	default:	/* shuts up some versions of gcc */
		flag = SRB_NoDataXfer;
		break;
	}

	srbcmd = (struct aac_srb*) fib_data(fib);
	srbcmd->function = cpu_to_le32(SRBF_ExecuteScsi);
	srbcmd->channel  = cpu_to_le32(aac_logical_to_phys(scmd_channel(cmd)));
	srbcmd->id       = cpu_to_le32(scmd_id(cmd));
	srbcmd->lun      = cpu_to_le32(cmd->device->lun);
	srbcmd->flags    = cpu_to_le32(flag);
	timeout = cmd->timeout_per_command/HZ;
	if (timeout == 0)
		timeout = 1;
	srbcmd->timeout  = cpu_to_le32(timeout);  // timeout in seconds
	srbcmd->retry_limit = 0; /* Obsolete parameter */
	srbcmd->cdb_size = cpu_to_le32(cmd->cmd_len);
	return srbcmd;
}

static void aac_srb_callback(void *context, struct fib * fibptr);

static int aac_scsi_64(struct fib * fib, struct scsi_cmnd * cmd)
{
	u16 fibsize;
	struct aac_srb * srbcmd = aac_scsi_common(fib, cmd);

	aac_build_sg64(cmd, (struct sgmap64*) &srbcmd->sg);
1145
	srbcmd->count = cpu_to_le32(scsi_bufflen(cmd));
1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172

	memset(srbcmd->cdb, 0, sizeof(srbcmd->cdb));
	memcpy(srbcmd->cdb, cmd->cmnd, cmd->cmd_len);
	/*
	 *	Build Scatter/Gather list
	 */
	fibsize = sizeof (struct aac_srb) - sizeof (struct sgentry) +
		((le32_to_cpu(srbcmd->sg.count) & 0xff) *
		 sizeof (struct sgentry64));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));

	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ScsiPortCommand64, fib,
				fibsize, FsaNormal, 0, 1,
				  (fib_callback) aac_srb_callback,
				  (void *) cmd);
}

static int aac_scsi_32(struct fib * fib, struct scsi_cmnd * cmd)
{
	u16 fibsize;
	struct aac_srb * srbcmd = aac_scsi_common(fib, cmd);

	aac_build_sg(cmd, (struct sgmap*)&srbcmd->sg);
1173
	srbcmd->count = cpu_to_le32(scsi_bufflen(cmd));
1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192

	memset(srbcmd->cdb, 0, sizeof(srbcmd->cdb));
	memcpy(srbcmd->cdb, cmd->cmnd, cmd->cmd_len);
	/*
	 *	Build Scatter/Gather list
	 */
	fibsize = sizeof (struct aac_srb) +
		(((le32_to_cpu(srbcmd->sg.count) & 0xff) - 1) *
		 sizeof (struct sgentry));
	BUG_ON (fibsize > (fib->dev->max_fib_size -
				sizeof(struct aac_fibhdr)));

	/*
	 *	Now send the Fib to the adapter
	 */
	return aac_fib_send(ScsiPortCommand, fib, fibsize, FsaNormal, 0, 1,
				  (fib_callback) aac_srb_callback, (void *) cmd);
}

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int aac_get_adapter_info(struct aac_dev* dev)
{
	struct fib* fibptr;
	int rcode;
	u32 tmp;
1198 1199 1200
	struct aac_adapter_info *info;
	struct aac_bus_info *command;
	struct aac_bus_info_response *bus_info;
1201

1202
	if (!(fibptr = aac_fib_alloc(dev)))
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		return -ENOMEM;

1205
	aac_fib_init(fibptr);
1206 1207
	info = (struct aac_adapter_info *) fib_data(fibptr);
	memset(info,0,sizeof(*info));
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1209
	rcode = aac_fib_send(RequestAdapterInfo,
1210 1211 1212
			 fibptr, 
			 sizeof(*info),
			 FsaNormal, 
1213
			 -1, 1, /* First `interrupt' command uses special wait */
1214 1215 1216 1217
			 NULL, 
			 NULL);

	if (rcode < 0) {
1218 1219
		aac_fib_complete(fibptr);
		aac_fib_free(fibptr);
1220 1221 1222
		return rcode;
	}
	memcpy(&dev->adapter_info, info, sizeof(*info));
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	if (dev->adapter_info.options & AAC_OPT_SUPPLEMENT_ADAPTER_INFO) {
		struct aac_supplement_adapter_info * info;

1227
		aac_fib_init(fibptr);
1228 1229 1230 1231 1232

		info = (struct aac_supplement_adapter_info *) fib_data(fibptr);

		memset(info,0,sizeof(*info));

1233
		rcode = aac_fib_send(RequestSupplementAdapterInfo,
1234 1235 1236 1237 1238 1239 1240 1241 1242 1243
				 fibptr,
				 sizeof(*info),
				 FsaNormal,
				 1, 1,
				 NULL,
				 NULL);

		if (rcode >= 0)
			memcpy(&dev->supplement_adapter_info, info, sizeof(*info));
	}
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1245 1246 1247 1248 1249

	/* 
	 * GetBusInfo 
	 */

1250
	aac_fib_init(fibptr);
1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262

	bus_info = (struct aac_bus_info_response *) fib_data(fibptr);

	memset(bus_info, 0, sizeof(*bus_info));

	command = (struct aac_bus_info *)bus_info;

	command->Command = cpu_to_le32(VM_Ioctl);
	command->ObjType = cpu_to_le32(FT_DRIVE);
	command->MethodId = cpu_to_le32(1);
	command->CtlCmd = cpu_to_le32(GetBusInfo);

1263
	rcode = aac_fib_send(ContainerCommand,
1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274
			 fibptr,
			 sizeof (*bus_info),
			 FsaNormal,
			 1, 1,
			 NULL, NULL);

	if (rcode >= 0 && le32_to_cpu(bus_info->Status) == ST_OK) {
		dev->maximum_num_physicals = le32_to_cpu(bus_info->TargetsPerBus);
		dev->maximum_num_channels = le32_to_cpu(bus_info->BusCount);
	}

1275
	if (!dev->in_reset) {
1276
		char buffer[16];
1277 1278
		tmp = le32_to_cpu(dev->adapter_info.kernelrev);
		printk(KERN_INFO "%s%d: kernel %d.%d-%d[%d] %.*s\n",
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			dev->name, 
			dev->id,
			tmp>>24,
			(tmp>>16)&0xff,
			tmp&0xff,
1284 1285 1286
			le32_to_cpu(dev->adapter_info.kernelbuild),
			(int)sizeof(dev->supplement_adapter_info.BuildDate),
			dev->supplement_adapter_info.BuildDate);
1287 1288
		tmp = le32_to_cpu(dev->adapter_info.monitorrev);
		printk(KERN_INFO "%s%d: monitor %d.%d-%d[%d]\n",
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			dev->name, dev->id,
			tmp>>24,(tmp>>16)&0xff,tmp&0xff,
			le32_to_cpu(dev->adapter_info.monitorbuild));
1292 1293
		tmp = le32_to_cpu(dev->adapter_info.biosrev);
		printk(KERN_INFO "%s%d: bios %d.%d-%d[%d]\n",
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			dev->name, dev->id,
			tmp>>24,(tmp>>16)&0xff,tmp&0xff,
			le32_to_cpu(dev->adapter_info.biosbuild));
1297 1298 1299 1300 1301
		buffer[0] = '\0';
		if (aac_show_serial_number(
		  shost_to_class(dev->scsi_host_ptr), buffer))
			printk(KERN_INFO "%s%d: serial %s",
			  dev->name, dev->id, buffer);
1302 1303 1304 1305 1306 1307
		if (dev->supplement_adapter_info.VpdInfo.Tsid[0]) {
			printk(KERN_INFO "%s%d: TSID %.*s\n",
			  dev->name, dev->id,
			  (int)sizeof(dev->supplement_adapter_info.VpdInfo.Tsid),
			  dev->supplement_adapter_info.VpdInfo.Tsid);
		}
1308 1309 1310 1311 1312 1313
		if (!check_reset ||
		  (dev->supplement_adapter_info.SupportedOptions2 &
		  le32_to_cpu(AAC_OPTION_IGNORE_RESET))) {
			printk(KERN_INFO "%s%d: Reset Adapter Ignored\n",
			  dev->name, dev->id);
		}
1314
	}
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	dev->nondasd_support = 0;
	dev->raid_scsi_mode = 0;
	if(dev->adapter_info.options & AAC_OPT_NONDASD){
		dev->nondasd_support = 1;
	}

