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path: root/drivers/scsi/qla2xxx/qla_isr.c
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/*
 * QLogic Fibre Channel HBA Driver
 * Copyright (c)  2003-2014 QLogic Corporation
 *
 * See LICENSE.qla2xxx for copyright and licensing details.
 */
#include "qla_def.h"
#include "qla_target.h"

#include <linux/delay.h>
#include <linux/slab.h>
#include <scsi/scsi_tcq.h>
#include <scsi/scsi_bsg_fc.h>
#include <scsi/scsi_eh.h>

static void qla2x00_mbx_completion(scsi_qla_host_t *, uint16_t);
static void qla2x00_status_entry(scsi_qla_host_t *, struct rsp_que *, void *);
static void qla2x00_status_cont_entry(struct rsp_que *, sts_cont_entry_t *);
static void qla2x00_error_entry(scsi_qla_host_t *, struct rsp_que *,
	sts_entry_t *);

/**
 * qla2100_intr_handler() - Process interrupts for the ISP2100 and ISP2200.
 * @irq:
 * @dev_id: SCSI driver HA context
 *
 * Called by system whenever the host adapter generates an interrupt.
 *
 * Returns handled flag.
 */
irqreturn_t
qla2100_intr_handler(int irq, void *dev_id)
{
	scsi_qla_host_t	*vha;
	struct qla_hw_data *ha;
	struct device_reg_2xxx __iomem *reg;
	int		status;
	unsigned long	iter;
	uint16_t	hccr;
	uint16_t	mb[4];
	struct rsp_que *rsp;
	unsigned long	flags;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x505d,
		    "%s: NULL response queue pointer.\n", __func__);
		return (IRQ_NONE);
	}

	ha = rsp->hw;
	reg = &ha->iobase->isp;
	status = 0;

	spin_lock_irqsave(&ha->hardware_lock, flags);
	vha = pci_get_drvdata(ha->pdev);
	for (iter = 50; iter--; ) {
		hccr = RD_REG_WORD(&reg->hccr);
		if (qla2x00_check_reg16_for_disconnect(vha, hccr))
			break;
		if (hccr & HCCR_RISC_PAUSE) {
			if (pci_channel_offline(ha->pdev))
				break;

			/*
			 * Issue a "HARD" reset in order for the RISC interrupt
			 * bit to be cleared.  Schedule a big hammer to get
			 * out of the RISC PAUSED state.
			 */
			WRT_REG_WORD(&reg->hccr, HCCR_RESET_RISC);
			RD_REG_WORD(&reg->hccr);

			ha->isp_ops->fw_dump(vha, 1);
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			break;
		} else if ((RD_REG_WORD(&reg->istatus) & ISR_RISC_INT) == 0)
			break;

		if (RD_REG_WORD(&reg->semaphore) & BIT_0) {
			WRT_REG_WORD(&reg->hccr, HCCR_CLR_RISC_INT);
			RD_REG_WORD(&reg->hccr);

			/* Get mailbox data. */
			mb[0] = RD_MAILBOX_REG(ha, reg, 0);
			if (mb[0] > 0x3fff && mb[0] < 0x8000) {
				qla2x00_mbx_completion(vha, mb[0]);
				status |= MBX_INTERRUPT;
			} else if (mb[0] > 0x7fff && mb[0] < 0xc000) {
				mb[1] = RD_MAILBOX_REG(ha, reg, 1);
				mb[2] = RD_MAILBOX_REG(ha, reg, 2);
				mb[3] = RD_MAILBOX_REG(ha, reg, 3);
				qla2x00_async_event(vha, rsp, mb);
			} else {
				/*EMPTY*/
				ql_dbg(ql_dbg_async, vha, 0x5025,
				    "Unrecognized interrupt type (%d).\n",
				    mb[0]);
			}
			/* Release mailbox registers. */
			WRT_REG_WORD(&reg->semaphore, 0);
			RD_REG_WORD(&reg->semaphore);
		} else {
			qla2x00_process_response_queue(rsp);

			WRT_REG_WORD(&reg->hccr, HCCR_CLR_RISC_INT);
			RD_REG_WORD(&reg->hccr);
		}
	}
	qla2x00_handle_mbx_completion(ha, status);
	spin_unlock_irqrestore(&ha->hardware_lock, flags);

	return (IRQ_HANDLED);
}

bool
qla2x00_check_reg32_for_disconnect(scsi_qla_host_t *vha, uint32_t reg)
{
	/* Check for PCI disconnection */
	if (reg == 0xffffffff) {
		if (!test_and_set_bit(PFLG_DISCONNECTED, &vha->pci_flags) &&
		    !test_bit(PFLG_DRIVER_REMOVING, &vha->pci_flags) &&
		    !test_bit(PFLG_DRIVER_PROBING, &vha->pci_flags)) {
			/*
			 * Schedule this (only once) on the default system
			 * workqueue so that all the adapter workqueues and the
			 * DPC thread can be shutdown cleanly.
			 */
			schedule_work(&vha->hw->board_disable);
		}
		return true;
	} else
		return false;
}

bool
qla2x00_check_reg16_for_disconnect(scsi_qla_host_t *vha, uint16_t reg)
{
	return qla2x00_check_reg32_for_disconnect(vha, 0xffff0000 | reg);
}

