summaryrefslogtreecommitdiff
path: root/drivers/scsi/megaraid/megaraid_sas.c
blob: c0bb8061401f20d43b8b924cb25b04c41651c53e (plain)
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/*
 *
 *		Linux MegaRAID driver for SAS based RAID controllers
 *
 * Copyright (c) 2003-2005  LSI Logic Corporation.
 *
 *	   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 of the License, or (at your option) any later version.
 *
 * FILE		: megaraid_sas.c
 * Version	: v00.00.02.00-rc4
 *
 * Authors:
 * 	Sreenivas Bagalkote	<Sreenivas.Bagalkote@lsil.com>
 * 	Sumant Patro		<Sumant.Patro@lsil.com>
 *
 * List of supported controllers
 *
 * OEM	Product Name			VID	DID	SSVID	SSID
 * ---	------------			---	---	----	----
 */

#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/pci.h>
#include <linux/list.h>
#include <linux/moduleparam.h>
#include <linux/module.h>
#include <linux/spinlock.h>
#include <linux/interrupt.h>
#include <linux/delay.h>
#include <linux/uio.h>
#include <asm/uaccess.h>
#include <linux/fs.h>
#include <linux/compat.h>
#include <linux/mutex.h>

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

MODULE_LICENSE("GPL");
MODULE_VERSION(MEGASAS_VERSION);
MODULE_AUTHOR("sreenivas.bagalkote@lsil.com");
MODULE_DESCRIPTION("LSI Logic MegaRAID SAS Driver");

/*
 * PCI ID table for all supported controllers
 */
static struct pci_device_id megasas_pci_table[] = {

	{
	 PCI_VENDOR_ID_LSI_LOGIC,
	 PCI_DEVICE_ID_LSI_SAS1064R,
	 PCI_ANY_ID,
	 PCI_ANY_ID,
	 },
	{
	 PCI_VENDOR_ID_DELL,
	 PCI_DEVICE_ID_DELL_PERC5,
	 PCI_ANY_ID,
	 PCI_ANY_ID,
	 },
	{0}			/* Terminating entry */
};

MODULE_DEVICE_TABLE(pci, megasas_pci_table);

static int megasas_mgmt_majorno;
static struct megasas_mgmt_info megasas_mgmt_info;
static struct fasync_struct *megasas_async_queue;
static DEFINE_MUTEX(megasas_async_queue_mutex);

/**
 * megasas_get_cmd -	Get a command from the free pool
 * @instance:		Adapter soft state
 *
 * Returns a free command from the pool
 */
static inline struct megasas_cmd *megasas_get_cmd(struct megasas_instance
						  *instance)
{
	unsigned long flags;
	struct megasas_cmd *cmd = NULL;

	spin_lock_irqsave(&instance->cmd_pool_lock, flags);

	if (!list_empty(&instance->cmd_pool)) {
		cmd = list_entry((&instance->cmd_pool)->next,
				 struct megasas_cmd, list);
		list_del_init(&cmd->list);
	} else {
		printk(KERN_ERR "megasas: Command pool empty!\n");
	}

	spin_unlock_irqrestore(&instance->cmd_pool_lock, flags);
	return cmd;
}

/**
 * megasas_return_cmd -	Return a cmd to free command pool
 * @instance:		Adapter soft state
 * @cmd:		Command packet to be returned to free command pool
 */
static inline void
megasas_return_cmd(struct megasas_instance *instance, struct megasas_cmd *cmd)
{
	unsigned long flags;

	spin_lock_irqsave(&instance->cmd_pool_lock, flags);

	cmd->scmd = NULL;
	list_add_tail(&cmd->list, &instance->cmd_pool);

	spin_unlock_irqrestore(&instance->cmd_pool_lock, flags);
}

/**
 * megasas_enable_intr -	Enables interrupts
 * @regs:			MFI register set
 */
static inline void
megasas_enable_intr(struct megasas_register_set __iomem * regs)
{
	writel(1, &(regs)->outbound_intr_mask);

	/* Dummy readl to force pci flush */
	readl(&regs->outbound_intr_mask);
}

/**
 * megasas_disable_intr -	Disables interrupts
 * @regs:			MFI register set
 */
static inline void
megasas_disable_intr(struct megasas_register_set __iomem * regs)
{
	u32 mask = readl(&regs->outbound_intr_mask) & (~0x00000001);
	writel(mask, &regs->outbound_intr_mask);

	/* Dummy readl to force pci flush */
	readl(&regs->outbound_intr_mask);
}

/**
 * megasas_issue_polled -	Issues a polling command
 * @instance:			Adapter soft state
 * @cmd:			Command packet to be issued 
 *
 * For polling, MFI requires the cmd_status to be set to 0xFF before posting.
 */
static int
megasas_issue_polled(struct megasas_instance *instance, struct megasas_cmd *cmd)
{
	int i;
	u32 msecs = MFI_POLL_TIMEOUT_SECS * 1000;

	struct megasas_header *frame_hdr = &cmd->frame->hdr;

	frame_hdr->cmd_status = 0xFF;
	frame_hdr->flags |= MFI_FRAME_DONT_POST_IN_REPLY_QUEUE;

	/*
	 * Issue the frame using inbound queue port
	 */
	writel(cmd->frame_phys_addr >> 3,
	       &instance->reg_set->inbound_queue_port);

	/*
	 * Wait for cmd_status to change
	 */
	for (i = 0; (i < msecs) && (frame_hdr->cmd_status == 0xff); i++) {
		rmb();
		msleep(1);
	}

	if (frame_hdr->cmd_status == 0xff)
		return -ETIME;

	return 0;
}

/**
 * megasas_issue_blocked_cmd -	Synchronous wrapper around regular FW cmds
 * @instance:			Adapter soft state
 * @cmd:			Command to be issued
 *
 * This function waits on an event for the command to be returned from ISR.
 * Used to issue ioctl commands.
 */
static int
megasas_issue_blocked_cmd(struct megasas_instance *instance,
			  struct megasas_cmd *cmd)
{
	cmd->cmd_status = ENODATA;

	writel(cmd->frame_phys_addr >> 3,
	       &instance->reg_set->inbound_queue_port);

	wait_event(instance->int_cmd_wait_q, (cmd->cmd_status != ENODATA));

	return 0;
}

/**
 * megasas_issue_blocked_abort_cmd -	Aborts previously issued cmd
 * @instance:				Adapter soft state
 * @cmd_to_abort:			Previously issued cmd to be aborted
 *
 * MFI firmware can abort previously issued AEN comamnd (automatic event
 * notification). The megasas_issue_blocked_abort_cmd() issues such abort
 * cmd and blocks till it is completed.
 */
static int
megasas_issue_blocked_abort_cmd(struct megasas_instance *instance,
				struct megasas_cmd *cmd_to_abort)
{
	struct megasas_cmd *cmd;
	struct megasas_abort_frame *abort_fr;

	cmd = megasas_get_cmd(instance);

	if (!cmd)
		return -1;

	abort_fr = &cmd->frame->abort;

	/*
	 * Prepare and issue the abort frame
	 */
	abort_fr->cmd = MFI_CMD_ABORT;
	abort_fr->cmd_status = 0xFF;
	abort_fr->flags = 0;
	abort_fr->abort_context = cmd_to_abort->index;
	abort_fr->abort_mfi_phys_addr_lo = cmd_to_abort->frame_phys_addr;
	abort_fr->abort_mfi_phys_addr_hi = 0;

	cmd->sync_cmd = 1;
	cmd->cmd_status = 0xFF;

	writel(cmd->frame_phys_addr >> 3,
	       &instance->reg_set->inbound_queue_port);

	/*
	 * Wait for this cmd to complete
	 */
	wait_event(instance->abort_cmd_wait_q, (cmd->cmd_status != 0xFF));

	megasas_return_cmd(instance, cmd);
	return 0;
}

/**
 * megasas_make_sgl32 -	Prepares 32-bit SGL
 * @instance:		Adapter soft state
 * @scp:		SCSI command from the mid-layer
 * @mfi_sgl:		SGL to be filled in
 *
 * If successful, this function returns the number of SG elements. Otherwise,
 * it returnes -1.
 */
static inline int
megasas_make_sgl32(struct megasas_instance *instance, struct scsi_cmnd *scp,
		   union megasas_sgl *mfi_sgl)
{
	int i;
	int sge_count;
	struct scatterlist *os_sgl;

	/*
	 * Return 0 if there is no data transfer
	 */
	if (!scp->request_buffer || !scp->request_bufflen)
		return 0;

	if (!scp->use_sg) {
		mfi_sgl->sge32[0].phys_addr = pci_map_single(instance->pdev,
							     scp->
							     request_buffer,
							     scp->
							     request_bufflen,
							     scp->
							     sc_data_direction);
		mfi_sgl->sge32[0].length = scp->request_bufflen;

		return 1;
	}

	os_sgl = (struct scatterlist *)scp->request_buffer;
	sge_count = pci_map_sg(instance->pdev, os_sgl, scp->use_sg,
			       scp->sc_data_direction);

	for (i = 0; i < sge_count; i++, os_sgl++) {
		mfi_sgl->sge32[i].length = sg_dma_len(os_sgl);
		mfi_sgl->sge32[i].phys_addr = sg_dma_address(os_sgl);
	}

	return sge_count;
}

/**
 * megasas_make_sgl64 -	Prepares 64-bit SGL
 * @instance:		Adapter soft state
 * @scp:		SCSI command from the mid-layer
 * @mfi_sgl:		SGL to be filled in
 *
 * If successful, this function returns the number of SG elements. Otherwise,
 * it returnes -1.
 */
static inline int
megasas_make_sgl64(struct megasas_instance *instance, struct scsi_cmnd *scp,
		   union megasas_sgl *mfi_sgl)
{
	int i;
	int sge_count;
	struct scatterlist *os_sgl;

	/*
	 * Return 0 if there is no data transfer
	 */
	if (!scp->request_buffer || !scp->request_bufflen)
		return 0;

	if (!scp->use_sg) {
		mfi_sgl->sge64[0].phys_addr = pci_map_single(instance->pdev,
							     scp->
							     request_buffer,
							     scp->
							     request_bufflen,
							     scp->
							     sc_data_direction);

		mfi_sgl->sge64[0].length = scp->request_bufflen;

		return 1;
	}

	os_sgl = (struct scatterlist *)scp->request_buffer;
	sge_count = pci_map_sg(instance->pdev, os_sgl, scp->use_sg,
			       scp->sc_data_direction);

	for (i = 0; i < sge_count; i++, os_sgl++) {
		mfi_sgl->sge64[i].length = sg_dma_len(os_sgl);
		mfi_sgl->sge64[i].phys_addr = sg_dma_address(os_sgl);
	}

	return sge_count;
}

/**
 * megasas_build_dcdb -	Prepares a direct cdb (DCDB) command
 * @instance:		Adapter soft state
 * @scp:		SCSI command
 * @cmd:		Command to be prepared in
 *
 * This function prepares CDB commands. These are typcially pass-through
 * commands to the devices.
 */
static inline int
megasas_build_dcdb(struct megasas_instance *instance, struct scsi_cmnd *scp,
		   struct megasas_cmd *cmd)
{
	u32 sge_sz;
	int sge_bytes;
	u32 is_logical;
	u32 device_id;
	u16 flags = 0;
	struct megasas_pthru_frame *pthru;

	is_logical = MEGASAS_IS_LOGICAL(scp);
	device_id = MEGASAS_DEV_INDEX(instance, scp);
	pthru = (struct megasas_pthru_frame *)cmd->frame;

	if (scp->sc_data_direction == PCI_DMA_TODEVICE)
		flags = MFI_FRAME_DIR_WRITE;
	else if (scp->sc_data_direction == PCI_DMA_FROMDEVICE)
		flags = MFI_FRAME_DIR_READ;
	else if (scp->sc_data_direction == PCI_DMA_NONE)
		flags = MFI_FRAME_DIR_NONE;