	/*
	 * If the firmware supports ROMB RAID/SCSI mode and we are currently
	 * in RAID/SCSI mode, set the flag. For now if in this mode we will
	 * force nondasd support on. If we decide to allow the non-dasd flag
	 * additional changes changes will have to be made to support
	 * RAID/SCSI.  the function aac_scsi_cmd in this module will have to be
	 * changed to support the new dev->raid_scsi_mode flag instead of
	 * leaching off of the dev->nondasd_support flag. Also in linit.c the
	 * function aac_detect will have to be modified where it sets up the
	 * max number of channels based on the aac->nondasd_support flag only.
	 */
	if ((dev->adapter_info.options & AAC_OPT_SCSI_MANAGED) &&
	    (dev->adapter_info.options & AAC_OPT_RAID_SCSI_MODE)) {
		dev->nondasd_support = 1;
		dev->raid_scsi_mode = 1;
	}
	if (dev->raid_scsi_mode != 0)
		printk(KERN_INFO "%s%d: ROMB RAID/SCSI mode enabled\n",
				dev->name, dev->id);
		
	if(nondasd != -1) {  
		dev->nondasd_support = (nondasd!=0);
	}
	if(dev->nondasd_support != 0){
		printk(KERN_INFO "%s%d: Non-DASD support enabled.\n",dev->name, dev->id);
	}

	dev->dac_support = 0;
	if( (sizeof(dma_addr_t) > 4) && (dev->adapter_info.options & AAC_OPT_SGMAP_HOST64)){
		printk(KERN_INFO "%s%d: 64bit support enabled.\n", dev->name, dev->id);
		dev->dac_support = 1;
	}

	if(dacmode != -1) {
		dev->dac_support = (dacmode!=0);
	}
	if(dev->dac_support != 0) {
1359 1360
		if (!pci_set_dma_mask(dev->pdev, DMA_64BIT_MASK) &&
			!pci_set_consistent_dma_mask(dev->pdev, DMA_64BIT_MASK)) {
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			printk(KERN_INFO"%s%d: 64 Bit DAC enabled\n",
				dev->name, dev->id);
1363 1364
		} else if (!pci_set_dma_mask(dev->pdev, DMA_32BIT_MASK) &&
			!pci_set_consistent_dma_mask(dev->pdev, DMA_32BIT_MASK)) {
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			printk(KERN_INFO"%s%d: DMA mask set failed, 64 Bit DAC disabled\n",
				dev->name, dev->id);
			dev->dac_support = 0;
		} else {
			printk(KERN_WARNING"%s%d: No suitable DMA available.\n",
				dev->name, dev->id);
			rcode = -ENOMEM;
		}
	}
1374
	/* 
1375 1376
	 * Deal with configuring for the individualized limits of each packet
	 * interface.
1377
	 */
1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388
	dev->a_ops.adapter_scsi = (dev->dac_support)
				? aac_scsi_64
				: aac_scsi_32;
	if (dev->raw_io_interface) {
		dev->a_ops.adapter_bounds = (dev->raw_io_64)
					? aac_bounds_64
					: aac_bounds_32;
		dev->a_ops.adapter_read = aac_read_raw_io;
		dev->a_ops.adapter_write = aac_write_raw_io;
	} else {
		dev->a_ops.adapter_bounds = aac_bounds_32;
1389
		dev->scsi_host_ptr->sg_tablesize = (dev->max_fib_size -
1390
			sizeof(struct aac_fibhdr) -
1391 1392
			sizeof(struct aac_write) + sizeof(struct sgentry)) /
				sizeof(struct sgentry);
1393
		if (dev->dac_support) {
1394 1395
			dev->a_ops.adapter_read = aac_read_block64;
			dev->a_ops.adapter_write = aac_write_block64;
1396 1397 1398 1399 1400 1401 1402
			/* 
			 * 38 scatter gather elements 
			 */
			dev->scsi_host_ptr->sg_tablesize =
				(dev->max_fib_size -
				sizeof(struct aac_fibhdr) -
				sizeof(struct aac_write64) +
1403 1404
				sizeof(struct sgentry64)) /
					sizeof(struct sgentry64);
1405 1406 1407
		} else {
			dev->a_ops.adapter_read = aac_read_block;
			dev->a_ops.adapter_write = aac_write_block;
1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422
		}
		dev->scsi_host_ptr->max_sectors = AAC_MAX_32BIT_SGBCOUNT;
		if(!(dev->adapter_info.options & AAC_OPT_NEW_COMM)) {
			/*
			 * Worst case size that could cause sg overflow when
			 * we break up SG elements that are larger than 64KB.
			 * Would be nice if we could tell the SCSI layer what
			 * the maximum SG element size can be. Worst case is
			 * (sg_tablesize-1) 4KB elements with one 64KB
			 * element.
			 *	32bit -> 468 or 238KB	64bit -> 424 or 212KB
			 */
			dev->scsi_host_ptr->max_sectors =
			  (dev->scsi_host_ptr->sg_tablesize * 8) + 112;
		}
1423
	}
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1425 1426
	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
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	return rcode;
}


1432
static void io_callback(void *context, struct fib * fibptr)
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{
	struct aac_dev *dev;
	struct aac_read_reply *readreply;
	struct scsi_cmnd *scsicmd;
	u32 cid;

	scsicmd = (struct scsi_cmnd *) context;

1441 1442 1443
	if (!aac_valid_context(scsicmd, fibptr))
		return;

1444
	dev = fibptr->dev;
1445
	cid = scmd_id(scsicmd);
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1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480
	if (nblank(dprintk(x))) {
		u64 lba;
		switch (scsicmd->cmnd[0]) {
		case WRITE_6:
		case READ_6:
			lba = ((scsicmd->cmnd[1] & 0x1F) << 16) |
			    (scsicmd->cmnd[2] << 8) | scsicmd->cmnd[3];
			break;
		case WRITE_16:
		case READ_16:
			lba = ((u64)scsicmd->cmnd[2] << 56) |
			      ((u64)scsicmd->cmnd[3] << 48) |
			      ((u64)scsicmd->cmnd[4] << 40) |
			      ((u64)scsicmd->cmnd[5] << 32) |
			      ((u64)scsicmd->cmnd[6] << 24) |
			      (scsicmd->cmnd[7] << 16) |
			      (scsicmd->cmnd[8] << 8) | scsicmd->cmnd[9];
			break;
		case WRITE_12:
		case READ_12:
			lba = ((u64)scsicmd->cmnd[2] << 24) |
			      (scsicmd->cmnd[3] << 16) |
			      (scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
			break;
		default:
			lba = ((u64)scsicmd->cmnd[2] << 24) |
			       (scsicmd->cmnd[3] << 16) |
			       (scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
			break;
		}
		printk(KERN_DEBUG
		  "io_callback[cpu %d]: lba = %llu, t = %ld.\n",
		  smp_processor_id(), (unsigned long long)lba, jiffies);
	}
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	BUG_ON(fibptr == NULL);
1483 1484 1485

	scsi_dma_unmap(scsicmd);

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	readreply = (struct aac_read_reply *)fib_data(fibptr);
	if (le32_to_cpu(readreply->status) == ST_OK)
		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
	else {
1490
#ifdef AAC_DETAILED_STATUS_INFO
1491
		printk(KERN_WARNING "io_callback: io failed, status = %d\n",
1492 1493
		  le32_to_cpu(readreply->status));
#endif
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		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_CHECK_CONDITION;
		set_sense((u8 *) &dev->fsa_dev[cid].sense_data,
				    HARDWARE_ERROR,
				    SENCODE_INTERNAL_TARGET_FAILURE,
				    ASENCODE_INTERNAL_TARGET_FAILURE, 0, 0,
				    0, 0);
		memcpy(scsicmd->sense_buffer, &dev->fsa_dev[cid].sense_data,
		  (sizeof(dev->fsa_dev[cid].sense_data) > sizeof(scsicmd->sense_buffer))
		    ? sizeof(scsicmd->sense_buffer)
		    : sizeof(dev->fsa_dev[cid].sense_data));
	}
1505 1506
	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
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1508
	scsicmd->scsi_done(scsicmd);
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}