/**
 * qla2300_intr_handler() - Process interrupts for the ISP23xx and ISP63xx.
 * @irq:
 * @dev_id: SCSI driver HA context
 *
 * Called by system whenever the host adapter generates an interrupt.
 *
 * Returns handled flag.
 */
irqreturn_t
qla2300_intr_handler(int irq, void *dev_id)
{
	scsi_qla_host_t	*vha;
	struct device_reg_2xxx __iomem *reg;
	int		status;
	unsigned long	iter;
	uint32_t	stat;
	uint16_t	hccr;
	uint16_t	mb[4];
	struct rsp_que *rsp;
	struct qla_hw_data *ha;
	unsigned long	flags;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x5058,
		    "%s: NULL response queue pointer.\n", __func__);
		return (IRQ_NONE);
	}

	ha = rsp->hw;
	reg = &ha->iobase->isp;
	status = 0;

	spin_lock_irqsave(&ha->hardware_lock, flags);
	vha = pci_get_drvdata(ha->pdev);
	for (iter = 50; iter--; ) {
		stat = RD_REG_DWORD(&reg->u.isp2300.host_status);
		if (qla2x00_check_reg32_for_disconnect(vha, stat))
			break;
		if (stat & HSR_RISC_PAUSED) {
			if (unlikely(pci_channel_offline(ha->pdev)))
				break;

			hccr = RD_REG_WORD(&reg->hccr);

			if (hccr & (BIT_15 | BIT_13 | BIT_11 | BIT_8))
				ql_log(ql_log_warn, vha, 0x5026,
				    "Parity error -- HCCR=%x, Dumping "
				    "firmware.\n", hccr);
			else
				ql_log(ql_log_warn, vha, 0x5027,
				    "RISC paused -- HCCR=%x, Dumping "
				    "firmware.\n", hccr);

			/*
			 * Issue a "HARD" reset in order for the RISC
			 * interrupt bit to be cleared.  Schedule a big
			 * hammer to get out of the RISC PAUSED state.
			 */
			WRT_REG_WORD(&reg->hccr, HCCR_RESET_RISC);
			RD_REG_WORD(&reg->hccr);

			ha->isp_ops->fw_dump(vha, 1);
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			break;
		} else if ((stat & HSR_RISC_INT) == 0)
			break;

		switch (stat & 0xff) {
		case 0x1:
		case 0x2:
		case 0x10:
		case 0x11:
			qla2x00_mbx_completion(vha, MSW(stat));
			status |= MBX_INTERRUPT;

			/* Release mailbox registers. */
			WRT_REG_WORD(&reg->semaphore, 0);
			break;
		case 0x12:
			mb[0] = MSW(stat);
			mb[1] = RD_MAILBOX_REG(ha, reg, 1);
			mb[2] = RD_MAILBOX_REG(ha, reg, 2);
			mb[3] = RD_MAILBOX_REG(ha, reg, 3);
			qla2x00_async_event(vha, rsp, mb);
			break;
		case 0x13:
			qla2x00_process_response_queue(rsp);
			break;
		case 0x15:
			mb[0] = MBA_CMPLT_1_16BIT;
			mb[1] = MSW(stat);
			qla2x00_async_event(vha, rsp, mb);
			break;
		case 0x16:
			mb[0] = MBA_SCSI_COMPLETION;
			mb[1] = MSW(stat);
			mb[2] = RD_MAILBOX_REG(ha, reg, 2);
			qla2x00_async_event(vha, rsp, mb);
			break;
		default:
			ql_dbg(ql_dbg_async, vha, 0x5028,
			    "Unrecognized interrupt type (%d).\n", stat & 0xff);
			break;
		}
		WRT_REG_WORD(&reg->hccr, HCCR_CLR_RISC_INT);
		RD_REG_WORD_RELAXED(&reg->hccr);
	}
	qla2x00_handle_mbx_completion(ha, status);
	spin_unlock_irqrestore(&ha->hardware_lock, flags);

	return (IRQ_HANDLED);
}

/**
 * qla2x00_mbx_completion() - Process mailbox command completions.
 * @ha: SCSI driver HA context
 * @mb0: Mailbox0 register
 */
static void
qla2x00_mbx_completion(scsi_qla_host_t *vha, uint16_t mb0)
{
	uint16_t	cnt;
	uint32_t	mboxes;
	uint16_t __iomem *wptr;
	struct qla_hw_data *ha = vha->hw;
	struct device_reg_2xxx __iomem *reg = &ha->iobase->isp;

	/* Read all mbox registers? */
	mboxes = (1 << ha->mbx_count) - 1;
	if (!ha->mcp)
		ql_dbg(ql_dbg_async, vha, 0x5001, "MBX pointer ERROR.\n");
	else
		mboxes = ha->mcp->in_mb;