	/*
	 * Prepare the DCDB frame
	 */
	pthru->cmd = (is_logical) ? MFI_CMD_LD_SCSI_IO : MFI_CMD_PD_SCSI_IO;
	pthru->cmd_status = 0x0;
	pthru->scsi_status = 0x0;
	pthru->target_id = device_id;
	pthru->lun = scp->device->lun;
	pthru->cdb_len = scp->cmd_len;
	pthru->timeout = 0;
	pthru->flags = flags;
	pthru->data_xfer_len = scp->request_bufflen;

	memcpy(pthru->cdb, scp->cmnd, scp->cmd_len);

	/*
	 * Construct SGL
	 */
	sge_sz = (IS_DMA64) ? sizeof(struct megasas_sge64) :
	    sizeof(struct megasas_sge32);

	if (IS_DMA64) {
		pthru->flags |= MFI_FRAME_SGL64;
		pthru->sge_count = megasas_make_sgl64(instance, scp,
						      &pthru->sgl);
	} else
		pthru->sge_count = megasas_make_sgl32(instance, scp,
						      &pthru->sgl);

	/*
	 * Sense info specific
	 */
	pthru->sense_len = SCSI_SENSE_BUFFERSIZE;
	pthru->sense_buf_phys_addr_hi = 0;
	pthru->sense_buf_phys_addr_lo = cmd->sense_phys_addr;

	sge_bytes = sge_sz * pthru->sge_count;

	/*
	 * Compute the total number of frames this command consumes. FW uses
	 * this number to pull sufficient number of frames from host memory.
	 */
	cmd->frame_count = (sge_bytes / MEGAMFI_FRAME_SIZE) +
	    ((sge_bytes % MEGAMFI_FRAME_SIZE) ? 1 : 0) + 1;

	if (cmd->frame_count > 7)
		cmd->frame_count = 8;

	return cmd->frame_count;
}

/**
 * megasas_build_ldio -	Prepares IOs to logical devices
 * @instance:		Adapter soft state
 * @scp:		SCSI command
 * @cmd:		Command to to be prepared
 *
 * Frames (and accompanying SGLs) for regular SCSI IOs use this function.
 */
static inline int
megasas_build_ldio(struct megasas_instance *instance, struct scsi_cmnd *scp,
		   struct megasas_cmd *cmd)
{
	u32 sge_sz;
	int sge_bytes;
	u32 device_id;
	u8 sc = scp->cmnd[0];
	u16 flags = 0;
	struct megasas_io_frame *ldio;

	device_id = MEGASAS_DEV_INDEX(instance, scp);
	ldio = (struct megasas_io_frame *)cmd->frame;

	if (scp->sc_data_direction == PCI_DMA_TODEVICE)
		flags = MFI_FRAME_DIR_WRITE;
	else if (scp->sc_data_direction == PCI_DMA_FROMDEVICE)
		flags = MFI_FRAME_DIR_READ;

	/*
	 * Preare the Logical IO frame: 2nd bit is zero for all read cmds
	 */
	ldio->cmd = (sc & 0x02) ? MFI_CMD_LD_WRITE : MFI_CMD_LD_READ;
	ldio->cmd_status = 0x0;
	ldio->scsi_status = 0x0;
	ldio->target_id = device_id;
	ldio->timeout = 0;
	ldio->reserved_0 = 0;
	ldio->pad_0 = 0;
	ldio->flags = flags;
	ldio->start_lba_hi = 0;
	ldio->access_byte = (scp->cmd_len != 6) ? scp->cmnd[1] : 0;

	/*
	 * 6-byte READ(0x08) or WRITE(0x0A) cdb
	 */
	if (scp->cmd_len == 6) {
		ldio->lba_count = (u32) scp->cmnd[4];
		ldio->start_lba_lo = ((u32) scp->cmnd[1] << 16) |
		    ((u32) scp->cmnd[2] << 8) | (u32) scp->cmnd[3];

		ldio->start_lba_lo &= 0x1FFFFF;
	}

	/*
	 * 10-byte READ(0x28) or WRITE(0x2A) cdb
	 */
	else if (scp->cmd_len == 10) {
		ldio->lba_count = (u32) scp->cmnd[8] |
		    ((u32) scp->cmnd[7] << 8);
		ldio->start_lba_lo = ((u32) scp->cmnd[2] << 24) |
		    ((u32) scp->cmnd[3] << 16) |
		    ((u32) scp->cmnd[4] << 8) | (u32) scp->cmnd[5];
	}

	/*
	 * 12-byte READ(0xA8) or WRITE(0xAA) cdb
	 */
	else if (scp->cmd_len == 12) {
		ldio->lba_count = ((u32) scp->cmnd[6] << 24) |
		    ((u32) scp->cmnd[7] << 16) |
		    ((u32) scp->cmnd[8] << 8) | (u32) scp->cmnd[9];

		ldio->start_lba_lo = ((u32) scp->cmnd[2] << 24) |
		    ((u32) scp->cmnd[3] << 16) |
		    ((u32) scp->cmnd[4] << 8) | (u32) scp->cmnd[5];
	}

	/*
	 * 16-byte READ(0x88) or WRITE(0x8A) cdb
	 */
	else if (scp->cmd_len == 16) {
		ldio->lba_count = ((u32) scp->cmnd[10] << 24) |
		    ((u32) scp->cmnd[11] << 16) |
		    ((u32) scp->cmnd[12] << 8) | (u32) scp->cmnd[13];

		ldio->start_lba_lo = ((u32) scp->cmnd[6] << 24) |
		    ((u32) scp->cmnd[7] << 16) |
		    ((u32) scp->cmnd[8] << 8) | (u32) scp->cmnd[9];

		ldio->start_lba_hi = ((u32) scp->cmnd[2] << 24) |
		    ((u32) scp->cmnd[3] << 16) |
		    ((u32) scp->cmnd[4] << 8) | (u32) scp->cmnd[5];

	}

	/*
	 * Construct SGL
	 */
	sge_sz = (IS_DMA64) ? sizeof(struct megasas_sge64) :
	    sizeof(struct megasas_sge32);

	if (IS_DMA64) {
		ldio->flags |= MFI_FRAME_SGL64;
		ldio->sge_count = megasas_make_sgl64(instance, scp, &ldio->sgl);
	} else
		ldio->sge_count = megasas_make_sgl32(instance, scp, &ldio->sgl);

	/*
	 * Sense info specific
	 */
	ldio->sense_len = SCSI_SENSE_BUFFERSIZE;
	ldio->sense_buf_phys_addr_hi = 0;
	ldio->sense_buf_phys_addr_lo = cmd->sense_phys_addr;

	sge_bytes = sge_sz * ldio->sge_count;

	cmd->frame_count = (sge_bytes / MEGAMFI_FRAME_SIZE) +
	    ((sge_bytes % MEGAMFI_FRAME_SIZE) ? 1 : 0) + 1;

	if (cmd->frame_count > 7)
		cmd->frame_count = 8;

	return cmd->frame_count;
}

/**
 * megasas_build_cmd -	Prepares a command packet
 * @instance:		Adapter soft state
 * @scp:		SCSI command
 * @frame_count:	[OUT] Number of frames used to prepare this command
 */
static inline struct megasas_cmd *megasas_build_cmd(struct megasas_instance
						    *instance,
						    struct scsi_cmnd *scp,
						    int *frame_count)
{
	u32 logical_cmd;
	struct megasas_cmd *cmd;

	/*
	 * Find out if this is logical or physical drive command.
	 */
	logical_cmd = MEGASAS_IS_LOGICAL(scp);

	/*
	 * Logical drive command
	 */
	if (logical_cmd) {

		if (scp->device->id >= MEGASAS_MAX_LD) {
			scp->result = DID_BAD_TARGET << 16;
			return NULL;
		}

		switch (scp->cmnd[0]) {

		case READ_10:
		case WRITE_10:
		case READ_12:
		case WRITE_12:
		case READ_6:
		case WRITE_6:
		case READ_16:
		case WRITE_16:
			/*
			 * Fail for LUN > 0
			 */
			if (scp->device->lun) {
				scp->result = DID_BAD_TARGET << 16;
				return NULL;
			}

			cmd = megasas_get_cmd(instance);

			if (!cmd) {
				scp->result = DID_IMM_RETRY << 16;
				return NULL;
			}

			*frame_count = megasas_build_ldio(instance, scp, cmd);

			if (!(*frame_count)) {
				megasas_return_cmd(instance, cmd);
				return NULL;
			}

			return cmd;

		default:
			/*
			 * Fail for LUN > 0
			 */
			if (scp->device->lun) {
				scp->result = DID_BAD_TARGET << 16;
				return NULL;
			}

			cmd = megasas_get_cmd(instance);

			if (!cmd) {
				scp->result = DID_IMM_RETRY << 16;
				return NULL;
			}

			*frame_count = megasas_build_dcdb(instance, scp, cmd);

			if (!(*frame_count)) {
				megasas_return_cmd(instance, cmd);
				return NULL;
			}

			return cmd;
		}
	} else {
		cmd = megasas_get_cmd(instance);

		if (!cmd) {
			scp->result = DID_IMM_RETRY << 16;
			return NULL;
		}

		*frame_count = megasas_build_dcdb(instance, scp, cmd);

		if (!(*frame_count)) {
			megasas_return_cmd(instance, cmd);
			return NULL;
		}

		return cmd;
	}

	return NULL;
}

/**
 * megasas_queue_command -	Queue entry point
 * @scmd:			SCSI command to be queued
 * @done:			Callback entry point
 */
static int
megasas_queue_command(struct scsi_cmnd *scmd, void (*done) (struct scsi_cmnd *))
{
	u32 frame_count;
	unsigned long flags;
	struct megasas_cmd *cmd;
	struct megasas_instance *instance;

	instance = (struct megasas_instance *)
	    scmd->device->host->hostdata;
	scmd->scsi_done = done;
	scmd->result = 0;

	cmd = megasas_build_cmd(instance, scmd, &frame_count);

	if (!cmd) {
		done(scmd);
		return 0;
	}

	cmd->scmd = scmd;
	scmd->SCp.ptr = (char *)cmd;
	scmd->SCp.sent_command = jiffies;