1511
static int aac_read(struct scsi_cmnd * scsicmd)
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{
1513
	u64 lba;
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	u32 count;
	int status;
	struct aac_dev *dev;
	struct fib * cmd_fibcontext;

	dev = (struct aac_dev *)scsicmd->device->host->hostdata;
	/*
	 *	Get block address and transfer length
	 */
1523 1524
	switch (scsicmd->cmnd[0]) {
	case READ_6:
1525
		dprintk((KERN_DEBUG "aachba: received a read(6) command on id %d.\n", scmd_id(scsicmd)));
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1527 1528
		lba = ((scsicmd->cmnd[1] & 0x1F) << 16) | 
			(scsicmd->cmnd[2] << 8) | scsicmd->cmnd[3];
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		count = scsicmd->cmnd[4];

		if (count == 0)
			count = 256;
1533 1534
		break;
	case READ_16:
1535
		dprintk((KERN_DEBUG "aachba: received a read(16) command on id %d.\n", scmd_id(scsicmd)));
1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548

		lba = 	((u64)scsicmd->cmnd[2] << 56) |
		 	((u64)scsicmd->cmnd[3] << 48) |
			((u64)scsicmd->cmnd[4] << 40) |
			((u64)scsicmd->cmnd[5] << 32) |
			((u64)scsicmd->cmnd[6] << 24) | 
			(scsicmd->cmnd[7] << 16) |
			(scsicmd->cmnd[8] << 8) | scsicmd->cmnd[9];
		count = (scsicmd->cmnd[10] << 24) | 
			(scsicmd->cmnd[11] << 16) |
			(scsicmd->cmnd[12] << 8) | scsicmd->cmnd[13];
		break;
	case READ_12:
1549
		dprintk((KERN_DEBUG "aachba: received a read(12) command on id %d.\n", scmd_id(scsicmd)));
1550 1551 1552 1553 1554 1555 1556 1557 1558

		lba = ((u64)scsicmd->cmnd[2] << 24) | 
			(scsicmd->cmnd[3] << 16) |
		    	(scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
		count = (scsicmd->cmnd[6] << 24) | 
			(scsicmd->cmnd[7] << 16) |
		      	(scsicmd->cmnd[8] << 8) | scsicmd->cmnd[9];
		break;
	default:
1559
		dprintk((KERN_DEBUG "aachba: received a read(10) command on id %d.\n", scmd_id(scsicmd)));
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1561 1562 1563
		lba = ((u64)scsicmd->cmnd[2] << 24) | 
			(scsicmd->cmnd[3] << 16) | 
			(scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
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1564
		count = (scsicmd->cmnd[7] << 8) | scsicmd->cmnd[8];
1565
		break;
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	}
1567
	dprintk((KERN_DEBUG "aac_read[cpu %d]: lba = %llu, t = %ld.\n",
1568
	  smp_processor_id(), (unsigned long long)lba, jiffies));
1569
	if (aac_adapter_bounds(dev,scsicmd,lba))
1570
		return 0;
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	/*
	 *	Alocate and initialize a Fib
	 */
1574
	if (!(cmd_fibcontext = aac_fib_alloc(dev))) {
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		return -1;
	}

1578
	status = aac_adapter_read(cmd_fibcontext, scsicmd, lba, count);
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1579 1580 1581 1582

	/*
	 *	Check that the command queued to the controller
	 */
1583 1584
	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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		return 0;
1586
	}
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1588
	printk(KERN_WARNING "aac_read: aac_fib_send failed with status: %d.\n", status);
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	/*
	 *	For some reason, the Fib didn't queue, return QUEUE_FULL
	 */
	scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_TASK_SET_FULL;
1593
	scsicmd->scsi_done(scsicmd);
1594 1595
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
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	return 0;
}

1599
static int aac_write(struct scsi_cmnd * scsicmd)
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{
1601
	u64 lba;
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1602
	u32 count;
1603
	int fua;
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	int status;
	struct aac_dev *dev;
	struct fib * cmd_fibcontext;

	dev = (struct aac_dev *)scsicmd->device->host->hostdata;
	/*
	 *	Get block address and transfer length
	 */
	if (scsicmd->cmnd[0] == WRITE_6)	/* 6 byte command */
	{
		lba = ((scsicmd->cmnd[1] & 0x1F) << 16) | (scsicmd->cmnd[2] << 8) | scsicmd->cmnd[3];
		count = scsicmd->cmnd[4];
		if (count == 0)
			count = 256;
1618
		fua = 0;
1619
	} else if (scsicmd->cmnd[0] == WRITE_16) { /* 16 byte command */
1620
		dprintk((KERN_DEBUG "aachba: received a write(16) command on id %d.\n", scmd_id(scsicmd)));
1621 1622 1623 1624 1625 1626 1627 1628 1629 1630

		lba = 	((u64)scsicmd->cmnd[2] << 56) |
			((u64)scsicmd->cmnd[3] << 48) |
			((u64)scsicmd->cmnd[4] << 40) |
			((u64)scsicmd->cmnd[5] << 32) |
			((u64)scsicmd->cmnd[6] << 24) | 
			(scsicmd->cmnd[7] << 16) |
			(scsicmd->cmnd[8] << 8) | scsicmd->cmnd[9];
		count = (scsicmd->cmnd[10] << 24) | (scsicmd->cmnd[11] << 16) |
			(scsicmd->cmnd[12] << 8) | scsicmd->cmnd[13];
1631
		fua = scsicmd->cmnd[1] & 0x8;
1632
	} else if (scsicmd->cmnd[0] == WRITE_12) { /* 12 byte command */
1633
		dprintk((KERN_DEBUG "aachba: received a write(12) command on id %d.\n", scmd_id(scsicmd)));
1634 1635 1636 1637 1638

		lba = ((u64)scsicmd->cmnd[2] << 24) | (scsicmd->cmnd[3] << 16)
		    | (scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
		count = (scsicmd->cmnd[6] << 24) | (scsicmd->cmnd[7] << 16)
		      | (scsicmd->cmnd[8] << 8) | scsicmd->cmnd[9];
1639
		fua = scsicmd->cmnd[1] & 0x8;
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	} else {
1641
		dprintk((KERN_DEBUG "aachba: received a write(10) command on id %d.\n", scmd_id(scsicmd)));
1642
		lba = ((u64)scsicmd->cmnd[2] << 24) | (scsicmd->cmnd[3] << 16) | (scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
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		count = (scsicmd->cmnd[7] << 8) | scsicmd->cmnd[8];
1644
		fua = scsicmd->cmnd[1] & 0x8;
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	}
1646
	dprintk((KERN_DEBUG "aac_write[cpu %d]: lba = %llu, t = %ld.\n",
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1647
	  smp_processor_id(), (unsigned long long)lba, jiffies));
1648
	if (aac_adapter_bounds(dev,scsicmd,lba))
1649
		return 0;
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	/*
	 *	Allocate and initialize a Fib then setup a BlockWrite command
	 */
1653
	if (!(cmd_fibcontext = aac_fib_alloc(dev))) {
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1654
		scsicmd->result = DID_ERROR << 16;
1655
		scsicmd->scsi_done(scsicmd);
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		return 0;
	}

1659
	status = aac_adapter_write(cmd_fibcontext, scsicmd, lba, count, fua);
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	/*
	 *	Check that the command queued to the controller
	 */
1664 1665
	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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		return 0;
	}

1669
	printk(KERN_WARNING "aac_write: aac_fib_send failed with status: %d\n", status);
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	/*
	 *	For some reason, the Fib didn't queue, return QUEUE_FULL
	 */
	scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_TASK_SET_FULL;
1674
	scsicmd->scsi_done(scsicmd);
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1675

1676 1677
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
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	return 0;
}

static void synchronize_callback(void *context, struct fib *fibptr)
{
	struct aac_synchronize_reply *synchronizereply;
	struct scsi_cmnd *cmd;

	cmd = context;

1688 1689 1690
	if (!aac_valid_context(cmd, fibptr))
		return;

1691
	dprintk((KERN_DEBUG "synchronize_callback[cpu %d]: t = %ld.\n",
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				smp_processor_id(), jiffies));
	BUG_ON(fibptr == NULL);


	synchronizereply = fib_data(fibptr);
	if (le32_to_cpu(synchronizereply->status) == CT_OK)
1698
		cmd->result = DID_OK << 16 |
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			COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
	else {
		struct scsi_device *sdev = cmd->device;
1702
		struct aac_dev *dev = fibptr->dev;
1703
		u32 cid = sdev_id(sdev);
1704
		printk(KERN_WARNING
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		     "synchronize_callback: synchronize failed, status = %d\n",
		     le32_to_cpu(synchronizereply->status));
1707
		cmd->result = DID_OK << 16 |
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			COMMAND_COMPLETE << 8 | SAM_STAT_CHECK_CONDITION;
		set_sense((u8 *)&dev->fsa_dev[cid].sense_data,
				    HARDWARE_ERROR,
				    SENCODE_INTERNAL_TARGET_FAILURE,
				    ASENCODE_INTERNAL_TARGET_FAILURE, 0, 0,
				    0, 0);
		memcpy(cmd->sense_buffer, &dev->fsa_dev[cid].sense_data,
1715
		  min(sizeof(dev->fsa_dev[cid].sense_data),
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			  sizeof(cmd->sense_buffer)));
	}