	/* Load return mailbox registers. */
	ha->flags.mbox_int = 1;
	ha->mailbox_out[0] = mb0;
	mboxes >>= 1;
	wptr = (uint16_t __iomem *)MAILBOX_REG(ha, reg, 1);

	for (cnt = 1; cnt < ha->mbx_count; cnt++) {
		if (IS_QLA2200(ha) && cnt == 8)
			wptr = (uint16_t __iomem *)MAILBOX_REG(ha, reg, 8);
		if ((cnt == 4 || cnt == 5) && (mboxes & BIT_0))
			ha->mailbox_out[cnt] = qla2x00_debounce_register(wptr);
		else if (mboxes & BIT_0)
			ha->mailbox_out[cnt] = RD_REG_WORD(wptr);

		wptr++;
		mboxes >>= 1;
	}
}

static void
qla81xx_idc_event(scsi_qla_host_t *vha, uint16_t aen, uint16_t descr)
{
	static char *event[] =
		{ "Complete", "Request Notification", "Time Extension" };
	int rval;
	struct device_reg_24xx __iomem *reg24 = &vha->hw->iobase->isp24;
	struct device_reg_82xx __iomem *reg82 = &vha->hw->iobase->isp82;
	uint16_t __iomem *wptr;
	uint16_t cnt, timeout, mb[QLA_IDC_ACK_REGS];

	/* Seed data -- mailbox1 -> mailbox7. */
	if (IS_QLA81XX(vha->hw) || IS_QLA83XX(vha->hw))
		wptr = (uint16_t __iomem *)&reg24->mailbox1;
	else if (IS_QLA8044(vha->hw))
		wptr = (uint16_t __iomem *)&reg82->mailbox_out[1];
	else
		return;

	for (cnt = 0; cnt < QLA_IDC_ACK_REGS; cnt++, wptr++)
		mb[cnt] = RD_REG_WORD(wptr);

	ql_dbg(ql_dbg_async, vha, 0x5021,
	    "Inter-Driver Communication %s -- "
	    "%04x %04x %04x %04x %04x %04x %04x.\n",
	    event[aen & 0xff], mb[0], mb[1], mb[2], mb[3],
	    mb[4], mb[5], mb[6]);
	switch (aen) {
	/* Handle IDC Error completion case. */
	case MBA_IDC_COMPLETE:
		if (mb[1] >> 15) {
			vha->hw->flags.idc_compl_status = 1;
			if (vha->hw->notify_dcbx_comp && !vha->vp_idx)
				complete(&vha->hw->dcbx_comp);
		}
		break;

	case MBA_IDC_NOTIFY:
		/* Acknowledgement needed? [Notify && non-zero timeout]. */
		timeout = (descr >> 8) & 0xf;
		ql_dbg(ql_dbg_async, vha, 0x5022,
		    "%lu Inter-Driver Communication %s -- ACK timeout=%d.\n",
		    vha->host_no, event[aen & 0xff], timeout);

		if (!timeout)
			return;
		rval = qla2x00_post_idc_ack_work(vha, mb);
		if (rval != QLA_SUCCESS)
			ql_log(ql_log_warn, vha, 0x5023,
			    "IDC failed to post ACK.\n");
		break;
	case MBA_IDC_TIME_EXT:
		vha->hw->idc_extend_tmo = descr;
		ql_dbg(ql_dbg_async, vha, 0x5087,
		    "%lu Inter-Driver Communication %s -- "
		    "Extend timeout by=%d.\n",
		    vha->host_no, event[aen & 0xff], vha->hw->idc_extend_tmo);
		break;
	}
}

#define LS_UNKNOWN	2
const char *
qla2x00_get_link_speed_str(struct qla_hw_data *ha, uint16_t speed)
{
	static const char *const link_speeds[] = {
		"1", "2", "?", "4", "8", "16", "32", "10"
	};
#define	QLA_LAST_SPEED	7

	if (IS_QLA2100(ha) || IS_QLA2200(ha))
		return link_speeds[0];
	else if (speed == 0x13)
		return link_speeds[QLA_LAST_SPEED];
	else if (speed < QLA_LAST_SPEED)
		return link_speeds[speed];
	else
		return link_speeds[LS_UNKNOWN];
}

static void
qla83xx_handle_8200_aen(scsi_qla_host_t *vha, uint16_t *mb)
{
	struct qla_hw_data *ha = vha->hw;

	/*
	 * 8200 AEN Interpretation:
	 * mb[0] = AEN code
	 * mb[1] = AEN Reason code
	 * mb[2] = LSW of Peg-Halt Status-1 Register
	 * mb[6] = MSW of Peg-Halt Status-1 Register
	 * mb[3] = LSW of Peg-Halt Status-2 register
	 * mb[7] = MSW of Peg-Halt Status-2 register
	 * mb[4] = IDC Device-State Register value
	 * mb[5] = IDC Driver-Presence Register value
	 */
	ql_dbg(ql_dbg_async, vha, 0x506b, "AEN Code: mb[0] = 0x%x AEN reason: "
	    "mb[1] = 0x%x PH-status1: mb[2] = 0x%x PH-status1: mb[6] = 0x%x.\n",
	    mb[0], mb[1], mb[2], mb[6]);
	ql_dbg(ql_dbg_async, vha, 0x506c, "PH-status2: mb[3] = 0x%x "
	    "PH-status2: mb[7] = 0x%x Device-State: mb[4] = 0x%x "
	    "Drv-Presence: mb[5] = 0x%x.\n", mb[3], mb[7], mb[4], mb[5]);

	if (mb[1] & (IDC_PEG_HALT_STATUS_CHANGE | IDC_NIC_FW_REPORTED_FAILURE |
				IDC_HEARTBEAT_FAILURE)) {
		ha->flags.nic_core_hung = 1;
		ql_log(ql_log_warn, vha, 0x5060,
		    "83XX: F/W Error Reported: Check if reset required.\n");

		if (mb[1] & IDC_PEG_HALT_STATUS_CHANGE) {
			uint32_t protocol_engine_id, fw_err_code, err_level;