	/*
	 * Issue the command to the FW
	 */
	spin_lock_irqsave(&instance->instance_lock, flags);
	instance->fw_outstanding++;
	spin_unlock_irqrestore(&instance->instance_lock, flags);

	writel(((cmd->frame_phys_addr >> 3) | (cmd->frame_count - 1)),
	       &instance->reg_set->inbound_queue_port);

	return 0;
}

/**
 * megasas_wait_for_outstanding -	Wait for all outstanding cmds
 * @instance:				Adapter soft state
 *
 * This function waits for upto MEGASAS_RESET_WAIT_TIME seconds for FW to
 * complete all its outstanding commands. Returns error if one or more IOs
 * are pending after this time period. It also marks the controller dead.
 */
static int megasas_wait_for_outstanding(struct megasas_instance *instance)
{
	int i;
	u32 wait_time = MEGASAS_RESET_WAIT_TIME;

	for (i = 0; i < wait_time; i++) {

		if (!instance->fw_outstanding)
			break;

		if (!(i % MEGASAS_RESET_NOTICE_INTERVAL)) {
			printk(KERN_NOTICE "megasas: [%2d]waiting for %d "
			       "commands to complete\n", i,
			       instance->fw_outstanding);
		}

		msleep(1000);
	}

	if (instance->fw_outstanding) {
		instance->hw_crit_error = 1;
		return FAILED;
	}

	return SUCCESS;
}

/**
 * megasas_generic_reset -	Generic reset routine
 * @scmd:			Mid-layer SCSI command
 *
 * This routine implements a generic reset handler for device, bus and host
 * reset requests. Device, bus and host specific reset handlers can use this
 * function after they do their specific tasks.
 */
static int megasas_generic_reset(struct scsi_cmnd *scmd)
{
	int ret_val;
	struct megasas_instance *instance;

	instance = (struct megasas_instance *)scmd->device->host->hostdata;

	scmd_printk(KERN_NOTICE, scmd, "megasas: RESET -%ld cmd=%x\n",
	       scmd->serial_number, scmd->cmnd[0]);

	if (instance->hw_crit_error) {
		printk(KERN_ERR "megasas: cannot recover from previous reset "
		       "failures\n");
		return FAILED;
	}

	ret_val = megasas_wait_for_outstanding(instance);
	if (ret_val == SUCCESS)
		printk(KERN_NOTICE "megasas: reset successful \n");
	else
		printk(KERN_ERR "megasas: failed to do reset\n");

	return ret_val;
}

static enum scsi_eh_timer_return megasas_reset_timer(struct scsi_cmnd *scmd)
{
	unsigned long seconds;

	if (scmd->SCp.ptr) {
		seconds = (jiffies - scmd->SCp.sent_command) / HZ;

		if (seconds < 90) {
			return EH_RESET_TIMER;
		} else {
			return EH_NOT_HANDLED;
		}
	}

	return EH_HANDLED;
}

/**
 * megasas_reset_device -	Device reset handler entry point
 */
static int megasas_reset_device(struct scsi_cmnd *scmd)
{
	int ret;

	/*
	 * First wait for all commands to complete
	 */
	ret = megasas_generic_reset(scmd);

	return ret;
}

/**
 * megasas_reset_bus_host -	Bus & host reset handler entry point
 */
static int megasas_reset_bus_host(struct scsi_cmnd *scmd)
{
	int ret;

	/*
	 * Frist wait for all commands to complete
	 */
	ret = megasas_generic_reset(scmd);

	return ret;
}

/**
 * megasas_service_aen -	Processes an event notification
 * @instance:			Adapter soft state
 * @cmd:			AEN command completed by the ISR
 *
 * For AEN, driver sends a command down to FW that is held by the FW till an
 * event occurs. When an event of interest occurs, FW completes the command
 * that it was previously holding.
 *
 * This routines sends SIGIO signal to processes that have registered with the
 * driver for AEN.
 */
static void
megasas_service_aen(struct megasas_instance *instance, struct megasas_cmd *cmd)
{
	/*
	 * Don't signal app if it is just an aborted previously registered aen
	 */
	if (!cmd->abort_aen)
		kill_fasync(&megasas_async_queue, SIGIO, POLL_IN);
	else
		cmd->abort_aen = 0;

	instance->aen_cmd = NULL;
	megasas_return_cmd(instance, cmd);
}

/*
 * Scsi host template for megaraid_sas driver
 */
static struct scsi_host_template megasas_template = {

	.module = THIS_MODULE,
	.name = "LSI Logic SAS based MegaRAID driver",
	.proc_name = "megaraid_sas",
	.queuecommand = megasas_queue_command,
	.eh_device_reset_handler = megasas_reset_device,
	.eh_bus_reset_handler = megasas_reset_bus_host,
	.eh_host_reset_handler = megasas_reset_bus_host,
	.eh_timed_out = megasas_reset_timer,
	.use_clustering = ENABLE_CLUSTERING,
};

/**
 * megasas_complete_int_cmd -	Completes an internal command
 * @instance:			Adapter soft state
 * @cmd:			Command to be completed
 *
 * The megasas_issue_blocked_cmd() function waits for a command to complete
 * after it issues a command. This function wakes up that waiting routine by
 * calling wake_up() on the wait queue.
 */
static void
megasas_complete_int_cmd(struct megasas_instance *instance,
			 struct megasas_cmd *cmd)
{
	cmd->cmd_status = cmd->frame->io.cmd_status;

	if (cmd->cmd_status == ENODATA) {
		cmd->cmd_status = 0;
	}
	wake_up(&instance->int_cmd_wait_q);
}

/**
 * megasas_complete_abort -	Completes aborting a command
 * @instance:			Adapter soft state
 * @cmd:			Cmd that was issued to abort another cmd
 *
 * The megasas_issue_blocked_abort_cmd() function waits on abort_cmd_wait_q 
 * after it issues an abort on a previously issued command. This function 
 * wakes up all functions waiting on the same wait queue.
 */
static void
megasas_complete_abort(struct megasas_instance *instance,
		       struct megasas_cmd *cmd)
{
	if (cmd->sync_cmd) {
		cmd->sync_cmd = 0;
		cmd->cmd_status = 0;
		wake_up(&instance->abort_cmd_wait_q);
	}

	return;
}

/**
 * megasas_unmap_sgbuf -	Unmap SG buffers
 * @instance:			Adapter soft state
 * @cmd:			Completed command
 */
static inline void
megasas_unmap_sgbuf(struct megasas_instance *instance, struct megasas_cmd *cmd)
{
	dma_addr_t buf_h;
	u8 opcode;

	if (cmd->scmd->use_sg) {
		pci_unmap_sg(instance->pdev, cmd->scmd->request_buffer,
			     cmd->scmd->use_sg, cmd->scmd->sc_data_direction);
		return;
	}

	if (!cmd->scmd->request_bufflen)
		return;

	opcode = cmd->frame->hdr.cmd;

	if ((opcode == MFI_CMD_LD_READ) || (opcode == MFI_CMD_LD_WRITE)) {
		if (IS_DMA64)
			buf_h = cmd->frame->io.sgl.sge64[0].phys_addr;
		else
			buf_h = cmd->frame->io.sgl.sge32[0].phys_addr;
	} else {
		if (IS_DMA64)
			buf_h = cmd->frame->pthru.sgl.sge64[0].phys_addr;
		else
			buf_h = cmd->frame->pthru.sgl.sge32[0].phys_addr;
	}

	pci_unmap_single(instance->pdev, buf_h, cmd->scmd->request_bufflen,
			 cmd->scmd->sc_data_direction);
	return;
}

/**
 * megasas_complete_cmd -	Completes a command
 * @instance:			Adapter soft state
 * @cmd:			Command to be completed
 * @alt_status:			If non-zero, use this value as status to 
 * 				SCSI mid-layer instead of the value returned
 * 				by the FW. This should be used if caller wants
 * 				an alternate status (as in the case of aborted
 * 				commands)
 */
static inline void
megasas_complete_cmd(struct megasas_instance *instance, struct megasas_cmd *cmd,
		     u8 alt_status)
{
	int exception = 0;
	struct megasas_header *hdr = &cmd->frame->hdr;
	unsigned long flags;

	if (cmd->scmd) {
		cmd->scmd->SCp.ptr = (char *)0;
	}

	switch (hdr->cmd) {

	case MFI_CMD_PD_SCSI_IO:
	case MFI_CMD_LD_SCSI_IO:

		/*
		 * MFI_CMD_PD_SCSI_IO and MFI_CMD_LD_SCSI_IO could have been
		 * issued either through an IO path or an IOCTL path. If it
		 * was via IOCTL, we will send it to internal completion.
		 */
		if (cmd->sync_cmd) {
			cmd->sync_cmd = 0;
			megasas_complete_int_cmd(instance, cmd);
			break;
		}

		/*
		 * Don't export physical disk devices to mid-layer.
		 */
		if (!MEGASAS_IS_LOGICAL(cmd->scmd) &&
		    (hdr->cmd_status == MFI_STAT_OK) &&
		    (cmd->scmd->cmnd[0] == INQUIRY)) {

			if (((*(u8 *) cmd->scmd->request_buffer) & 0x1F) ==
			    TYPE_DISK) {
				cmd->scmd->result = DID_BAD_TARGET << 16;
				exception = 1;
			}
		}

	case MFI_CMD_LD_READ:
	case MFI_CMD_LD_WRITE:

		if (alt_status) {
			cmd->scmd->result = alt_status << 16;
			exception = 1;
		}

		if (exception) {

			spin_lock_irqsave(&instance->instance_lock, flags);
			instance->fw_outstanding--;
			spin_unlock_irqrestore(&instance->instance_lock, flags);

			megasas_unmap_sgbuf(instance, cmd);
			cmd->scmd->scsi_done(cmd->scmd);
			megasas_return_cmd(instance, cmd);

			break;
		}

		switch (hdr->cmd_status) {

		case MFI_STAT_OK:
			cmd->scmd->result = DID_OK << 16;
			break;

		case MFI_STAT_SCSI_IO_FAILED:
		case MFI_STAT_LD_INIT_IN_PROGRESS:
			cmd->scmd->result =
			    (DID_ERROR << 16) | hdr->scsi_status;
			break;

		case MFI_STAT_SCSI_DONE_WITH_ERROR:

			cmd->scmd->result = (DID_OK << 16) | hdr->scsi_status;

			if (hdr->scsi_status == SAM_STAT_CHECK_CONDITION) {
				memset(cmd->scmd->sense_buffer, 0,
				       SCSI_SENSE_BUFFERSIZE);
				memcpy(cmd->scmd->sense_buffer, cmd->sense,
				       hdr->sense_len);

				cmd->scmd->result |= DRIVER_SENSE << 24;
			}

			break;

		case MFI_STAT_LD_OFFLINE:
		case MFI_STAT_DEVICE_NOT_FOUND:
			cmd->scmd->result = DID_BAD_TARGET << 16;
			break;

		default:
			printk(KERN_DEBUG "megasas: MFI FW status %#x\n",
			       hdr->cmd_status);
			cmd->scmd->result = DID_ERROR << 16;
			break;
		}

		spin_lock_irqsave(&instance->instance_lock, flags);
		instance->fw_outstanding--;
		spin_unlock_irqrestore(&instance->instance_lock, flags);

		megasas_unmap_sgbuf(instance, cmd);
		cmd->scmd->scsi_done(cmd->scmd);
		megasas_return_cmd(instance, cmd);

		break;

	case MFI_CMD_SMP:
	case MFI_CMD_STP:
	case MFI_CMD_DCMD:

		/*
		 * See if got an event notification
		 */
		if (cmd->frame->dcmd.opcode == MR_DCMD_CTRL_EVENT_WAIT)
			megasas_service_aen(instance, cmd);
		else
			megasas_complete_int_cmd(instance, cmd);

		break;

	case MFI_CMD_ABORT:
		/*
		 * Cmd issued to abort another cmd returned
		 */
		megasas_complete_abort(instance, cmd);
		break;

	default:
		printk("megasas: Unknown command completed! [0x%X]\n",
		       hdr->cmd);
		break;
	}
}

/**
 * megasas_deplete_reply_queue -	Processes all completed commands
 * @instance:				Adapter soft state
 * @alt_status:				Alternate status to be returned to
 * 					SCSI mid-layer instead of the status
 * 					returned by the FW
 */
static inline int
megasas_deplete_reply_queue(struct megasas_instance *instance, u8 alt_status)
{
	u32 status;
	u32 producer;
	u32 consumer;
	u32 context;
	struct megasas_cmd *cmd;

	/*
	 * Check if it is our interrupt
	 */
	status = readl(&instance->reg_set->outbound_intr_status);

	if (!(status & MFI_OB_INTR_STATUS_MASK)) {
		return IRQ_NONE;
	}

	/*
	 * Clear the interrupt by writing back the same value
	 */
	writel(status, &instance->reg_set->outbound_intr_status);

	producer = *instance->producer;
	consumer = *instance->consumer;

	while (consumer != producer) {
		context = instance->reply_queue[consumer];

		cmd = instance->cmd_list[context];

		megasas_complete_cmd(instance, cmd, alt_status);

		consumer++;
		if (consumer == (instance->max_fw_cmds + 1)) {
			consumer = 0;
		}
	}

	*instance->consumer = producer;

	return IRQ_HANDLED;
}

/**
 * megasas_isr - isr entry point
 */
static irqreturn_t megasas_isr(int irq, void *devp, struct pt_regs *regs)
{
	return megasas_deplete_reply_queue((struct megasas_instance *)devp,
					   DID_OK);
}

/**
 * megasas_transition_to_ready -	Move the FW to READY state
 * @reg_set:				MFI register set
 *
 * During the initialization, FW passes can potentially be in any one of
 * several possible states. If the FW in operational, waiting-for-handshake
 * states, driver must take steps to bring it to ready state. Otherwise, it
 * has to wait for the ready state.
 */
static int
megasas_transition_to_ready(struct megasas_register_set __iomem * reg_set)
{
	int i;
	u8 max_wait;
	u32 fw_state;
	u32 cur_state;

	fw_state = readl(&reg_set->outbound_msg_0) & MFI_STATE_MASK;

	while (fw_state != MFI_STATE_READY) {

		printk(KERN_INFO "megasas: Waiting for FW to come to ready"
		       " state\n");
		switch (fw_state) {

		case MFI_STATE_FAULT:

			printk(KERN_DEBUG "megasas: FW in FAULT state!!\n");
			return -ENODEV;

		case MFI_STATE_WAIT_HANDSHAKE:
			/*
			 * Set the CLR bit in inbound doorbell
			 */
			writel(MFI_INIT_CLEAR_HANDSHAKE,
			       &reg_set->inbound_doorbell);

			max_wait = 2;
			cur_state = MFI_STATE_WAIT_HANDSHAKE;
			break;

		case MFI_STATE_OPERATIONAL:
			/*
			 * Bring it to READY state; assuming max wait 2 secs
			 */
			megasas_disable_intr(reg_set);
			writel(MFI_INIT_READY, &reg_set->inbound_doorbell);

			max_wait = 10;
			cur_state = MFI_STATE_OPERATIONAL;
			break;

		case MFI_STATE_UNDEFINED:
			/*
			 * This state should not last for more than 2 seconds
			 */
			max_wait = 2;
			cur_state = MFI_STATE_UNDEFINED;
			break;

		case MFI_STATE_BB_INIT:
			max_wait = 2;
			cur_state = MFI_STATE_BB_INIT;
			break;

		case MFI_STATE_FW_INIT:
			max_wait = 20;
			cur_state = MFI_STATE_FW_INIT;
			break;

		case MFI_STATE_FW_INIT_2:
			max_wait = 20;
			cur_state = MFI_STATE_FW_INIT_2;
			break;

		case MFI_STATE_DEVICE_SCAN:
			max_wait = 20;
			cur_state = MFI_STATE_DEVICE_SCAN;
			break;

		case MFI_STATE_FLUSH_CACHE:
			max_wait = 20;
			cur_state = MFI_STATE_FLUSH_CACHE;
			break;

		default:
			printk(KERN_DEBUG "megasas: Unknown state 0x%x\n",
			       fw_state);
			return -ENODEV;
		}

		/*
		 * The cur_state should not last for more than max_wait secs
		 */
		for (i = 0; i < (max_wait * 1000); i++) {
			fw_state = MFI_STATE_MASK &
			    readl(&reg_set->outbound_msg_0);

			if (fw_state == cur_state) {
				msleep(1);
			} else
				break;
		}

		/*
		 * Return error if fw_state hasn't changed after max_wait
		 */
		if (fw_state == cur_state) {
			printk(KERN_DEBUG "FW state [%d] hasn't changed "
			       "in %d secs\n", fw_state, max_wait);
			return -ENODEV;
		}
	};

	return 0;
}

/**
 * megasas_teardown_frame_pool -	Destroy the cmd frame DMA pool
 * @instance:				Adapter soft state
 */
static void megasas_teardown_frame_pool(struct megasas_instance *instance)
{
	int i;
	u32 max_cmd = instance->max_fw_cmds;
	struct megasas_cmd *cmd;

	if (!instance->frame_dma_pool)
		return;

	/*
	 * Return all frames to pool
	 */
	for (i = 0; i < max_cmd; i++) {

		cmd = instance->cmd_list[i];

		if (cmd->frame)
			pci_pool_free(instance->frame_dma_pool, cmd->frame,
				      cmd->frame_phys_addr);

		if (cmd->sense)
			pci_pool_free(instance->sense_dma_pool, cmd->frame,
				      cmd->sense_phys_addr);
	}

	/*
	 * Now destroy the pool itself
	 */
	pci_pool_destroy(instance->frame_dma_pool);
	pci_pool_destroy(instance->sense_dma_pool);

	instance->frame_dma_pool = NULL;
	instance->sense_dma_pool = NULL;
}

/**
 * megasas_create_frame_pool -	Creates DMA pool for cmd frames
 * @instance:			Adapter soft state
 *
 * Each command packet has an embedded DMA memory buffer that is used for
 * filling MFI frame and the SG list that immediately follows the frame. This
 * function creates those DMA memory buffers for each command packet by using
 * PCI pool facility.
 */
static int megasas_create_frame_pool(struct megasas_instance *instance)
{
	int i;
	u32 max_cmd;
	u32 sge_sz;
	u32 sgl_sz;
	u32 total_sz;
	u32 frame_count;
	struct megasas_cmd *cmd;

	max_cmd = instance->max_fw_cmds;

	/*
	 * Size of our frame is 64 bytes for MFI frame, followed by max SG
	 * elements and finally SCSI_SENSE_BUFFERSIZE bytes for sense buffer
	 */
	sge_sz = (IS_DMA64) ? sizeof(struct megasas_sge64) :
	    sizeof(struct megasas_sge32);

	/*
	 * Calculated the number of 64byte frames required for SGL
	 */
	sgl_sz = sge_sz * instance->max_num_sge;
	frame_count = (sgl_sz + MEGAMFI_FRAME_SIZE - 1) / MEGAMFI_FRAME_SIZE;

	/*
	 * We need one extra frame for the MFI command
	 */
	frame_count++;

	total_sz = MEGAMFI_FRAME_SIZE * frame_count;
	/*
	 * Use DMA pool facility provided by PCI layer
	 */
	instance->frame_dma_pool = pci_pool_create("megasas frame pool",
						   instance->pdev, total_sz, 64,
						   0);

	if (!instance->frame_dma_pool) {
		printk(KERN_DEBUG "megasas: failed to setup frame pool\n");
		return -ENOMEM;
	}

	instance->sense_dma_pool = pci_pool_create("megasas sense pool",
						   instance->pdev, 128, 4, 0);

	if (!instance->sense_dma_pool) {
		printk(KERN_DEBUG "megasas: failed to setup sense pool\n");

		pci_pool_destroy(instance->frame_dma_pool);
		instance->frame_dma_pool = NULL;

		return -ENOMEM;
	}

	/*
	 * Allocate and attach a frame to each of the commands in cmd_list.
	 * By making cmd->index as the context instead of the &cmd, we can
	 * always use 32bit context regardless of the architecture
	 */
	for (i = 0; i < max_cmd; i++) {

		cmd = instance->cmd_list[i];

		cmd->frame = pci_pool_alloc(instance->frame_dma_pool,
					    GFP_KERNEL, &cmd->frame_phys_addr);

		cmd->sense = pci_pool_alloc(instance->sense_dma_pool,
					    GFP_KERNEL, &cmd->sense_phys_addr);

		/*
		 * megasas_teardown_frame_pool() takes care of freeing
		 * whatever has been allocated
		 */
		if (!cmd->frame || !cmd->sense) {
			printk(KERN_DEBUG "megasas: pci_pool_alloc failed \n");
			megasas_teardown_frame_pool(instance);
			return -ENOMEM;
		}

		cmd->frame->io.context = cmd->index;
	}

	return 0;
}

/**
 * megasas_free_cmds -	Free all the cmds in the free cmd pool
 * @instance:		Adapter soft state
 */
static void megasas_free_cmds(struct megasas_instance *instance)
{
	int i;
	/* First free the MFI frame pool */
	megasas_teardown_frame_pool(instance);

	/* Free all the commands in the cmd_list */
	for (i = 0; i < instance->max_fw_cmds; i++)
		kfree(instance->cmd_list[i]);

	/* Free the cmd_list buffer itself */
	kfree(instance->cmd_list);
	instance->cmd_list = NULL;