1719 1720
	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
1721
	cmd->scsi_done(cmd);
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}

1724
static int aac_synchronize(struct scsi_cmnd *scsicmd)
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{
	int status;
	struct fib *cmd_fibcontext;
	struct aac_synchronize *synchronizecmd;
	struct scsi_cmnd *cmd;
	struct scsi_device *sdev = scsicmd->device;
	int active = 0;
1732
	struct aac_dev *aac;
1733 1734 1735
	u64 lba = ((u64)scsicmd->cmnd[2] << 24) | (scsicmd->cmnd[3] << 16) |
		(scsicmd->cmnd[4] << 8) | scsicmd->cmnd[5];
	u32 count = (scsicmd->cmnd[7] << 8) | scsicmd->cmnd[8];
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	unsigned long flags;

	/*
1739 1740
	 * Wait for all outstanding queued commands to complete to this
	 * specific target (block).
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	 */
	spin_lock_irqsave(&sdev->list_lock, flags);
	list_for_each_entry(cmd, &sdev->cmd_list, list)
1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774 1775 1776 1777 1778 1779 1780 1781 1782 1783 1784 1785 1786 1787 1788
		if (cmd->SCp.phase == AAC_OWNER_FIRMWARE) {
			u64 cmnd_lba;
			u32 cmnd_count;

			if (cmd->cmnd[0] == WRITE_6) {
				cmnd_lba = ((cmd->cmnd[1] & 0x1F) << 16) |
					(cmd->cmnd[2] << 8) |
					cmd->cmnd[3];
				cmnd_count = cmd->cmnd[4];
				if (cmnd_count == 0)
					cmnd_count = 256;
			} else if (cmd->cmnd[0] == WRITE_16) {
				cmnd_lba = ((u64)cmd->cmnd[2] << 56) |
					((u64)cmd->cmnd[3] << 48) |
					((u64)cmd->cmnd[4] << 40) |
					((u64)cmd->cmnd[5] << 32) |
					((u64)cmd->cmnd[6] << 24) |
					(cmd->cmnd[7] << 16) |
					(cmd->cmnd[8] << 8) |
					cmd->cmnd[9];
				cmnd_count = (cmd->cmnd[10] << 24) |
					(cmd->cmnd[11] << 16) |
					(cmd->cmnd[12] << 8) |
					cmd->cmnd[13];
			} else if (cmd->cmnd[0] == WRITE_12) {
				cmnd_lba = ((u64)cmd->cmnd[2] << 24) |
					(cmd->cmnd[3] << 16) |
					(cmd->cmnd[4] << 8) |
					cmd->cmnd[5];
				cmnd_count = (cmd->cmnd[6] << 24) |
					(cmd->cmnd[7] << 16) |
					(cmd->cmnd[8] << 8) |
					cmd->cmnd[9];
			} else if (cmd->cmnd[0] == WRITE_10) {
				cmnd_lba = ((u64)cmd->cmnd[2] << 24) |
					(cmd->cmnd[3] << 16) |
					(cmd->cmnd[4] << 8) |
					cmd->cmnd[5];
				cmnd_count = (cmd->cmnd[7] << 8) |
					cmd->cmnd[8];
			} else
				continue;
			if (((cmnd_lba + cmnd_count) < lba) ||
			  (count && ((lba + count) < cmnd_lba)))
				continue;
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1789 1790 1791 1792 1793 1794 1795 1796 1797 1798 1799 1800
			++active;
			break;
		}

	spin_unlock_irqrestore(&sdev->list_lock, flags);

	/*
	 *	Yield the processor (requeue for later)
	 */
	if (active)
		return SCSI_MLQUEUE_DEVICE_BUSY;

1801
	aac = (struct aac_dev *)scsicmd->device->host->hostdata;
1802 1803 1804
	if (aac->in_reset)
		return SCSI_MLQUEUE_HOST_BUSY;

L
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1805
	/*
1806
	 *	Allocate and initialize a Fib
L
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1807
	 */
1808
	if (!(cmd_fibcontext = aac_fib_alloc(aac)))
L
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1809 1810
		return SCSI_MLQUEUE_HOST_BUSY;

1811
	aac_fib_init(cmd_fibcontext);
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1812 1813 1814 1815

	synchronizecmd = fib_data(cmd_fibcontext);
	synchronizecmd->command = cpu_to_le32(VM_ContainerConfig);
	synchronizecmd->type = cpu_to_le32(CT_FLUSH_CACHE);
1816
	synchronizecmd->cid = cpu_to_le32(scmd_id(scsicmd));
1817
	synchronizecmd->count =
L
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1818 1819 1820 1821 1822
	     cpu_to_le32(sizeof(((struct aac_synchronize_reply *)NULL)->data));

	/*
	 *	Now send the Fib to the adapter
	 */
1823
	status = aac_fib_send(ContainerCommand,
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1824 1825 1826 1827 1828 1829 1830 1831 1832 1833
		  cmd_fibcontext,
		  sizeof(struct aac_synchronize),
		  FsaNormal,
		  0, 1,
		  (fib_callback)synchronize_callback,
		  (void *)scsicmd);

	/*
	 *	Check that the command queued to the controller
	 */
1834 1835
	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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1836
		return 0;
1837
	}
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1838

1839
	printk(KERN_WARNING
1840 1841 1842
		"aac_synchronize: aac_fib_send failed with status: %d.\n", status);
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
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1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855
	return SCSI_MLQUEUE_HOST_BUSY;
}

/**
 *	aac_scsi_cmd()		-	Process SCSI command
 *	@scsicmd:		SCSI command block
 *
 *	Emulate a SCSI command and queue the required request for the
 *	aacraid firmware.
 */
 
int aac_scsi_cmd(struct scsi_cmnd * scsicmd)
{
1856
	u32 cid;
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1857 1858 1859 1860
	struct Scsi_Host *host = scsicmd->device->host;
	struct aac_dev *dev = (struct aac_dev *)host->hostdata;
	struct fsa_dev_info *fsa_dev_ptr = dev->fsa_dev;
	
1861 1862
	if (fsa_dev_ptr == NULL)
		return -1;
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1863 1864 1865 1866 1867
	/*
	 *	If the bus, id or lun is out of range, return fail
	 *	Test does not apply to ID 16, the pseudo id for the controller
	 *	itself.
	 */
1868 1869 1870 1871
	cid = scmd_id(scsicmd);
	if (cid != host->this_id) {
		if (scmd_channel(scsicmd) == CONTAINER_CHANNEL) {
			if((cid >= dev->maximum_num_containers) ||
1872
					(scsicmd->device->lun != 0)) {
L
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1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883
				scsicmd->result = DID_NO_CONNECT << 16;
				scsicmd->scsi_done(scsicmd);
				return 0;
			}

			/*
			 *	If the target container doesn't exist, it may have
			 *	been newly created
			 */
			if ((fsa_dev_ptr[cid].valid & 1) == 0) {
				switch (scsicmd->cmnd[0]) {
1884 1885 1886 1887 1888
				case SERVICE_ACTION_IN:
					if (!(dev->raw_io_interface) ||
					    !(dev->raw_io_64) ||
					    ((scsicmd->cmnd[1] & 0x1f) != SAI_READ_CAPACITY_16))
						break;
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1889 1890 1891
				case INQUIRY:
				case READ_CAPACITY:
				case TEST_UNIT_READY:
1892 1893
					if (dev->in_reset)
						return -1;
1894 1895
					return _aac_probe_container(scsicmd,
							aac_probe_container_callback2);
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1896 1897 1898 1899 1900
				default:
					break;
				}
			}
		} else {  /* check for physical non-dasd devices */
1901
			if ((dev->nondasd_support == 1) || expose_physicals) {
1902 1903
				if (dev->in_reset)
					return -1;
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1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936
				return aac_send_srb_fib(scsicmd);
			} else {
				scsicmd->result = DID_NO_CONNECT << 16;
				scsicmd->scsi_done(scsicmd);
				return 0;
			}
		}
	}
	/*
	 * else Command for the controller itself
	 */
	else if ((scsicmd->cmnd[0] != INQUIRY) &&	/* only INQUIRY & TUR cmnd supported for controller */
		(scsicmd->cmnd[0] != TEST_UNIT_READY)) 
	{
		dprintk((KERN_WARNING "Only INQUIRY & TUR command supported for controller, rcvd = 0x%x.\n", scsicmd->cmnd[0]));
		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_CHECK_CONDITION;
		set_sense((u8 *) &dev->fsa_dev[cid].sense_data,
			    ILLEGAL_REQUEST,
			    SENCODE_INVALID_COMMAND,
			    ASENCODE_INVALID_COMMAND, 0, 0, 0, 0);
		memcpy(scsicmd->sense_buffer, &dev->fsa_dev[cid].sense_data,
		  (sizeof(dev->fsa_dev[cid].sense_data) > sizeof(scsicmd->sense_buffer))
		    ? sizeof(scsicmd->sense_buffer)
		    : sizeof(dev->fsa_dev[cid].sense_data));
		scsicmd->scsi_done(scsicmd);
		return 0;
	}