			/*
			 * IDC_PEG_HALT_STATUS_CHANGE interpretation:
			 *  - PEG-Halt Status-1 Register:
			 *	(LSW = mb[2], MSW = mb[6])
			 *	Bits 0-7   = protocol-engine ID
			 *	Bits 8-28  = f/w error code
			 *	Bits 29-31 = Error-level
			 *	    Error-level 0x1 = Non-Fatal error
			 *	    Error-level 0x2 = Recoverable Fatal error
			 *	    Error-level 0x4 = UnRecoverable Fatal error
			 *  - PEG-Halt Status-2 Register:
			 *	(LSW = mb[3], MSW = mb[7])
			 */
			protocol_engine_id = (mb[2] & 0xff);
			fw_err_code = (((mb[2] & 0xff00) >> 8) |
			    ((mb[6] & 0x1fff) << 8));
			err_level = ((mb[6] & 0xe000) >> 13);
			ql_log(ql_log_warn, vha, 0x5061, "PegHalt Status-1 "
			    "Register: protocol_engine_id=0x%x "
			    "fw_err_code=0x%x err_level=0x%x.\n",
			    protocol_engine_id, fw_err_code, err_level);
			ql_log(ql_log_warn, vha, 0x5062, "PegHalt Status-2 "
			    "Register: 0x%x%x.\n", mb[7], mb[3]);
			if (err_level == ERR_LEVEL_NON_FATAL) {
				ql_log(ql_log_warn, vha, 0x5063,
				    "Not a fatal error, f/w has recovered "
				    "iteself.\n");
			} else if (err_level == ERR_LEVEL_RECOVERABLE_FATAL) {
				ql_log(ql_log_fatal, vha, 0x5064,
				    "Recoverable Fatal error: Chip reset "
				    "required.\n");
				qla83xx_schedule_work(vha,
				    QLA83XX_NIC_CORE_RESET);
			} else if (err_level == ERR_LEVEL_UNRECOVERABLE_FATAL) {
				ql_log(ql_log_fatal, vha, 0x5065,
				    "Unrecoverable Fatal error: Set FAILED "
				    "state, reboot required.\n");
				qla83xx_schedule_work(vha,
				    QLA83XX_NIC_CORE_UNRECOVERABLE);
			}
		}

		if (mb[1] & IDC_NIC_FW_REPORTED_FAILURE) {
			uint16_t peg_fw_state, nw_interface_link_up;
			uint16_t nw_interface_signal_detect, sfp_status;
			uint16_t htbt_counter, htbt_monitor_enable;
			uint16_t sfp_additonal_info, sfp_multirate;
			uint16_t sfp_tx_fault, link_speed, dcbx_status;

			/*
			 * IDC_NIC_FW_REPORTED_FAILURE interpretation:
			 *  - PEG-to-FC Status Register:
			 *	(LSW = mb[2], MSW = mb[6])
			 *	Bits 0-7   = Peg-Firmware state
			 *	Bit 8      = N/W Interface Link-up
			 *	Bit 9      = N/W Interface signal detected
			 *	Bits 10-11 = SFP Status
			 *	  SFP Status 0x0 = SFP+ transceiver not expected
			 *	  SFP Status 0x1 = SFP+ transceiver not present
			 *	  SFP Status 0x2 = SFP+ transceiver invalid
			 *	  SFP Status 0x3 = SFP+ transceiver present and
			 *	  valid
			 *	Bits 12-14 = Heartbeat Counter
			 *	Bit 15     = Heartbeat Monitor Enable
			 *	Bits 16-17 = SFP Additional Info
			 *	  SFP info 0x0 = Unregocnized transceiver for
			 *	  Ethernet
			 *	  SFP info 0x1 = SFP+ brand validation failed
			 *	  SFP info 0x2 = SFP+ speed validation failed
			 *	  SFP info 0x3 = SFP+ access error
			 *	Bit 18     = SFP Multirate
			 *	Bit 19     = SFP Tx Fault
			 *	Bits 20-22 = Link Speed
			 *	Bits 23-27 = Reserved
			 *	Bits 28-30 = DCBX Status
			 *	  DCBX Status 0x0 = DCBX Disabled
			 *	  DCBX Status 0x1 = DCBX Enabled
			 *	  DCBX Status 0x2 = DCBX Exchange error
			 *	Bit 31     = Reserved
			 */
			peg_fw_state = (mb[2] & 0x00ff);
			nw_interface_link_up = ((mb[2] & 0x0100) >> 8);
			nw_interface_signal_detect = ((mb[2] & 0x0200) >> 9);
			sfp_status = ((mb[2] & 0x0c00) >> 10);
			htbt_counter = ((mb[2] & 0x7000) >> 12);
			htbt_monitor_enable = ((mb[2] & 0x8000) >> 15);
			sfp_additonal_info = (mb[6] & 0x0003);
			sfp_multirate = ((mb[6] & 0x0004) >> 2);
			sfp_tx_fault = ((mb[6] & 0x0008) >> 3);
			link_speed = ((mb[6] & 0x0070) >> 4);
			dcbx_status = ((mb[6] & 0x7000) >> 12);