	INIT_LIST_HEAD(&instance->cmd_pool);
}

/**
 * megasas_alloc_cmds -	Allocates the command packets
 * @instance:		Adapter soft state
 *
 * Each command that is issued to the FW, whether IO commands from the OS or
 * internal commands like IOCTLs, are wrapped in local data structure called
 * megasas_cmd. The frame embedded in this megasas_cmd is actually issued to
 * the FW.
 *
 * Each frame has a 32-bit field called context (tag). This context is used
 * to get back the megasas_cmd from the frame when a frame gets completed in
 * the ISR. Typically the address of the megasas_cmd itself would be used as
 * the context. But we wanted to keep the differences between 32 and 64 bit
 * systems to the mininum. We always use 32 bit integers for the context. In
 * this driver, the 32 bit values are the indices into an array cmd_list.
 * This array is used only to look up the megasas_cmd given the context. The
 * free commands themselves are maintained in a linked list called cmd_pool.
 */
static int megasas_alloc_cmds(struct megasas_instance *instance)
{
	int i;
	int j;
	u32 max_cmd;
	struct megasas_cmd *cmd;

	max_cmd = instance->max_fw_cmds;

	/*
	 * instance->cmd_list is an array of struct megasas_cmd pointers.
	 * Allocate the dynamic array first and then allocate individual
	 * commands.
	 */
	instance->cmd_list = kmalloc(sizeof(struct megasas_cmd *) * max_cmd,
				     GFP_KERNEL);

	if (!instance->cmd_list) {
		printk(KERN_DEBUG "megasas: out of memory\n");
		return -ENOMEM;
	}

	memset(instance->cmd_list, 0, sizeof(struct megasas_cmd *) * max_cmd);

	for (i = 0; i < max_cmd; i++) {
		instance->cmd_list[i] = kmalloc(sizeof(struct megasas_cmd),
						GFP_KERNEL);

		if (!instance->cmd_list[i]) {

			for (j = 0; j < i; j++)
				kfree(instance->cmd_list[j]);

			kfree(instance->cmd_list);
			instance->cmd_list = NULL;

			return -ENOMEM;
		}
	}

	/*
	 * Add all the commands to command pool (instance->cmd_pool)
	 */
	for (i = 0; i < max_cmd; i++) {
		cmd = instance->cmd_list[i];
		memset(cmd, 0, sizeof(struct megasas_cmd));
		cmd->index = i;
		cmd->instance = instance;

		list_add_tail(&cmd->list, &instance->cmd_pool);
	}

	/*
	 * Create a frame pool and assign one frame to each cmd
	 */
	if (megasas_create_frame_pool(instance)) {
		printk(KERN_DEBUG "megasas: Error creating frame DMA pool\n");
		megasas_free_cmds(instance);
	}

	return 0;
}

/**
 * megasas_get_controller_info -	Returns FW's controller structure
 * @instance:				Adapter soft state
 * @ctrl_info:				Controller information structure
 *
 * Issues an internal command (DCMD) to get the FW's controller structure.
 * This information is mainly used to find out the maximum IO transfer per
 * command supported by the FW.
 */
static int
megasas_get_ctrl_info(struct megasas_instance *instance,
		      struct megasas_ctrl_info *ctrl_info)
{
	int ret = 0;
	struct megasas_cmd *cmd;
	struct megasas_dcmd_frame *dcmd;
	struct megasas_ctrl_info *ci;
	dma_addr_t ci_h = 0;

	cmd = megasas_get_cmd(instance);

	if (!cmd) {
		printk(KERN_DEBUG "megasas: Failed to get a free cmd\n");
		return -ENOMEM;
	}

	dcmd = &cmd->frame->dcmd;

	ci = pci_alloc_consistent(instance->pdev,
				  sizeof(struct megasas_ctrl_info), &ci_h);

	if (!ci) {
		printk(KERN_DEBUG "Failed to alloc mem for ctrl info\n");
		megasas_return_cmd(instance, cmd);
		return -ENOMEM;
	}

	memset(ci, 0, sizeof(*ci));
	memset(dcmd->mbox.b, 0, MFI_MBOX_SIZE);

	dcmd->cmd = MFI_CMD_DCMD;
	dcmd->cmd_status = 0xFF;
	dcmd->sge_count = 1;
	dcmd->flags = MFI_FRAME_DIR_READ;
	dcmd->timeout = 0;
	dcmd->data_xfer_len = sizeof(struct megasas_ctrl_info);
	dcmd->opcode = MR_DCMD_CTRL_GET_INFO;
	dcmd->sgl.sge32[0].phys_addr = ci_h;
	dcmd->sgl.sge32[0].length = sizeof(struct megasas_ctrl_info);

	if (!megasas_issue_polled(instance, cmd)) {
		ret = 0;
		memcpy(ctrl_info, ci, sizeof(struct megasas_ctrl_info));
	} else {
		ret = -1;
	}

	pci_free_consistent(instance->pdev, sizeof(struct megasas_ctrl_info),
			    ci, ci_h);

	megasas_return_cmd(instance, cmd);
	return ret;
}

/**
 * megasas_init_mfi -	Initializes the FW
 * @instance:		Adapter soft state
 *
 * This is the main function for initializing MFI firmware.
 */
static int megasas_init_mfi(struct megasas_instance *instance)
{
	u32 context_sz;
	u32 reply_q_sz;
	u32 max_sectors_1;
	u32 max_sectors_2;
	struct megasas_register_set __iomem *reg_set;

	struct megasas_cmd *cmd;
	struct megasas_ctrl_info *ctrl_info;

	struct megasas_init_frame *init_frame;
	struct megasas_init_queue_info *initq_info;
	dma_addr_t init_frame_h;
	dma_addr_t initq_info_h;

	/*
	 * Map the message registers
	 */
	instance->base_addr = pci_resource_start(instance->pdev, 0);

	if (pci_request_regions(instance->pdev, "megasas: LSI Logic")) {
		printk(KERN_DEBUG "megasas: IO memory region busy!\n");
		return -EBUSY;
	}

	instance->reg_set = ioremap_nocache(instance->base_addr, 8192);

	if (!instance->reg_set) {
		printk(KERN_DEBUG "megasas: Failed to map IO mem\n");
		goto fail_ioremap;
	}

	reg_set = instance->reg_set;

	/*
	 * We expect the FW state to be READY
	 */
	if (megasas_transition_to_ready(instance->reg_set))
		goto fail_ready_state;

	/*
	 * Get various operational parameters from status register
	 */
	instance->max_fw_cmds = readl(&reg_set->outbound_msg_0) & 0x00FFFF;
	instance->max_num_sge = (readl(&reg_set->outbound_msg_0) & 0xFF0000) >>
	    0x10;
	/*
	 * Create a pool of commands
	 */
	if (megasas_alloc_cmds(instance))
		goto fail_alloc_cmds;

	/*
	 * Allocate memory for reply queue. Length of reply queue should
	 * be _one_ more than the maximum commands handled by the firmware.
	 *
	 * Note: When FW completes commands, it places corresponding contex
	 * values in this circular reply queue. This circular queue is a fairly
	 * typical producer-consumer queue. FW is the producer (of completed
	 * commands) and the driver is the consumer.
	 */
	context_sz = sizeof(u32);
	reply_q_sz = context_sz * (instance->max_fw_cmds + 1);

	instance->reply_queue = pci_alloc_consistent(instance->pdev,
						     reply_q_sz,
						     &instance->reply_queue_h);

	if (!instance->reply_queue) {
		printk(KERN_DEBUG "megasas: Out of DMA mem for reply queue\n");
		goto fail_reply_queue;
	}

	/*
	 * Prepare a init frame. Note the init frame points to queue info
	 * structure. Each frame has SGL allocated after first 64 bytes. For
	 * this frame - since we don't need any SGL - we use SGL's space as
	 * queue info structure
	 *
	 * We will not get a NULL command below. We just created the pool.
	 */
	cmd = megasas_get_cmd(instance);

	init_frame = (struct megasas_init_frame *)cmd->frame;
	initq_info = (struct megasas_init_queue_info *)
	    ((unsigned long)init_frame + 64);

	init_frame_h = cmd->frame_phys_addr;
	initq_info_h = init_frame_h + 64;

	memset(init_frame, 0, MEGAMFI_FRAME_SIZE);
	memset(initq_info, 0, sizeof(struct megasas_init_queue_info));

	initq_info->reply_queue_entries = instance->max_fw_cmds + 1;
	initq_info->reply_queue_start_phys_addr_lo = instance->reply_queue_h;

	initq_info->producer_index_phys_addr_lo = instance->producer_h;
	initq_info->consumer_index_phys_addr_lo = instance->consumer_h;

	init_frame->cmd = MFI_CMD_INIT;
	init_frame->cmd_status = 0xFF;
	init_frame->queue_info_new_phys_addr_lo = initq_info_h;

	init_frame->data_xfer_len = sizeof(struct megasas_init_queue_info);

	/*
	 * Issue the init frame in polled mode
	 */
	if (megasas_issue_polled(instance, cmd)) {
		printk(KERN_DEBUG "megasas: Failed to init firmware\n");
		goto fail_fw_init;
	}

	megasas_return_cmd(instance, cmd);

	ctrl_info = kmalloc(sizeof(struct megasas_ctrl_info), GFP_KERNEL);

	/*
	 * Compute the max allowed sectors per IO: The controller info has two
	 * limits on max sectors. Driver should use the minimum of these two.
	 *
	 * 1 << stripe_sz_ops.min = max sectors per strip
	 *
	 * Note that older firmwares ( < FW ver 30) didn't report information
	 * to calculate max_sectors_1. So the number ended up as zero always.
	 */
	if (ctrl_info && !megasas_get_ctrl_info(instance, ctrl_info)) {

		max_sectors_1 = (1 << ctrl_info->stripe_sz_ops.min) *
		    ctrl_info->max_strips_per_io;
		max_sectors_2 = ctrl_info->max_request_size;

		instance->max_sectors_per_req = (max_sectors_1 < max_sectors_2)
		    ? max_sectors_1 : max_sectors_2;
	} else
		instance->max_sectors_per_req = instance->max_num_sge *
		    PAGE_SIZE / 512;

	kfree(ctrl_info);

	return 0;

      fail_fw_init:
	megasas_return_cmd(instance, cmd);

	pci_free_consistent(instance->pdev, reply_q_sz,
			    instance->reply_queue, instance->reply_queue_h);
      fail_reply_queue:
	megasas_free_cmds(instance);

      fail_alloc_cmds:
      fail_ready_state:
	iounmap(instance->reg_set);

      fail_ioremap:
	pci_release_regions(instance->pdev);

	return -EINVAL;
}

/**
 * megasas_release_mfi -	Reverses the FW initialization
 * @intance:			Adapter soft state
 */
static void megasas_release_mfi(struct megasas_instance *instance)
{
	u32 reply_q_sz = sizeof(u32) * (instance->max_fw_cmds + 1);

	pci_free_consistent(instance->pdev, reply_q_sz,
			    instance->reply_queue, instance->reply_queue_h);