	/* Handle commands here that don't really require going out to the adapter */
	switch (scsicmd->cmnd[0]) {
	case INQUIRY:
	{
1937
		struct inquiry_data inq_data;
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1938

1939
		dprintk((KERN_DEBUG "INQUIRY command, ID: %d.\n", cid));
1940
		memset(&inq_data, 0, sizeof (struct inquiry_data));
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1941

1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984
		if (scsicmd->cmnd[1] & 0x1 ) {
			char *arr = (char *)&inq_data;

			/* EVPD bit set */
			arr[0] = (scmd_id(scsicmd) == host->this_id) ?
			  INQD_PDT_PROC : INQD_PDT_DA;
			if (scsicmd->cmnd[2] == 0) {
				/* supported vital product data pages */
				arr[3] = 2;
				arr[4] = 0x0;
				arr[5] = 0x80;
				arr[1] = scsicmd->cmnd[2];
				aac_internal_transfer(scsicmd, &inq_data, 0,
				  sizeof(inq_data));
				scsicmd->result = DID_OK << 16 |
				  COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
			} else if (scsicmd->cmnd[2] == 0x80) {
				/* unit serial number page */
				arr[3] = setinqserial(dev, &arr[4],
				  scmd_id(scsicmd));
				arr[1] = scsicmd->cmnd[2];
				aac_internal_transfer(scsicmd, &inq_data, 0,
				  sizeof(inq_data));
				return aac_get_container_serial(scsicmd);
			} else {
				/* vpd page not implemented */
				scsicmd->result = DID_OK << 16 |
				  COMMAND_COMPLETE << 8 |
				  SAM_STAT_CHECK_CONDITION;
				set_sense((u8 *) &dev->fsa_dev[cid].sense_data,
				  ILLEGAL_REQUEST,
				  SENCODE_INVALID_CDB_FIELD,
				  ASENCODE_NO_SENSE, 0, 7, 2, 0);
				memcpy(scsicmd->sense_buffer,
				  &dev->fsa_dev[cid].sense_data,
				  (sizeof(dev->fsa_dev[cid].sense_data) >
				    sizeof(scsicmd->sense_buffer))
				       ? sizeof(scsicmd->sense_buffer)
				       : sizeof(dev->fsa_dev[cid].sense_data));
			}
			scsicmd->scsi_done(scsicmd);
			return 0;
		}
1985 1986 1987
		inq_data.inqd_ver = 2;	/* claim compliance to SCSI-2 */
		inq_data.inqd_rdf = 2;	/* A response data format value of two indicates that the data shall be in the format specified in SCSI-2 */
		inq_data.inqd_len = 31;
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		/*Format for "pad2" is  RelAdr | WBus32 | WBus16 |  Sync  | Linked |Reserved| CmdQue | SftRe */
1989
		inq_data.inqd_pad2= 0x32 ;	 /*WBus16|Sync|CmdQue */
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		/*
		 *	Set the Vendor, Product, and Revision Level
		 *	see: <vendor>.c i.e. aac.c
		 */
1994
		if (cid == host->this_id) {
1995
			setinqstr(dev, (void *) (inq_data.inqd_vid), ARRAY_SIZE(container_types));
1996 1997
			inq_data.inqd_pdt = INQD_PDT_PROC;	/* Processor device */
			aac_internal_transfer(scsicmd, &inq_data, 0, sizeof(inq_data));
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			scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
			scsicmd->scsi_done(scsicmd);
			return 0;
		}
2002 2003
		if (dev->in_reset)
			return -1;
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		setinqstr(dev, (void *) (inq_data.inqd_vid), fsa_dev_ptr[cid].type);
2005 2006
		inq_data.inqd_pdt = INQD_PDT_DA;	/* Direct/random access device */
		aac_internal_transfer(scsicmd, &inq_data, 0, sizeof(inq_data));
2007
		return aac_get_container_name(scsicmd);
L
Linus Torvalds 已提交
2008
	}
2009 2010 2011 2012 2013 2014 2015
	case SERVICE_ACTION_IN:
		if (!(dev->raw_io_interface) ||
		    !(dev->raw_io_64) ||
		    ((scsicmd->cmnd[1] & 0x1f) != SAI_READ_CAPACITY_16))
			break;
	{
		u64 capacity;
2016
		char cp[13];
2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031

		dprintk((KERN_DEBUG "READ CAPACITY_16 command.\n"));
		capacity = fsa_dev_ptr[cid].size - 1;
		cp[0] = (capacity >> 56) & 0xff;
		cp[1] = (capacity >> 48) & 0xff;
		cp[2] = (capacity >> 40) & 0xff;
		cp[3] = (capacity >> 32) & 0xff;
		cp[4] = (capacity >> 24) & 0xff;
		cp[5] = (capacity >> 16) & 0xff;
		cp[6] = (capacity >> 8) & 0xff;
		cp[7] = (capacity >> 0) & 0xff;
		cp[8] = 0;
		cp[9] = 0;
		cp[10] = 2;
		cp[11] = 0;
2032 2033
		cp[12] = 0;
		aac_internal_transfer(scsicmd, cp, 0,
2034
		  min_t(size_t, scsicmd->cmnd[13], sizeof(cp)));
2035 2036 2037 2038 2039
		if (sizeof(cp) < scsicmd->cmnd[13]) {
			unsigned int len, offset = sizeof(cp);

			memset(cp, 0, offset);
			do {
2040 2041
				len = min_t(size_t, scsicmd->cmnd[13] - offset,
						sizeof(cp));
2042 2043 2044
				aac_internal_transfer(scsicmd, cp, offset, len);
			} while ((offset += len) < scsicmd->cmnd[13]);
		}
2045 2046 2047 2048 2049 2050 2051 2052 2053 2054

		/* Do not cache partition table for arrays */
		scsicmd->device->removable = 1;

		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);

		return 0;
	}

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	case READ_CAPACITY:
	{
		u32 capacity;
2058
		char cp[8];
L
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2059 2060

		dprintk((KERN_DEBUG "READ CAPACITY command.\n"));
2061
		if (fsa_dev_ptr[cid].size <= 0x100000000ULL)
L
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			capacity = fsa_dev_ptr[cid].size - 1;
		else
			capacity = (u32)-1;
2065

L
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		cp[0] = (capacity >> 24) & 0xff;
		cp[1] = (capacity >> 16) & 0xff;
		cp[2] = (capacity >> 8) & 0xff;
		cp[3] = (capacity >> 0) & 0xff;
		cp[4] = 0;
		cp[5] = 0;
		cp[6] = 2;
		cp[7] = 0;
2074
		aac_internal_transfer(scsicmd, cp, 0, sizeof(cp));
2075 2076
		/* Do not cache partition table for arrays */
		scsicmd->device->removable = 1;
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Linus Torvalds 已提交
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		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);

		return 0;
	}

	case MODE_SENSE:
	{
2086 2087
		char mode_buf[7];
		int mode_buf_length = 4;
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		dprintk((KERN_DEBUG "MODE SENSE command.\n"));
		mode_buf[0] = 3;	/* Mode data length */
		mode_buf[1] = 0;	/* Medium type - default */
2092 2093 2094 2095 2096
		mode_buf[2] = 0;	/* Device-specific param,
					   bit 8: 0/1 = write enabled/protected
					   bit 4: 0/1 = FUA enabled */
		if (dev->raw_io_interface)
			mode_buf[2] = 0x10;
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		mode_buf[3] = 0;	/* Block descriptor length */
2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108
		if (((scsicmd->cmnd[2] & 0x3f) == 8) ||
		  ((scsicmd->cmnd[2] & 0x3f) == 0x3f)) {
			mode_buf[0] = 6;
			mode_buf[4] = 8;
			mode_buf[5] = 1;
			mode_buf[6] = 0x04; /* WCE */
			mode_buf_length = 7;
			if (mode_buf_length > scsicmd->cmnd[4])
				mode_buf_length = scsicmd->cmnd[4];
		}
		aac_internal_transfer(scsicmd, mode_buf, 0, mode_buf_length);
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		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);