			ql_log(ql_log_warn, vha, 0x5066,
			    "Peg-to-Fc Status Register:\n"
			    "peg_fw_state=0x%x, nw_interface_link_up=0x%x, "
			    "nw_interface_signal_detect=0x%x"
			    "\nsfp_statis=0x%x.\n ", peg_fw_state,
			    nw_interface_link_up, nw_interface_signal_detect,
			    sfp_status);
			ql_log(ql_log_warn, vha, 0x5067,
			    "htbt_counter=0x%x, htbt_monitor_enable=0x%x, "
			    "sfp_additonal_info=0x%x, sfp_multirate=0x%x.\n ",
			    htbt_counter, htbt_monitor_enable,
			    sfp_additonal_info, sfp_multirate);
			ql_log(ql_log_warn, vha, 0x5068,
			    "sfp_tx_fault=0x%x, link_state=0x%x, "
			    "dcbx_status=0x%x.\n", sfp_tx_fault, link_speed,
			    dcbx_status);

			qla83xx_schedule_work(vha, QLA83XX_NIC_CORE_RESET);
		}

		if (mb[1] & IDC_HEARTBEAT_FAILURE) {
			ql_log(ql_log_warn, vha, 0x5069,
			    "Heartbeat Failure encountered, chip reset "
			    "required.\n");

			qla83xx_schedule_work(vha, QLA83XX_NIC_CORE_RESET);
		}
	}

	if (mb[1] & IDC_DEVICE_STATE_CHANGE) {
		ql_log(ql_log_info, vha, 0x506a,
		    "IDC Device-State changed = 0x%x.\n", mb[4]);
		if (ha->flags.nic_core_reset_owner)
			return;
		qla83xx_schedule_work(vha, MBA_IDC_AEN);
	}
}

int
qla2x00_is_a_vp_did(scsi_qla_host_t *vha, uint32_t rscn_entry)
{
	struct qla_hw_data *ha = vha->hw;
	scsi_qla_host_t *vp;
	uint32_t vp_did;
	unsigned long flags;
	int ret = 0;

	if (!ha->num_vhosts)
		return ret;

	spin_lock_irqsave(&ha->vport_slock, flags);
	list_for_each_entry(vp, &ha->vp_list, list) {
		vp_did = vp->d_id.b24;
		if (vp_did == rscn_entry) {
			ret = 1;
			break;
		}
	}
	spin_unlock_irqrestore(&ha->vport_slock, flags);

	return ret;
}

/**
 * qla2x00_async_event() - Process aynchronous events.
 * @ha: SCSI driver HA context
 * @mb: Mailbox registers (0 - 3)
 */
void
qla2x00_async_event(scsi_qla_host_t *vha, struct rsp_que *rsp, uint16_t *mb)
{
	uint16_t	handle_cnt;
	uint16_t	cnt, mbx;
	uint32_t	handles[5];
	struct qla_hw_data *ha = vha->hw;
	struct device_reg_2xxx __iomem *reg = &ha->iobase->isp;
	struct device_reg_24xx __iomem *reg24 = &ha->iobase->isp24;
	struct device_reg_82xx __iomem *reg82 = &ha->iobase->isp82;
	uint32_t	rscn_entry, host_pid;
	unsigned long	flags;

	/* Setup to process RIO completion. */
	handle_cnt = 0;
	if (IS_CNA_CAPABLE(ha))
		goto skip_rio;
	switch (mb[0]) {
	case MBA_SCSI_COMPLETION:
		handles[0] = le32_to_cpu((uint32_t)((mb[2] << 16) | mb[1]));
		handle_cnt = 1;
		break;
	case MBA_CMPLT_1_16BIT:
		handles[0] = mb[1];
		handle_cnt = 1;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	case MBA_CMPLT_2_16BIT:
		handles[0] = mb[1];
		handles[1] = mb[2];
		handle_cnt = 2;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	case MBA_CMPLT_3_16BIT:
		handles[0] = mb[1];
		handles[1] = mb[2];
		handles[2] = mb[3];
		handle_cnt = 3;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	case MBA_CMPLT_4_16BIT:
		handles[0] = mb[1];
		handles[1] = mb[2];
		handles[2] = mb[3];
		handles[3] = (uint32_t)RD_MAILBOX_REG(ha, reg, 6);
		handle_cnt = 4;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	case MBA_CMPLT_5_16BIT:
		handles[0] = mb[1];
		handles[1] = mb[2];
		handles[2] = mb[3];
		handles[3] = (uint32_t)RD_MAILBOX_REG(ha, reg, 6);
		handles[4] = (uint32_t)RD_MAILBOX_REG(ha, reg, 7);
		handle_cnt = 5;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	case MBA_CMPLT_2_32BIT:
		handles[0] = le32_to_cpu((uint32_t)((mb[2] << 16) | mb[1]));
		handles[1] = le32_to_cpu(
		    ((uint32_t)(RD_MAILBOX_REG(ha, reg, 7) << 16)) |
		    RD_MAILBOX_REG(ha, reg, 6));
		handle_cnt = 2;
		mb[0] = MBA_SCSI_COMPLETION;
		break;
	default:
		break;
	}
skip_rio:
	switch (mb[0]) {
	case MBA_SCSI_COMPLETION:	/* Fast Post */
		if (!vha->flags.online)
			break;

		for (cnt = 0; cnt < handle_cnt; cnt++)
			qla2x00_process_completed_request(vha, rsp->req,
				handles[cnt]);
		break;