	megasas_free_cmds(instance);

	iounmap(instance->reg_set);

	pci_release_regions(instance->pdev);
}

/**
 * megasas_get_seq_num -	Gets latest event sequence numbers
 * @instance:			Adapter soft state
 * @eli:			FW event log sequence numbers information
 *
 * FW maintains a log of all events in a non-volatile area. Upper layers would
 * usually find out the latest sequence number of the events, the seq number at
 * the boot etc. They would "read" all the events below the latest seq number
 * by issuing a direct fw cmd (DCMD). For the future events (beyond latest seq
 * number), they would subsribe to AEN (asynchronous event notification) and
 * wait for the events to happen.
 */
static int
megasas_get_seq_num(struct megasas_instance *instance,
		    struct megasas_evt_log_info *eli)
{
	struct megasas_cmd *cmd;
	struct megasas_dcmd_frame *dcmd;
	struct megasas_evt_log_info *el_info;
	dma_addr_t el_info_h = 0;

	cmd = megasas_get_cmd(instance);

	if (!cmd) {
		return -ENOMEM;
	}

	dcmd = &cmd->frame->dcmd;
	el_info = pci_alloc_consistent(instance->pdev,
				       sizeof(struct megasas_evt_log_info),
				       &el_info_h);

	if (!el_info) {
		megasas_return_cmd(instance, cmd);
		return -ENOMEM;
	}

	memset(el_info, 0, sizeof(*el_info));
	memset(dcmd->mbox.b, 0, MFI_MBOX_SIZE);

	dcmd->cmd = MFI_CMD_DCMD;
	dcmd->cmd_status = 0x0;
	dcmd->sge_count = 1;
	dcmd->flags = MFI_FRAME_DIR_READ;
	dcmd->timeout = 0;
	dcmd->data_xfer_len = sizeof(struct megasas_evt_log_info);
	dcmd->opcode = MR_DCMD_CTRL_EVENT_GET_INFO;
	dcmd->sgl.sge32[0].phys_addr = el_info_h;
	dcmd->sgl.sge32[0].length = sizeof(struct megasas_evt_log_info);

	megasas_issue_blocked_cmd(instance, cmd);

	/*
	 * Copy the data back into callers buffer
	 */
	memcpy(eli, el_info, sizeof(struct megasas_evt_log_info));

	pci_free_consistent(instance->pdev, sizeof(struct megasas_evt_log_info),
			    el_info, el_info_h);

	megasas_return_cmd(instance, cmd);

	return 0;
}

/**
 * megasas_register_aen -	Registers for asynchronous event notification
 * @instance:			Adapter soft state
 * @seq_num:			The starting sequence number
 * @class_locale:		Class of the event
 *
 * This function subscribes for AEN for events beyond the @seq_num. It requests
 * to be notified if and only if the event is of type @class_locale
 */
static int
megasas_register_aen(struct megasas_instance *instance, u32 seq_num,
		     u32 class_locale_word)
{
	int ret_val;
	struct megasas_cmd *cmd;
	struct megasas_dcmd_frame *dcmd;
	union megasas_evt_class_locale curr_aen;
	union megasas_evt_class_locale prev_aen;

	/*
	 * If there an AEN pending already (aen_cmd), check if the
	 * class_locale of that pending AEN is inclusive of the new
	 * AEN request we currently have. If it is, then we don't have
	 * to do anything. In other words, whichever events the current
	 * AEN request is subscribing to, have already been subscribed
	 * to.
	 *
	 * If the old_cmd is _not_ inclusive, then we have to abort
	 * that command, form a class_locale that is superset of both
	 * old and current and re-issue to the FW
	 */

	curr_aen.word = class_locale_word;

	if (instance->aen_cmd) {

		prev_aen.word = instance->aen_cmd->frame->dcmd.mbox.w[1];

		/*
		 * A class whose enum value is smaller is inclusive of all
		 * higher values. If a PROGRESS (= -1) was previously
		 * registered, then a new registration requests for higher
		 * classes need not be sent to FW. They are automatically
		 * included.
		 *
		 * Locale numbers don't have such hierarchy. They are bitmap
		 * values
		 */
		if ((prev_aen.members.class <= curr_aen.members.class) &&
		    !((prev_aen.members.locale & curr_aen.members.locale) ^
		      curr_aen.members.locale)) {
			/*
			 * Previously issued event registration includes
			 * current request. Nothing to do.
			 */
			return 0;
		} else {
			curr_aen.members.locale |= prev_aen.members.locale;

			if (prev_aen.members.class < curr_aen.members.class)
				curr_aen.members.class = prev_aen.members.class;

			instance->aen_cmd->abort_aen = 1;
			ret_val = megasas_issue_blocked_abort_cmd(instance,
								  instance->
								  aen_cmd);

			if (ret_val) {
				printk(KERN_DEBUG "megasas: Failed to abort "
				       "previous AEN command\n");
				return ret_val;
			}
		}
	}

	cmd = megasas_get_cmd(instance);

	if (!cmd)
		return -ENOMEM;

	dcmd = &cmd->frame->dcmd;

	memset(instance->evt_detail, 0, sizeof(struct megasas_evt_detail));

	/*
	 * Prepare DCMD for aen registration
	 */
	memset(dcmd->mbox.b, 0, MFI_MBOX_SIZE);

	dcmd->cmd = MFI_CMD_DCMD;
	dcmd->cmd_status = 0x0;
	dcmd->sge_count = 1;
	dcmd->flags = MFI_FRAME_DIR_READ;
	dcmd->timeout = 0;
	dcmd->data_xfer_len = sizeof(struct megasas_evt_detail);
	dcmd->opcode = MR_DCMD_CTRL_EVENT_WAIT;
	dcmd->mbox.w[0] = seq_num;
	dcmd->mbox.w[1] = curr_aen.word;
	dcmd->sgl.sge32[0].phys_addr = (u32) instance->evt_detail_h;
	dcmd->sgl.sge32[0].length = sizeof(struct megasas_evt_detail);

	/*
	 * Store reference to the cmd used to register for AEN. When an
	 * application wants us to register for AEN, we have to abort this
	 * cmd and re-register with a new EVENT LOCALE supplied by that app
	 */
	instance->aen_cmd = cmd;

	/*
	 * Issue the aen registration frame
	 */
	writel(cmd->frame_phys_addr >> 3,
	       &instance->reg_set->inbound_queue_port);

	return 0;
}

/**
 * megasas_start_aen -	Subscribes to AEN during driver load time
 * @instance:		Adapter soft state
 */
static int megasas_start_aen(struct megasas_instance *instance)
{
	struct megasas_evt_log_info eli;
	union megasas_evt_class_locale class_locale;

	/*
	 * Get the latest sequence number from FW
	 */
	memset(&eli, 0, sizeof(eli));

	if (megasas_get_seq_num(instance, &eli))
		return -1;

	/*
	 * Register AEN with FW for latest sequence number plus 1
	 */
	class_locale.members.reserved = 0;
	class_locale.members.locale = MR_EVT_LOCALE_ALL;
	class_locale.members.class = MR_EVT_CLASS_DEBUG;

	return megasas_register_aen(instance, eli.newest_seq_num + 1,
				    class_locale.word);
}

/**
 * megasas_io_attach -	Attaches this driver to SCSI mid-layer
 * @instance:		Adapter soft state
 */
static int megasas_io_attach(struct megasas_instance *instance)
{
	struct Scsi_Host *host = instance->host;

	/*
	 * Export parameters required by SCSI mid-layer
	 */
	host->irq = instance->pdev->irq;
	host->unique_id = instance->unique_id;
	host->can_queue = instance->max_fw_cmds - MEGASAS_INT_CMDS;
	host->this_id = instance->init_id;
	host->sg_tablesize = instance->max_num_sge;
	host->max_sectors = instance->max_sectors_per_req;
	host->cmd_per_lun = 128;
	host->max_channel = MEGASAS_MAX_CHANNELS - 1;
	host->max_id = MEGASAS_MAX_DEV_PER_CHANNEL;
	host->max_lun = MEGASAS_MAX_LUN;

	/*
	 * Notify the mid-layer about the new controller
	 */
	if (scsi_add_host(host, &instance->pdev->dev)) {
		printk(KERN_DEBUG "megasas: scsi_add_host failed\n");
		return -ENODEV;
	}

	/*
	 * Trigger SCSI to scan our drives
	 */
	scsi_scan_host(host);
	return 0;
}

/**
 * megasas_probe_one -	PCI hotplug entry point
 * @pdev:		PCI device structure
 * @id:			PCI ids of supported hotplugged adapter	
 */
static int __devinit
megasas_probe_one(struct pci_dev *pdev, const struct pci_device_id *id)
{
	int rval;
	struct Scsi_Host *host;
	struct megasas_instance *instance;

	/*
	 * Announce PCI information
	 */
	printk(KERN_INFO "megasas: %#4.04x:%#4.04x:%#4.04x:%#4.04x: ",
	       pdev->vendor, pdev->device, pdev->subsystem_vendor,
	       pdev->subsystem_device);

	printk("bus %d:slot %d:func %d\n",
	       pdev->bus->number, PCI_SLOT(pdev->devfn), PCI_FUNC(pdev->devfn));

	/*
	 * PCI prepping: enable device set bus mastering and dma mask
	 */
	rval = pci_enable_device(pdev);

	if (rval) {
		return rval;
	}

	pci_set_master(pdev);

	/*
	 * All our contollers are capable of performing 64-bit DMA
	 */
	if (IS_DMA64) {
		if (pci_set_dma_mask(pdev, DMA_64BIT_MASK) != 0) {

			if (pci_set_dma_mask(pdev, DMA_32BIT_MASK) != 0)
				goto fail_set_dma_mask;
		}
	} else {
		if (pci_set_dma_mask(pdev, DMA_32BIT_MASK) != 0)
			goto fail_set_dma_mask;
	}

	host = scsi_host_alloc(&megasas_template,
			       sizeof(struct megasas_instance));

	if (!host) {
		printk(KERN_DEBUG "megasas: scsi_host_alloc failed\n");
		goto fail_alloc_instance;
	}

	instance = (struct megasas_instance *)host->hostdata;
	memset(instance, 0, sizeof(*instance));

	instance->producer = pci_alloc_consistent(pdev, sizeof(u32),
						  &instance->producer_h);
	instance->consumer = pci_alloc_consistent(pdev, sizeof(u32),
						  &instance->consumer_h);

	if (!instance->producer || !instance->consumer) {
		printk(KERN_DEBUG "megasas: Failed to allocate memory for "
		       "producer, consumer\n");
		goto fail_alloc_dma_buf;
	}

	*instance->producer = 0;
	*instance->consumer = 0;

	instance->evt_detail = pci_alloc_consistent(pdev,
						    sizeof(struct
							   megasas_evt_detail),
						    &instance->evt_detail_h);

	if (!instance->evt_detail) {
		printk(KERN_DEBUG "megasas: Failed to allocate memory for "
		       "event detail structure\n");
		goto fail_alloc_dma_buf;
	}