		return 0;
	}
	case MODE_SENSE_10:
	{
2116 2117
		char mode_buf[11];
		int mode_buf_length = 8;
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2118 2119 2120 2121 2122

		dprintk((KERN_DEBUG "MODE SENSE 10 byte command.\n"));
		mode_buf[0] = 0;	/* Mode data length (MSB) */
		mode_buf[1] = 6;	/* Mode data length (LSB) */
		mode_buf[2] = 0;	/* Medium type - default */
2123 2124 2125 2126 2127
		mode_buf[3] = 0;	/* Device-specific param,
					   bit 8: 0/1 = write enabled/protected
					   bit 4: 0/1 = FUA enabled */
		if (dev->raw_io_interface)
			mode_buf[3] = 0x10;
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		mode_buf[4] = 0;	/* reserved */
		mode_buf[5] = 0;	/* reserved */
		mode_buf[6] = 0;	/* Block descriptor length (MSB) */
		mode_buf[7] = 0;	/* Block descriptor length (LSB) */
2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142
		if (((scsicmd->cmnd[2] & 0x3f) == 8) ||
		  ((scsicmd->cmnd[2] & 0x3f) == 0x3f)) {
			mode_buf[1] = 9;
			mode_buf[8] = 8;
			mode_buf[9] = 1;
			mode_buf[10] = 0x04; /* WCE */
			mode_buf_length = 11;
			if (mode_buf_length > scsicmd->cmnd[8])
				mode_buf_length = scsicmd->cmnd[8];
		}
		aac_internal_transfer(scsicmd, mode_buf, 0, mode_buf_length);
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		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);

		return 0;
	}
	case REQUEST_SENSE:
		dprintk((KERN_DEBUG "REQUEST SENSE command.\n"));
		memcpy(scsicmd->sense_buffer, &dev->fsa_dev[cid].sense_data, sizeof (struct sense_data));
		memset(&dev->fsa_dev[cid].sense_data, 0, sizeof (struct sense_data));
		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);
		return 0;

	case ALLOW_MEDIUM_REMOVAL:
		dprintk((KERN_DEBUG "LOCK command.\n"));
		if (scsicmd->cmnd[4])
			fsa_dev_ptr[cid].locked = 1;
		else
			fsa_dev_ptr[cid].locked = 0;

		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);
		return 0;
	/*
	 *	These commands are all No-Ops
	 */
	case TEST_UNIT_READY:
	case RESERVE:
	case RELEASE:
	case REZERO_UNIT:
	case REASSIGN_BLOCKS:
	case SEEK_10:
	case START_STOP:
		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_GOOD;
		scsicmd->scsi_done(scsicmd);
		return 0;
	}

	switch (scsicmd->cmnd[0]) 
	{
		case READ_6:
		case READ_10:
2186 2187
		case READ_12:
		case READ_16:
2188 2189
			if (dev->in_reset)
				return -1;
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			/*
			 *	Hack to keep track of ordinal number of the device that
			 *	corresponds to a container. Needed to convert
			 *	containers to /dev/sd device names
			 */
			 
2196 2197 2198 2199 2200
			if (scsicmd->request->rq_disk)
				strlcpy(fsa_dev_ptr[cid].devname,
				scsicmd->request->rq_disk->disk_name,
			  	min(sizeof(fsa_dev_ptr[cid].devname),
				sizeof(scsicmd->request->rq_disk->disk_name) + 1));
2201

2202
			return aac_read(scsicmd);
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		case WRITE_6:
		case WRITE_10:
2206 2207
		case WRITE_12:
		case WRITE_16:
2208 2209
			if (dev->in_reset)
				return -1;
2210
			return aac_write(scsicmd);
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		case SYNCHRONIZE_CACHE:
			/* Issue FIB to tell Firmware to flush it's cache */
2214
			return aac_synchronize(scsicmd);
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		default:
			/*
			 *	Unhandled commands
			 */
2220
			dprintk((KERN_WARNING "Unhandled SCSI Command: 0x%x.\n", scsicmd->cmnd[0]));
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			scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_CHECK_CONDITION;
			set_sense((u8 *) &dev->fsa_dev[cid].sense_data,
				ILLEGAL_REQUEST, SENCODE_INVALID_COMMAND,
				ASENCODE_INVALID_COMMAND, 0, 0, 0, 0);
			memcpy(scsicmd->sense_buffer, &dev->fsa_dev[cid].sense_data,
			  (sizeof(dev->fsa_dev[cid].sense_data) > sizeof(scsicmd->sense_buffer))
			    ? sizeof(scsicmd->sense_buffer)
			    : sizeof(dev->fsa_dev[cid].sense_data));
			scsicmd->scsi_done(scsicmd);
			return 0;
	}
}

static int query_disk(struct aac_dev *dev, void __user *arg)
{
	struct aac_query_disk qd;
	struct fsa_dev_info *fsa_dev_ptr;

	fsa_dev_ptr = dev->fsa_dev;
2240
	if (!fsa_dev_ptr)
M
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		return -EBUSY;
L
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	if (copy_from_user(&qd, arg, sizeof (struct aac_query_disk)))
		return -EFAULT;
	if (qd.cnum == -1)
2245
		qd.cnum = qd.id;
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	else if ((qd.bus == -1) && (qd.id == -1) && (qd.lun == -1)) 
	{
		if (qd.cnum < 0 || qd.cnum >= dev->maximum_num_containers)
			return -EINVAL;
		qd.instance = dev->scsi_host_ptr->host_no;
		qd.bus = 0;
		qd.id = CONTAINER_TO_ID(qd.cnum);
		qd.lun = CONTAINER_TO_LUN(qd.cnum);
	}
	else return -EINVAL;

2257
	qd.valid = fsa_dev_ptr[qd.cnum].valid != 0;
L
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	qd.locked = fsa_dev_ptr[qd.cnum].locked;
	qd.deleted = fsa_dev_ptr[qd.cnum].deleted;

	if (fsa_dev_ptr[qd.cnum].devname[0] == '\0')
		qd.unmapped = 1;
	else
		qd.unmapped = 0;

	strlcpy(qd.name, fsa_dev_ptr[qd.cnum].devname,
	  min(sizeof(qd.name), sizeof(fsa_dev_ptr[qd.cnum].devname) + 1));

	if (copy_to_user(arg, &qd, sizeof (struct aac_query_disk)))
		return -EFAULT;
	return 0;
}

static int force_delete_disk(struct aac_dev *dev, void __user *arg)
{
	struct aac_delete_disk dd;
	struct fsa_dev_info *fsa_dev_ptr;

	fsa_dev_ptr = dev->fsa_dev;
M
Mark Haverkamp 已提交
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	if (!fsa_dev_ptr)
		return -EBUSY;
L
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2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304

	if (copy_from_user(&dd, arg, sizeof (struct aac_delete_disk)))
		return -EFAULT;

	if (dd.cnum >= dev->maximum_num_containers)
		return -EINVAL;
	/*
	 *	Mark this container as being deleted.
	 */
	fsa_dev_ptr[dd.cnum].deleted = 1;
	/*
	 *	Mark the container as no longer valid
	 */
	fsa_dev_ptr[dd.cnum].valid = 0;
	return 0;
}

static int delete_disk(struct aac_dev *dev, void __user *arg)
{
	struct aac_delete_disk dd;
	struct fsa_dev_info *fsa_dev_ptr;

	fsa_dev_ptr = dev->fsa_dev;
2305
	if (!fsa_dev_ptr)
M
Mark Haverkamp 已提交
2306
		return -EBUSY;
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2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359 2360

	if (copy_from_user(&dd, arg, sizeof (struct aac_delete_disk)))
		return -EFAULT;

	if (dd.cnum >= dev->maximum_num_containers)
		return -EINVAL;
	/*
	 *	If the container is locked, it can not be deleted by the API.
	 */
	if (fsa_dev_ptr[dd.cnum].locked)
		return -EBUSY;
	else {
		/*
		 *	Mark the container as no longer being valid.
		 */
		fsa_dev_ptr[dd.cnum].valid = 0;
		fsa_dev_ptr[dd.cnum].devname[0] = '\0';
		return 0;
	}
}

int aac_dev_ioctl(struct aac_dev *dev, int cmd, void __user *arg)
{
	switch (cmd) {
	case FSACTL_QUERY_DISK:
		return query_disk(dev, arg);
	case FSACTL_DELETE_DISK:
		return delete_disk(dev, arg);
	case FSACTL_FORCE_DELETE_DISK:
		return force_delete_disk(dev, arg);
	case FSACTL_GET_CONTAINERS:
		return aac_get_containers(dev);
	default:
		return -ENOTTY;
	}
}