	case MBA_RESET:			/* Reset */
		ql_dbg(ql_dbg_async, vha, 0x5002,
		    "Asynchronous RESET.\n");

		set_bit(RESET_MARKER_NEEDED, &vha->dpc_flags);
		break;

	case MBA_SYSTEM_ERR:		/* System Error */
		mbx = (IS_QLA81XX(ha) || IS_QLA83XX(ha) || IS_QLA27XX(ha)) ?
			RD_REG_WORD(&reg24->mailbox7) : 0;
		ql_log(ql_log_warn, vha, 0x5003,
		    "ISP System Error - mbx1=%xh mbx2=%xh mbx3=%xh "
		    "mbx7=%xh.\n", mb[1], mb[2], mb[3], mbx);

		ha->isp_ops->fw_dump(vha, 1);

		if (IS_FWI2_CAPABLE(ha)) {
			if (mb[1] == 0 && mb[2] == 0) {
				ql_log(ql_log_fatal, vha, 0x5004,
				    "Unrecoverable Hardware Error: adapter "
				    "marked OFFLINE!\n");
				vha->flags.online = 0;
				vha->device_flags |= DFLG_DEV_FAILED;
			} else {
				/* Check to see if MPI timeout occurred */
				if ((mbx & MBX_3) && (ha->port_no == 0))
					set_bit(MPI_RESET_NEEDED,
					    &vha->dpc_flags);

				set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			}
		} else if (mb[1] == 0) {
			ql_log(ql_log_fatal, vha, 0x5005,
			    "Unrecoverable Hardware Error: adapter marked "
			    "OFFLINE!\n");
			vha->flags.online = 0;
			vha->device_flags |= DFLG_DEV_FAILED;
		} else
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		break;

	case MBA_REQ_TRANSFER_ERR:	/* Request Transfer Error */
		ql_log(ql_log_warn, vha, 0x5006,
		    "ISP Request Transfer Error (%x).\n",  mb[1]);

		set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		break;

	case MBA_RSP_TRANSFER_ERR:	/* Response Transfer Error */
		ql_log(ql_log_warn, vha, 0x5007,
		    "ISP Response Transfer Error.\n");

		set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		break;

	case MBA_WAKEUP_THRES:		/* Request Queue Wake-up */
		ql_dbg(ql_dbg_async, vha, 0x5008,
		    "Asynchronous WAKEUP_THRES.\n");

		break;
	case MBA_LIP_OCCURRED:		/* Loop Initialization Procedure */
		ql_dbg(ql_dbg_async, vha, 0x5009,
		    "LIP occurred (%x).\n", mb[1]);

		if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
			atomic_set(&vha->loop_state, LOOP_DOWN);
			atomic_set(&vha->loop_down_timer, LOOP_DOWN_TIME);
			qla2x00_mark_all_devices_lost(vha, 1);
		}

		if (vha->vp_idx) {
			atomic_set(&vha->vp_state, VP_FAILED);
			fc_vport_set_state(vha->fc_vport, FC_VPORT_FAILED);
		}

		set_bit(REGISTER_FC4_NEEDED, &vha->dpc_flags);
		set_bit(REGISTER_FDMI_NEEDED, &vha->dpc_flags);

		vha->flags.management_server_logged_in = 0;
		qla2x00_post_aen_work(vha, FCH_EVT_LIP, mb[1]);
		break;

	case MBA_LOOP_UP:		/* Loop Up Event */
		if (IS_QLA2100(ha) || IS_QLA2200(ha))
			ha->link_data_rate = PORT_SPEED_1GB;
		else
			ha->link_data_rate = mb[1];

		ql_log(ql_log_info, vha, 0x500a,
		    "LOOP UP detected (%s Gbps).\n",
		    qla2x00_get_link_speed_str(ha, ha->link_data_rate));

		vha->flags.management_server_logged_in = 0;
		qla2x00_post_aen_work(vha, FCH_EVT_LINKUP, ha->link_data_rate);
		break;

	case MBA_LOOP_DOWN:		/* Loop Down Event */
		mbx = (IS_QLA81XX(ha) || IS_QLA8031(ha))
			? RD_REG_WORD(&reg24->mailbox4) : 0;
		mbx = (IS_P3P_TYPE(ha)) ? RD_REG_WORD(&reg82->mailbox_out[4])
			: mbx;
		ql_log(ql_log_info, vha, 0x500b,
		    "LOOP DOWN detected (%x %x %x %x).\n",
		    mb[1], mb[2], mb[3], mbx);

		if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
			atomic_set(&vha->loop_state, LOOP_DOWN);
			atomic_set(&vha->loop_down_timer, LOOP_DOWN_TIME);
			/*
			 * In case of loop down, restore WWPN from
			 * NVRAM in case of FA-WWPN capable ISP
			 */
			if (ha->flags.fawwpn_enabled) {
				void *wwpn = ha->init_cb->port_name;

				memcpy(vha->port_name, wwpn, WWN_SIZE);
			}

			vha->device_flags |= DFLG_NO_CABLE;
			qla2x00_mark_all_devices_lost(vha, 1);
		}

		if (vha->vp_idx) {
			atomic_set(&vha->vp_state, VP_FAILED);
			fc_vport_set_state(vha->fc_vport, FC_VPORT_FAILED);
		}