	/*
	 * Initialize locks and queues
	 */
	INIT_LIST_HEAD(&instance->cmd_pool);

	init_waitqueue_head(&instance->int_cmd_wait_q);
	init_waitqueue_head(&instance->abort_cmd_wait_q);

	spin_lock_init(&instance->cmd_pool_lock);
	spin_lock_init(&instance->instance_lock);

	sema_init(&instance->aen_mutex, 1);
	sema_init(&instance->ioctl_sem, MEGASAS_INT_CMDS);

	/*
	 * Initialize PCI related and misc parameters
	 */
	instance->pdev = pdev;
	instance->host = host;
	instance->unique_id = pdev->bus->number << 8 | pdev->devfn;
	instance->init_id = MEGASAS_DEFAULT_INIT_ID;

	/*
	 * Initialize MFI Firmware
	 */
	if (megasas_init_mfi(instance))
		goto fail_init_mfi;

	/*
	 * Register IRQ
	 */
	if (request_irq(pdev->irq, megasas_isr, SA_SHIRQ, "megasas", instance)) {
		printk(KERN_DEBUG "megasas: Failed to register IRQ\n");
		goto fail_irq;
	}

	megasas_enable_intr(instance->reg_set);

	/*
	 * Store instance in PCI softstate
	 */
	pci_set_drvdata(pdev, instance);

	/*
	 * Add this controller to megasas_mgmt_info structure so that it
	 * can be exported to management applications
	 */
	megasas_mgmt_info.count++;
	megasas_mgmt_info.instance[megasas_mgmt_info.max_index] = instance;
	megasas_mgmt_info.max_index++;

	/*
	 * Initiate AEN (Asynchronous Event Notification)
	 */
	if (megasas_start_aen(instance)) {
		printk(KERN_DEBUG "megasas: start aen failed\n");
		goto fail_start_aen;
	}

	/*
	 * Register with SCSI mid-layer
	 */
	if (megasas_io_attach(instance))
		goto fail_io_attach;

	return 0;

      fail_start_aen:
      fail_io_attach:
	megasas_mgmt_info.count--;
	megasas_mgmt_info.instance[megasas_mgmt_info.max_index] = NULL;
	megasas_mgmt_info.max_index--;

	pci_set_drvdata(pdev, NULL);
	megasas_disable_intr(instance->reg_set);
	free_irq(instance->pdev->irq, instance);

	megasas_release_mfi(instance);

      fail_irq:
      fail_init_mfi:
      fail_alloc_dma_buf:
	if (instance->evt_detail)
		pci_free_consistent(pdev, sizeof(struct megasas_evt_detail),
				    instance->evt_detail,
				    instance->evt_detail_h);

	if (instance->producer)
		pci_free_consistent(pdev, sizeof(u32), instance->producer,
				    instance->producer_h);
	if (instance->consumer)
		pci_free_consistent(pdev, sizeof(u32), instance->consumer,
				    instance->consumer_h);
	scsi_host_put(host);

      fail_alloc_instance:
      fail_set_dma_mask:
	pci_disable_device(pdev);

	return -ENODEV;
}

/**
 * megasas_flush_cache -	Requests FW to flush all its caches
 * @instance:			Adapter soft state
 */
static void megasas_flush_cache(struct megasas_instance *instance)
{
	struct megasas_cmd *cmd;
	struct megasas_dcmd_frame *dcmd;

	cmd = megasas_get_cmd(instance);

	if (!cmd)
		return;

	dcmd = &cmd->frame->dcmd;

	memset(dcmd->mbox.b, 0, MFI_MBOX_SIZE);

	dcmd->cmd = MFI_CMD_DCMD;
	dcmd->cmd_status = 0x0;
	dcmd->sge_count = 0;
	dcmd->flags = MFI_FRAME_DIR_NONE;
	dcmd->timeout = 0;
	dcmd->data_xfer_len = 0;
	dcmd->opcode = MR_DCMD_CTRL_CACHE_FLUSH;
	dcmd->mbox.b[0] = MR_FLUSH_CTRL_CACHE | MR_FLUSH_DISK_CACHE;

	megasas_issue_blocked_cmd(instance, cmd);

	megasas_return_cmd(instance, cmd);

	return;
}

/**
 * megasas_shutdown_controller -	Instructs FW to shutdown the controller
 * @instance:				Adapter soft state
 */
static void megasas_shutdown_controller(struct megasas_instance *instance)
{
	struct megasas_cmd *cmd;
	struct megasas_dcmd_frame *dcmd;

	cmd = megasas_get_cmd(instance);

	if (!cmd)
		return;

	if (instance->aen_cmd)
		megasas_issue_blocked_abort_cmd(instance, instance->aen_cmd);

	dcmd = &cmd->frame->dcmd;

	memset(dcmd->mbox.b, 0, MFI_MBOX_SIZE);

	dcmd->cmd = MFI_CMD_DCMD;
	dcmd->cmd_status = 0x0;
	dcmd->sge_count = 0;
	dcmd->flags = MFI_FRAME_DIR_NONE;
	dcmd->timeout = 0;
	dcmd->data_xfer_len = 0;
	dcmd->opcode = MR_DCMD_CTRL_SHUTDOWN;

	megasas_issue_blocked_cmd(instance, cmd);

	megasas_return_cmd(instance, cmd);

	return;
}

/**
 * megasas_detach_one -	PCI hot"un"plug entry point
 * @pdev:		PCI device structure
 */
static void megasas_detach_one(struct pci_dev *pdev)
{
	int i;
	struct Scsi_Host *host;
	struct megasas_instance *instance;

	instance = pci_get_drvdata(pdev);
	host = instance->host;

	scsi_remove_host(instance->host);
	megasas_flush_cache(instance);
	megasas_shutdown_controller(instance);

	/*
	 * Take the instance off the instance array. Note that we will not
	 * decrement the max_index. We let this array be sparse array
	 */
	for (i = 0; i < megasas_mgmt_info.max_index; i++) {
		if (megasas_mgmt_info.instance[i] == instance) {
			megasas_mgmt_info.count--;
			megasas_mgmt_info.instance[i] = NULL;

			break;
		}
	}

	pci_set_drvdata(instance->pdev, NULL);

	megasas_disable_intr(instance->reg_set);

	free_irq(instance->pdev->irq, instance);

	megasas_release_mfi(instance);

	pci_free_consistent(pdev, sizeof(struct megasas_evt_detail),
			    instance->evt_detail, instance->evt_detail_h);

	pci_free_consistent(pdev, sizeof(u32), instance->producer,
			    instance->producer_h);

	pci_free_consistent(pdev, sizeof(u32), instance->consumer,
			    instance->consumer_h);

	scsi_host_put(host);

	pci_set_drvdata(pdev, NULL);

	pci_disable_device(pdev);

	return;
}

/**
 * megasas_shutdown -	Shutdown entry point
 * @device:		Generic device structure
 */
static void megasas_shutdown(struct pci_dev *pdev)
{
	struct megasas_instance *instance = pci_get_drvdata(pdev);
	megasas_flush_cache(instance);
}

/**
 * megasas_mgmt_open -	char node "open" entry point
 */
static int megasas_mgmt_open(struct inode *inode, struct file *filep)
{
	/*
	 * Allow only those users with admin rights
	 */
	if (!capable(CAP_SYS_ADMIN))
		return -EACCES;

	return 0;
}

/**
 * megasas_mgmt_release - char node "release" entry point
 */
static int megasas_mgmt_release(struct inode *inode, struct file *filep)
{
	filep->private_data = NULL;
	fasync_helper(-1, filep, 0, &megasas_async_queue);

	return 0;
}

/**
 * megasas_mgmt_fasync -	Async notifier registration from applications
 *
 * This function adds the calling process to a driver global queue. When an
 * event occurs, SIGIO will be sent to all processes in this queue.
 */
static int megasas_mgmt_fasync(int fd, struct file *filep, int mode)
{
	int rc;

	mutex_lock(&megasas_async_queue_mutex);

	rc = fasync_helper(fd, filep, mode, &megasas_async_queue);

	mutex_unlock(&megasas_async_queue_mutex);

	if (rc >= 0) {
		/* For sanity check when we get ioctl */
		filep->private_data = filep;
		return 0;
	}

	printk(KERN_DEBUG "megasas: fasync_helper failed [%d]\n", rc);

	return rc;
}

/**
 * megasas_mgmt_fw_ioctl -	Issues management ioctls to FW
 * @instance:			Adapter soft state
 * @argp:			User's ioctl packet
 */
static int
megasas_mgmt_fw_ioctl(struct megasas_instance *instance,
		      struct megasas_iocpacket __user * user_ioc,
		      struct megasas_iocpacket *ioc)
{
	struct megasas_sge32 *kern_sge32;
	struct megasas_cmd *cmd;
	void *kbuff_arr[MAX_IOCTL_SGE];
	dma_addr_t buf_handle = 0;
	int error = 0, i;
	void *sense = NULL;
	dma_addr_t sense_handle;
	u32 *sense_ptr;

	memset(kbuff_arr, 0, sizeof(kbuff_arr));

	if (ioc->sge_count > MAX_IOCTL_SGE) {
		printk(KERN_DEBUG "megasas: SGE count [%d] >  max limit [%d]\n",
		       ioc->sge_count, MAX_IOCTL_SGE);
		return -EINVAL;
	}

	cmd = megasas_get_cmd(instance);
	if (!cmd) {
		printk(KERN_DEBUG "megasas: Failed to get a cmd packet\n");
		return -ENOMEM;
	}

	/*
	 * User's IOCTL packet has 2 frames (maximum). Copy those two
	 * frames into our cmd's frames. cmd->frame's context will get
	 * overwritten when we copy from user's frames. So set that value
	 * alone separately
	 */
	memcpy(cmd->frame, ioc->frame.raw, 2 * MEGAMFI_FRAME_SIZE);
	cmd->frame->hdr.context = cmd->index;

	/*
	 * The management interface between applications and the fw uses
	 * MFI frames. E.g, RAID configuration changes, LD property changes
	 * etc are accomplishes through different kinds of MFI frames. The
	 * driver needs to care only about substituting user buffers with
	 * kernel buffers in SGLs. The location of SGL is embedded in the
	 * struct iocpacket itself.
	 */
	kern_sge32 = (struct megasas_sge32 *)
	    ((unsigned long)cmd->frame + ioc->sgl_off);

	/*
	 * For each user buffer, create a mirror buffer and copy in
	 */
	for (i = 0; i < ioc->sge_count; i++) {
		kbuff_arr[i] = pci_alloc_consistent(instance->pdev,
						    ioc->sgl[i].iov_len,
						    &buf_handle);
		if (!kbuff_arr[i]) {
			printk(KERN_DEBUG "megasas: Failed to alloc "
			       "kernel SGL buffer for IOCTL \n");
			error = -ENOMEM;
			goto out;
		}