/**
 *
 * aac_srb_callback
 * @context: the context set in the fib - here it is scsi cmd
 * @fibptr: pointer to the fib
 *
 * Handles the completion of a scsi command to a non dasd device
 *
 */

static void aac_srb_callback(void *context, struct fib * fibptr)
{
	struct aac_dev *dev;
	struct aac_srb_reply *srbreply;
	struct scsi_cmnd *scsicmd;

	scsicmd = (struct scsi_cmnd *) context;
2361 2362 2363 2364

	if (!aac_valid_context(scsicmd, fibptr))
		return;

E
Eric Sesterhenn 已提交
2365
	BUG_ON(fibptr == NULL);
L
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2366

2367 2368
	dev = fibptr->dev;

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	srbreply = (struct aac_srb_reply *) fib_data(fibptr);

	scsicmd->sense_buffer[0] = '\0';  /* Initialize sense valid flag to false */
	/*
	 *	Calculate resid for sg 
	 */
2375 2376 2377 2378 2379

	scsi_set_resid(scsicmd, scsi_bufflen(scsicmd)
		       - le32_to_cpu(srbreply->data_xfer_length));

	scsi_dma_unmap(scsicmd);
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	/*
	 * First check the fib status
	 */

	if (le32_to_cpu(srbreply->status) != ST_OK){
		int len;
		printk(KERN_WARNING "aac_srb_callback: srb failed, status = %d\n", le32_to_cpu(srbreply->status));
		len = (le32_to_cpu(srbreply->sense_data_size) > 
				sizeof(scsicmd->sense_buffer)) ?
				sizeof(scsicmd->sense_buffer) : 
				le32_to_cpu(srbreply->sense_data_size);
		scsicmd->result = DID_ERROR << 16 | COMMAND_COMPLETE << 8 | SAM_STAT_CHECK_CONDITION;
		memcpy(scsicmd->sense_buffer, srbreply->sense_data, len);
	}

	/*
	 * Next check the srb status
	 */
	switch( (le32_to_cpu(srbreply->srb_status))&0x3f){
	case SRB_STATUS_ERROR_RECOVERY:
	case SRB_STATUS_PENDING:
	case SRB_STATUS_SUCCESS:
2403
		scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8;
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		break;
	case SRB_STATUS_DATA_OVERRUN:
		switch(scsicmd->cmnd[0]){
		case  READ_6:
		case  WRITE_6:
		case  READ_10:
		case  WRITE_10:
		case  READ_12:
		case  WRITE_12:
2413 2414
		case  READ_16:
		case  WRITE_16:
L
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2415 2416 2417 2418 2419 2420 2421 2422
			if(le32_to_cpu(srbreply->data_xfer_length) < scsicmd->underflow ) {
				printk(KERN_WARNING"aacraid: SCSI CMD underflow\n");
			} else {
				printk(KERN_WARNING"aacraid: SCSI CMD Data Overrun\n");
			}
			scsicmd->result = DID_ERROR << 16 | COMMAND_COMPLETE << 8;
			break;
		case INQUIRY: {
2423
			scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8;
L
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2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454
			break;
		}
		default:
			scsicmd->result = DID_OK << 16 | COMMAND_COMPLETE << 8;
			break;
		}
		break;
	case SRB_STATUS_ABORTED:
		scsicmd->result = DID_ABORT << 16 | ABORT << 8;
		break;
	case SRB_STATUS_ABORT_FAILED:
		// Not sure about this one - but assuming the hba was trying to abort for some reason
		scsicmd->result = DID_ERROR << 16 | ABORT << 8;
		break;
	case SRB_STATUS_PARITY_ERROR:
		scsicmd->result = DID_PARITY << 16 | MSG_PARITY_ERROR << 8;
		break;
	case SRB_STATUS_NO_DEVICE:
	case SRB_STATUS_INVALID_PATH_ID:
	case SRB_STATUS_INVALID_TARGET_ID:
	case SRB_STATUS_INVALID_LUN:
	case SRB_STATUS_SELECTION_TIMEOUT:
		scsicmd->result = DID_NO_CONNECT << 16 | COMMAND_COMPLETE << 8;
		break;

	case SRB_STATUS_COMMAND_TIMEOUT:
	case SRB_STATUS_TIMEOUT:
		scsicmd->result = DID_TIME_OUT << 16 | COMMAND_COMPLETE << 8;
		break;

	case SRB_STATUS_BUSY:
2455
		scsicmd->result = DID_BUS_BUSY << 16 | COMMAND_COMPLETE << 8;
L
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		break;

	case SRB_STATUS_BUS_RESET:
		scsicmd->result = DID_RESET << 16 | COMMAND_COMPLETE << 8;
		break;

	case SRB_STATUS_MESSAGE_REJECTED:
		scsicmd->result = DID_ERROR << 16 | MESSAGE_REJECT << 8;
		break;
	case SRB_STATUS_REQUEST_FLUSHED:
	case SRB_STATUS_ERROR:
	case SRB_STATUS_INVALID_REQUEST:
	case SRB_STATUS_REQUEST_SENSE_FAILED:
	case SRB_STATUS_NO_HBA:
	case SRB_STATUS_UNEXPECTED_BUS_FREE:
	case SRB_STATUS_PHASE_SEQUENCE_FAILURE:
	case SRB_STATUS_BAD_SRB_BLOCK_LENGTH:
	case SRB_STATUS_DELAYED_RETRY:
	case SRB_STATUS_BAD_FUNCTION:
	case SRB_STATUS_NOT_STARTED:
	case SRB_STATUS_NOT_IN_USE:
	case SRB_STATUS_FORCE_ABORT:
	case SRB_STATUS_DOMAIN_VALIDATION_FAIL:
	default:
#ifdef AAC_DETAILED_STATUS_INFO
		printk("aacraid: SRB ERROR(%u) %s scsi cmd 0x%x - scsi status 0x%x\n",
			le32_to_cpu(srbreply->srb_status) & 0x3F,
			aac_get_status_string(
				le32_to_cpu(srbreply->srb_status) & 0x3F), 
			scsicmd->cmnd[0], 
			le32_to_cpu(srbreply->scsi_status));
#endif
		scsicmd->result = DID_ERROR << 16 | COMMAND_COMPLETE << 8;
		break;
	}
	if (le32_to_cpu(srbreply->scsi_status) == 0x02 ){  // Check Condition
		int len;
		scsicmd->result |= SAM_STAT_CHECK_CONDITION;
		len = (le32_to_cpu(srbreply->sense_data_size) > 
				sizeof(scsicmd->sense_buffer)) ?
				sizeof(scsicmd->sense_buffer) :
				le32_to_cpu(srbreply->sense_data_size);
#ifdef AAC_DETAILED_STATUS_INFO
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		printk(KERN_WARNING "aac_srb_callback: check condition, status = %d len=%d\n",
					le32_to_cpu(srbreply->status), len);
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#endif
		memcpy(scsicmd->sense_buffer, srbreply->sense_data, len);
		
	}
	/*
	 * OR in the scsi status (already shifted up a bit)
	 */
	scsicmd->result |= le32_to_cpu(srbreply->scsi_status);

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	aac_fib_complete(fibptr);
	aac_fib_free(fibptr);
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	scsicmd->scsi_done(scsicmd);
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}

/**
 *
 * aac_send_scb_fib
 * @scsicmd: the scsi command block
 *
 * This routine will form a FIB and fill in the aac_srb from the 
 * scsicmd passed in.
 */

static int aac_send_srb_fib(struct scsi_cmnd* scsicmd)
{
	struct fib* cmd_fibcontext;
	struct aac_dev* dev;
	int status;

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	dev = (struct aac_dev *)scsicmd->device->host->hostdata;
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	if (scmd_id(scsicmd) >= dev->maximum_num_physicals ||
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			scsicmd->device->lun > 7) {
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		scsicmd->result = DID_NO_CONNECT << 16;
		scsicmd->scsi_done(scsicmd);
		return 0;
	}

	/*
	 *	Allocate and initialize a Fib then setup a BlockWrite command
	 */
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	if (!(cmd_fibcontext = aac_fib_alloc(dev))) {
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		return -1;
	}
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	status = aac_adapter_scsi(cmd_fibcontext, scsicmd);
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	/*
	 *	Check that the command queued to the controller
	 */
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	if (status == -EINPROGRESS) {
		scsicmd->SCp.phase = AAC_OWNER_FIRMWARE;
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		return 0;
	}