		vha->flags.management_server_logged_in = 0;
		ha->link_data_rate = PORT_SPEED_UNKNOWN;
		qla2x00_post_aen_work(vha, FCH_EVT_LINKDOWN, 0);
		break;

	case MBA_LIP_RESET:		/* LIP reset occurred */
		ql_dbg(ql_dbg_async, vha, 0x500c,
		    "LIP reset occurred (%x).\n", mb[1]);

		if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
			atomic_set(&vha->loop_state, LOOP_DOWN);
			atomic_set(&vha->loop_down_timer, LOOP_DOWN_TIME);
			qla2x00_mark_all_devices_lost(vha, 1);
		}

		if (vha->vp_idx) {
			atomic_set(&vha->vp_state, VP_FAILED);
			fc_vport_set_state(vha->fc_vport, FC_VPORT_FAILED);
		}

		set_bit(RESET_MARKER_NEEDED, &vha->dpc_flags);

		ha->operating_mode = LOOP;
		vha->flags.management_server_logged_in = 0;
		qla2x00_post_aen_work(vha, FCH_EVT_LIPRESET, mb[1]);
		break;

	/* case MBA_DCBX_COMPLETE: */
	case MBA_POINT_TO_POINT:	/* Point-to-Point */
		if (IS_QLA2100(ha))
			break;

		if (IS_CNA_CAPABLE(ha)) {
			ql_dbg(ql_dbg_async, vha, 0x500d,
			    "DCBX Completed -- %04x %04x %04x.\n",
			    mb[1], mb[2], mb[3]);
			if (ha->notify_dcbx_comp && !vha->vp_idx)
				complete(&ha->dcbx_comp);

		} else
			ql_dbg(ql_dbg_async, vha, 0x500e,
			    "Asynchronous P2P MODE received.\n");

		/*
		 * Until there's a transition from loop down to loop up, treat
		 * this as loop down only.
		 */
		if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
			atomic_set(&vha->loop_state, LOOP_DOWN);
			if (!atomic_read(&vha->loop_down_timer))
				atomic_set(&vha->loop_down_timer,
				    LOOP_DOWN_TIME);
			qla2x00_mark_all_devices_lost(vha, 1);
		}

		if (vha->vp_idx) {
			atomic_set(&vha->vp_state, VP_FAILED);
			fc_vport_set_state(vha->fc_vport, FC_VPORT_FAILED);
		}

		if (!(test_bit(ABORT_ISP_ACTIVE, &vha->dpc_flags)))
			set_bit(RESET_MARKER_NEEDED, &vha->dpc_flags);

		set_bit(REGISTER_FC4_NEEDED, &vha->dpc_flags);
		set_bit(REGISTER_FDMI_NEEDED, &vha->dpc_flags);

		ha->flags.gpsc_supported = 1;
		vha->flags.management_server_logged_in = 0;
		break;

	case MBA_CHG_IN_CONNECTION:	/* Change in connection mode */
		if (IS_QLA2100(ha))
			break;

		ql_dbg(ql_dbg_async, vha, 0x500f,
		    "Configuration change detected: value=%x.\n", mb[1]);

		if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
			atomic_set(&vha->loop_state, LOOP_DOWN);
			if (!atomic_read(&vha->loop_down_timer))
				atomic_set(&vha->loop_down_timer,
				    LOOP_DOWN_TIME);
			qla2x00_mark_all_devices_lost(vha, 1);
		}

		if (vha->vp_idx) {
			atomic_set(&vha->vp_state, VP_FAILED);
			fc_vport_set_state(vha->fc_vport, FC_VPORT_FAILED);
		}

		set_bit(LOOP_RESYNC_NEEDED, &vha->dpc_flags);
		set_bit(LOCAL_LOOP_UPDATE, &vha->dpc_flags);
		break;

	case MBA_PORT_UPDATE:		/* Port database update */
		/*
		 * Handle only global and vn-port update events
		 *
		 * Relevant inputs:
		 * mb[1] = N_Port handle of changed port
		 * OR 0xffff for global event
		 * mb[2] = New login state
		 * 7 = Port logged out
		 * mb[3] = LSB is vp_idx, 0xff = all vps
		 *
		 * Skip processing if:
		 *       Event is global, vp_idx is NOT all vps,
		 *           vp_idx does not match
		 *       Event is not global, vp_idx does not match
		 */
		if (IS_QLA2XXX_MIDTYPE(ha) &&
		    ((mb[1] == 0xffff && (mb[3] & 0xff) != 0xff) ||
			(mb[1] != 0xffff)) && vha->vp_idx != (mb[3] & 0xff))
			break;

		/* Global event -- port logout or port unavailable. */
		if (mb[1] == 0xffff && mb[2] == 0x7) {
			ql_dbg(ql_dbg_async, vha, 0x5010,
			    "Port unavailable %04x %04x %04x.\n",
			    mb[1], mb[2], mb[3]);
			ql_log(ql_log_warn, vha, 0x505e,
			    "Link is offline.\n");

			if (atomic_read(&vha->loop_state) != LOOP_DOWN) {
				atomic_set(&vha->loop_state, LOOP_DOWN);
				atomic_set(&vha->loop_down_timer,
				    LOOP_DOWN_TIME);
				vha->device_flags |= DFLG_NO_CABLE;
				qla2x00_mark_all_devices_lost(vha, 1);
			}

			if (vha->vp_idx) {
				atomic_set(&vha->vp_state, VP_FAILED);
				fc_vport_set_state(vha->fc_vport,
				    FC_VPORT_FAILED);
				qla2x00_mark_all_devices_lost(vha, 1);
			}

			vha->flags.management_server_logged_in = 0;
			ha->link_data_rate = PORT_SPEED_UNKNOWN;
			break;
		}