		/*
		 * We don't change the dma_coherent_mask, so
		 * pci_alloc_consistent only returns 32bit addresses
		 */
		kern_sge32[i].phys_addr = (u32) buf_handle;
		kern_sge32[i].length = ioc->sgl[i].iov_len;

		/*
		 * We created a kernel buffer corresponding to the
		 * user buffer. Now copy in from the user buffer
		 */
		if (copy_from_user(kbuff_arr[i], ioc->sgl[i].iov_base,
				   (u32) (ioc->sgl[i].iov_len))) {
			error = -EFAULT;
			goto out;
		}
	}

	if (ioc->sense_len) {
		sense = pci_alloc_consistent(instance->pdev, ioc->sense_len,
					     &sense_handle);
		if (!sense) {
			error = -ENOMEM;
			goto out;
		}

		sense_ptr =
		    (u32 *) ((unsigned long)cmd->frame + ioc->sense_off);
		*sense_ptr = sense_handle;
	}

	/*
	 * Set the sync_cmd flag so that the ISR knows not to complete this
	 * cmd to the SCSI mid-layer
	 */
	cmd->sync_cmd = 1;
	megasas_issue_blocked_cmd(instance, cmd);
	cmd->sync_cmd = 0;

	/*
	 * copy out the kernel buffers to user buffers
	 */
	for (i = 0; i < ioc->sge_count; i++) {
		if (copy_to_user(ioc->sgl[i].iov_base, kbuff_arr[i],
				 ioc->sgl[i].iov_len)) {
			error = -EFAULT;
			goto out;
		}
	}

	/*
	 * copy out the sense
	 */
	if (ioc->sense_len) {
		/*
		 * sense_ptr points to the location that has the user
		 * sense buffer address
		 */
		sense_ptr = (u32 *) ((unsigned long)ioc->frame.raw +
				     ioc->sense_off);

		if (copy_to_user((void __user *)((unsigned long)(*sense_ptr)),
				 sense, ioc->sense_len)) {
			error = -EFAULT;
			goto out;
		}
	}

	/*
	 * copy the status codes returned by the fw
	 */
	if (copy_to_user(&user_ioc->frame.hdr.cmd_status,
			 &cmd->frame->hdr.cmd_status, sizeof(u8))) {
		printk(KERN_DEBUG "megasas: Error copying out cmd_status\n");
		error = -EFAULT;
	}

      out:
	if (sense) {
		pci_free_consistent(instance->pdev, ioc->sense_len,
				    sense, sense_handle);
	}

	for (i = 0; i < ioc->sge_count && kbuff_arr[i]; i++) {
		pci_free_consistent(instance->pdev,
				    kern_sge32[i].length,
				    kbuff_arr[i], kern_sge32[i].phys_addr);
	}

	megasas_return_cmd(instance, cmd);
	return error;
}

static struct megasas_instance *megasas_lookup_instance(u16 host_no)
{
	int i;

	for (i = 0; i < megasas_mgmt_info.max_index; i++) {

		if ((megasas_mgmt_info.instance[i]) &&
		    (megasas_mgmt_info.instance[i]->host->host_no == host_no))
			return megasas_mgmt_info.instance[i];
	}

	return NULL;
}

static int megasas_mgmt_ioctl_fw(struct file *file, unsigned long arg)
{
	struct megasas_iocpacket __user *user_ioc =
	    (struct megasas_iocpacket __user *)arg;
	struct megasas_iocpacket *ioc;
	struct megasas_instance *instance;
	int error;

	ioc = kmalloc(sizeof(*ioc), GFP_KERNEL);
	if (!ioc)
		return -ENOMEM;

	if (copy_from_user(ioc, user_ioc, sizeof(*ioc))) {
		error = -EFAULT;
		goto out_kfree_ioc;
	}

	instance = megasas_lookup_instance(ioc->host_no);
	if (!instance) {
		error = -ENODEV;
		goto out_kfree_ioc;
	}

	/*
	 * We will allow only MEGASAS_INT_CMDS number of parallel ioctl cmds
	 */
	if (down_interruptible(&instance->ioctl_sem)) {
		error = -ERESTARTSYS;
		goto out_kfree_ioc;
	}
	error = megasas_mgmt_fw_ioctl(instance, user_ioc, ioc);
	up(&instance->ioctl_sem);

      out_kfree_ioc:
	kfree(ioc);
	return error;
}

static int megasas_mgmt_ioctl_aen(struct file *file, unsigned long arg)
{
	struct megasas_instance *instance;
	struct megasas_aen aen;
	int error;

	if (file->private_data != file) {
		printk(KERN_DEBUG "megasas: fasync_helper was not "
		       "called first\n");
		return -EINVAL;
	}

	if (copy_from_user(&aen, (void __user *)arg, sizeof(aen)))
		return -EFAULT;

	instance = megasas_lookup_instance(aen.host_no);

	if (!instance)
		return -ENODEV;

	down(&instance->aen_mutex);
	error = megasas_register_aen(instance, aen.seq_num,
				     aen.class_locale_word);
	up(&instance->aen_mutex);
	return error;
}

/**
 * megasas_mgmt_ioctl -	char node ioctl entry point
 */
static long
megasas_mgmt_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
{
	switch (cmd) {
	case MEGASAS_IOC_FIRMWARE:
		return megasas_mgmt_ioctl_fw(file, arg);

	case MEGASAS_IOC_GET_AEN:
		return megasas_mgmt_ioctl_aen(file, arg);
	}

	return -ENOTTY;
}

#ifdef CONFIG_COMPAT
static int megasas_mgmt_compat_ioctl_fw(struct file *file, unsigned long arg)
{
	struct compat_megasas_iocpacket __user *cioc =
	    (struct compat_megasas_iocpacket __user *)arg;
	struct megasas_iocpacket __user *ioc =
	    compat_alloc_user_space(sizeof(struct megasas_iocpacket));
	int i;
	int error = 0;

	clear_user(ioc, sizeof(*ioc));

	if (copy_in_user(&ioc->host_no, &cioc->host_no, sizeof(u16)) ||
	    copy_in_user(&ioc->sgl_off, &cioc->sgl_off, sizeof(u32)) ||
	    copy_in_user(&ioc->sense_off, &cioc->sense_off, sizeof(u32)) ||
	    copy_in_user(&ioc->sense_len, &cioc->sense_len, sizeof(u32)) ||
	    copy_in_user(ioc->frame.raw, cioc->frame.raw, 128) ||
	    copy_in_user(&ioc->sge_count, &cioc->sge_count, sizeof(u32)))
		return -EFAULT;

	for (i = 0; i < MAX_IOCTL_SGE; i++) {
		compat_uptr_t ptr;

		if (get_user(ptr, &cioc->sgl[i].iov_base) ||
		    put_user(compat_ptr(ptr), &ioc->sgl[i].iov_base) ||
		    copy_in_user(&ioc->sgl[i].iov_len,
				 &cioc->sgl[i].iov_len, sizeof(compat_size_t)))
			return -EFAULT;
	}

	error = megasas_mgmt_ioctl_fw(file, (unsigned long)ioc);

	if (copy_in_user(&cioc->frame.hdr.cmd_status,
			 &ioc->frame.hdr.cmd_status, sizeof(u8))) {
		printk(KERN_DEBUG "megasas: error copy_in_user cmd_status\n");
		return -EFAULT;
	}
	return error;
}

static long
megasas_mgmt_compat_ioctl(struct file *file, unsigned int cmd,
			  unsigned long arg)
{
	switch (cmd) {
	case MEGASAS_IOC_FIRMWARE:{
			return megasas_mgmt_compat_ioctl_fw(file, arg);
		}
	case MEGASAS_IOC_GET_AEN:
		return megasas_mgmt_ioctl_aen(file, arg);
	}

	return -ENOTTY;
}
#endif

/*
 * File operations structure for management interface
 */
static struct file_operations megasas_mgmt_fops = {
	.owner = THIS_MODULE,
	.open = megasas_mgmt_open,
	.release = megasas_mgmt_release,
	.fasync = megasas_mgmt_fasync,
	.unlocked_ioctl = megasas_mgmt_ioctl,
#ifdef CONFIG_COMPAT
	.compat_ioctl = megasas_mgmt_compat_ioctl,
#endif
};

/*
 * PCI hotplug support registration structure
 */
static struct pci_driver megasas_pci_driver = {

	.name = "megaraid_sas",
	.id_table = megasas_pci_table,
	.probe = megasas_probe_one,
	.remove = __devexit_p(megasas_detach_one),
	.shutdown = megasas_shutdown,
};

/*
 * Sysfs driver attributes
 */
static ssize_t megasas_sysfs_show_version(struct device_driver *dd, char *buf)
{
	return snprintf(buf, strlen(MEGASAS_VERSION) + 2, "%s\n",
			MEGASAS_VERSION);
}

static DRIVER_ATTR(version, S_IRUGO, megasas_sysfs_show_version, NULL);

static ssize_t
megasas_sysfs_show_release_date(struct device_driver *dd, char *buf)
{
	return snprintf(buf, strlen(MEGASAS_RELDATE) + 2, "%s\n",
			MEGASAS_RELDATE);
}

static DRIVER_ATTR(release_date, S_IRUGO, megasas_sysfs_show_release_date,
		   NULL);

/**
 * megasas_init - Driver load entry point
 */
static int __init megasas_init(void)
{
	int rval;

	/*
	 * Announce driver version and other information
	 */
	printk(KERN_INFO "megasas: %s %s\n", MEGASAS_VERSION,
	       MEGASAS_EXT_VERSION);

	memset(&megasas_mgmt_info, 0, sizeof(megasas_mgmt_info));

	/*
	 * Register character device node
	 */
	rval = register_chrdev(0, "megaraid_sas_ioctl", &megasas_mgmt_fops);

	if (rval < 0) {
		printk(KERN_DEBUG "megasas: failed to open device node\n");
		return rval;
	}

	megasas_mgmt_majorno = rval;

	/*
	 * Register ourselves as PCI hotplug module
	 */
	rval = pci_module_init(&megasas_pci_driver);

	if (rval) {
		printk(KERN_DEBUG "megasas: PCI hotplug regisration failed \n");
		unregister_chrdev(megasas_mgmt_majorno, "megaraid_sas_ioctl");
	}

	driver_create_file(&megasas_pci_driver.driver, &driver_attr_version);
	driver_create_file(&megasas_pci_driver.driver,
			   &driver_attr_release_date);

	return rval;
}

/**
 * megasas_exit - Driver unload entry point
 */
static void __exit megasas_exit(void)
{
	driver_remove_file(&megasas_pci_driver.driver, &driver_attr_version);
	driver_remove_file(&megasas_pci_driver.driver,
			   &driver_attr_release_date);

	pci_unregister_driver(&megasas_pci_driver);
	unregister_chrdev(megasas_mgmt_majorno, "megaraid_sas_ioctl");
}

module_init(megasas_init);
module_exit(megasas_exit);