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	printk(KERN_WARNING "aac_srb: aac_fib_send failed with status: %d\n", status);
	aac_fib_complete(cmd_fibcontext);
	aac_fib_free(cmd_fibcontext);
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	return -1;
}

static unsigned long aac_build_sg(struct scsi_cmnd* scsicmd, struct sgmap* psg)
{
	struct aac_dev *dev;
	unsigned long byte_count = 0;
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	int nseg;
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	dev = (struct aac_dev *)scsicmd->device->host->hostdata;
	// Get rid of old data
	psg->count = 0;
	psg->sg[0].addr = 0;
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	psg->sg[0].count = 0;

	nseg = scsi_dma_map(scsicmd);
	BUG_ON(nseg < 0);
	if (nseg) {
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		struct scatterlist *sg;
		int i;

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		psg->count = cpu_to_le32(nseg);
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		scsi_for_each_sg(scsicmd, sg, nseg, i) {
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			psg->sg[i].addr = cpu_to_le32(sg_dma_address(sg));
			psg->sg[i].count = cpu_to_le32(sg_dma_len(sg));
			byte_count += sg_dma_len(sg);
		}
		/* hba wants the size to be exact */
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		if (byte_count > scsi_bufflen(scsicmd)) {
			u32 temp = le32_to_cpu(psg->sg[i-1].count) -
				(byte_count - scsi_bufflen(scsicmd));
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			psg->sg[i-1].count = cpu_to_le32(temp);
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			byte_count = scsi_bufflen(scsicmd);
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		}
		/* Check for command underflow */
		if(scsicmd->underflow && (byte_count < scsicmd->underflow)){
			printk(KERN_WARNING"aacraid: cmd len %08lX cmd underflow %08X\n",
					byte_count, scsicmd->underflow);
		}
	}
	return byte_count;
}


static unsigned long aac_build_sg64(struct scsi_cmnd* scsicmd, struct sgmap64* psg)
{
	struct aac_dev *dev;
	unsigned long byte_count = 0;
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	u64 addr;
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	int nseg;
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	dev = (struct aac_dev *)scsicmd->device->host->hostdata;
	// Get rid of old data
	psg->count = 0;
	psg->sg[0].addr[0] = 0;
	psg->sg[0].addr[1] = 0;
	psg->sg[0].count = 0;
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	nseg = scsi_dma_map(scsicmd);
	BUG_ON(nseg < 0);
	if (nseg) {
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		struct scatterlist *sg;
		int i;

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		scsi_for_each_sg(scsicmd, sg, nseg, i) {
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			int count = sg_dma_len(sg);
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			addr = sg_dma_address(sg);
			psg->sg[i].addr[0] = cpu_to_le32(addr & 0xffffffff);
			psg->sg[i].addr[1] = cpu_to_le32(addr>>32);
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			psg->sg[i].count = cpu_to_le32(count);
			byte_count += count;
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		}
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		psg->count = cpu_to_le32(nseg);
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		/* hba wants the size to be exact */
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		if (byte_count > scsi_bufflen(scsicmd)) {
			u32 temp = le32_to_cpu(psg->sg[i-1].count) -
				(byte_count - scsi_bufflen(scsicmd));
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			psg->sg[i-1].count = cpu_to_le32(temp);
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			byte_count = scsi_bufflen(scsicmd);
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		}
		/* Check for command underflow */
		if(scsicmd->underflow && (byte_count < scsicmd->underflow)){
			printk(KERN_WARNING"aacraid: cmd len %08lX cmd underflow %08X\n",
					byte_count, scsicmd->underflow);
		}
	}
	return byte_count;
}

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static unsigned long aac_build_sgraw(struct scsi_cmnd* scsicmd, struct sgmapraw* psg)
{
	unsigned long byte_count = 0;
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	int nseg;
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	// Get rid of old data
	psg->count = 0;
	psg->sg[0].next = 0;
	psg->sg[0].prev = 0;
	psg->sg[0].addr[0] = 0;
	psg->sg[0].addr[1] = 0;
	psg->sg[0].count = 0;
	psg->sg[0].flags = 0;
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	nseg = scsi_dma_map(scsicmd);
	BUG_ON(nseg < 0);
	if (nseg) {
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		struct scatterlist *sg;
		int i;

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		scsi_for_each_sg(scsicmd, sg, nseg, i) {
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			int count = sg_dma_len(sg);
			u64 addr = sg_dma_address(sg);
			psg->sg[i].next = 0;
			psg->sg[i].prev = 0;
			psg->sg[i].addr[1] = cpu_to_le32((u32)(addr>>32));
			psg->sg[i].addr[0] = cpu_to_le32((u32)(addr & 0xffffffff));
			psg->sg[i].count = cpu_to_le32(count);
			psg->sg[i].flags = 0;
			byte_count += count;
		}
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		psg->count = cpu_to_le32(nseg);
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		/* hba wants the size to be exact */
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		if (byte_count > scsi_bufflen(scsicmd)) {
			u32 temp = le32_to_cpu(psg->sg[i-1].count) -
				(byte_count - scsi_bufflen(scsicmd));
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			psg->sg[i-1].count = cpu_to_le32(temp);
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			byte_count = scsi_bufflen(scsicmd);
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		}
		/* Check for command underflow */
		if(scsicmd->underflow && (byte_count < scsicmd->underflow)){
			printk(KERN_WARNING"aacraid: cmd len %08lX cmd underflow %08X\n",
					byte_count, scsicmd->underflow);
		}
	}
	return byte_count;
}

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#ifdef AAC_DETAILED_STATUS_INFO

struct aac_srb_status_info {
	u32	status;
	char	*str;
};


static struct aac_srb_status_info srb_status_info[] = {
	{ SRB_STATUS_PENDING,		"Pending Status"},
	{ SRB_STATUS_SUCCESS,		"Success"},
	{ SRB_STATUS_ABORTED,		"Aborted Command"},
	{ SRB_STATUS_ABORT_FAILED,	"Abort Failed"},
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	{ SRB_STATUS_ERROR,		"Error Event"},
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	{ SRB_STATUS_BUSY,		"Device Busy"},
	{ SRB_STATUS_INVALID_REQUEST,	"Invalid Request"},
	{ SRB_STATUS_INVALID_PATH_ID,	"Invalid Path ID"},
	{ SRB_STATUS_NO_DEVICE,		"No Device"},
	{ SRB_STATUS_TIMEOUT,		"Timeout"},
	{ SRB_STATUS_SELECTION_TIMEOUT,	"Selection Timeout"},
	{ SRB_STATUS_COMMAND_TIMEOUT,	"Command Timeout"},
	{ SRB_STATUS_MESSAGE_REJECTED,	"Message Rejected"},
	{ SRB_STATUS_BUS_RESET,		"Bus Reset"},
	{ SRB_STATUS_PARITY_ERROR,	"Parity Error"},
	{ SRB_STATUS_REQUEST_SENSE_FAILED,"Request Sense Failed"},
	{ SRB_STATUS_NO_HBA,		"No HBA"},
	{ SRB_STATUS_DATA_OVERRUN,	"Data Overrun/Data Underrun"},
	{ SRB_STATUS_UNEXPECTED_BUS_FREE,"Unexpected Bus Free"},
	{ SRB_STATUS_PHASE_SEQUENCE_FAILURE,"Phase Error"},
	{ SRB_STATUS_BAD_SRB_BLOCK_LENGTH,"Bad Srb Block Length"},
	{ SRB_STATUS_REQUEST_FLUSHED,	"Request Flushed"},
	{ SRB_STATUS_DELAYED_RETRY,	"Delayed Retry"},
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	{ SRB_STATUS_INVALID_LUN,	"Invalid LUN"},
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	{ SRB_STATUS_INVALID_TARGET_ID,	"Invalid TARGET ID"},
	{ SRB_STATUS_BAD_FUNCTION,	"Bad Function"},
	{ SRB_STATUS_ERROR_RECOVERY,	"Error Recovery"},
	{ SRB_STATUS_NOT_STARTED,	"Not Started"},
	{ SRB_STATUS_NOT_IN_USE,	"Not In Use"},
    	{ SRB_STATUS_FORCE_ABORT,	"Force Abort"},
	{ SRB_STATUS_DOMAIN_VALIDATION_FAIL,"Domain Validation Failure"},
	{ 0xff,				"Unknown Error"}
};

char *aac_get_status_string(u32 status)
{
	int i;

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	for (i = 0; i < ARRAY_SIZE(srb_status_info); i++)
		if (srb_status_info[i].status == status)
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			return srb_status_info[i].str;

	return "Bad Status Code";
}

#endif