		/*
		 * If PORT UPDATE is global (received LIP_OCCURRED/LIP_RESET
		 * event etc. earlier indicating loop is down) then process
		 * it.  Otherwise ignore it and Wait for RSCN to come in.
		 */
		atomic_set(&vha->loop_down_timer, 0);
		if (atomic_read(&vha->loop_state) != LOOP_DOWN &&
		    atomic_read(&vha->loop_state) != LOOP_DEAD) {
			ql_dbg(ql_dbg_async, vha, 0x5011,
			    "Asynchronous PORT UPDATE ignored %04x/%04x/%04x.\n",
			    mb[1], mb[2], mb[3]);

			qlt_async_event(mb[0], vha, mb);
			break;
		}

		ql_dbg(ql_dbg_async, vha, 0x5012,
		    "Port database changed %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);

		/*
		 * Mark all devices as missing so we will login again.
		 */
		atomic_set(&vha->loop_state, LOOP_UP);

		qla2x00_mark_all_devices_lost(vha, 1);

		if (vha->vp_idx == 0 && !qla_ini_mode_enabled(vha))
			set_bit(SCR_PENDING, &vha->dpc_flags);

		set_bit(LOOP_RESYNC_NEEDED, &vha->dpc_flags);
		set_bit(LOCAL_LOOP_UPDATE, &vha->dpc_flags);

		qlt_async_event(mb[0], vha, mb);
		break;

	case MBA_RSCN_UPDATE:		/* State Change Registration */
		/* Check if the Vport has issued a SCR */
		if (vha->vp_idx && test_bit(VP_SCR_NEEDED, &vha->vp_flags))
			break;
		/* Only handle SCNs for our Vport index. */
		if (ha->flags.npiv_supported && vha->vp_idx != (mb[3] & 0xff))
			break;

		ql_dbg(ql_dbg_async, vha, 0x5013,
		    "RSCN database changed -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);

		rscn_entry = ((mb[1] & 0xff) << 16) | mb[2];
		host_pid = (vha->d_id.b.domain << 16) | (vha->d_id.b.area << 8)
				| vha->d_id.b.al_pa;
		if (rscn_entry == host_pid) {
			ql_dbg(ql_dbg_async, vha, 0x5014,
			    "Ignoring RSCN update to local host "
			    "port ID (%06x).\n", host_pid);
			break;
		}

		/* Ignore reserved bits from RSCN-payload. */
		rscn_entry = ((mb[1] & 0x3ff) << 16) | mb[2];

		/* Skip RSCNs for virtual ports on the same physical port */
		if (qla2x00_is_a_vp_did(vha, rscn_entry))
			break;

		atomic_set(&vha->loop_down_timer, 0);
		vha->flags.management_server_logged_in = 0;

		set_bit(LOOP_RESYNC_NEEDED, &vha->dpc_flags);
		set_bit(RSCN_UPDATE, &vha->dpc_flags);
		qla2x00_post_aen_work(vha, FCH_EVT_RSCN, rscn_entry);
		break;

	/* case MBA_RIO_RESPONSE: */
	case MBA_ZIO_RESPONSE:
		ql_dbg(ql_dbg_async, vha, 0x5015,
		    "[R|Z]IO update completion.\n");

		if (IS_FWI2_CAPABLE(ha))
			qla24xx_process_response_queue(vha, rsp);
		else
			qla2x00_process_response_queue(rsp);
		break;

	case MBA_DISCARD_RND_FRAME:
		ql_dbg(ql_dbg_async, vha, 0x5016,
		    "Discard RND Frame -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);
		break;

	case MBA_TRACE_NOTIFICATION:
		ql_dbg(ql_dbg_async, vha, 0x5017,
		    "Trace Notification -- %04x %04x.\n", mb[1], mb[2]);
		break;

	case MBA_ISP84XX_ALERT:
		ql_dbg(ql_dbg_async, vha, 0x5018,
		    "ISP84XX Alert Notification -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);

		spin_lock_irqsave(&ha->cs84xx->access_lock, flags);
		switch (mb[1]) {
		case A84_PANIC_RECOVERY:
			ql_log(ql_log_info, vha, 0x5019,
			    "Alert 84XX: panic recovery %04x %04x.\n",
			    mb[2], mb[3]);
			break;
		case A84_OP_LOGIN_COMPLETE:
			ha->cs84xx->op_fw_version = mb[3] << 16 | mb[2];
			ql_log(ql_log_info, vha, 0x501a,
			    "Alert 84XX: firmware version %x.\n",
			    ha->cs84xx->op_fw_version);
			break;
		case A84_DIAG_LOGIN_COMPLETE:
			ha->cs84xx->diag_fw_version = mb[3] << 16 | mb[2];
			ql_log(ql_log_info, vha, 0x501b,
			    "Alert 84XX: diagnostic firmware version %x.\n",
			    ha->cs84xx->diag_fw_version);
			break;
		case A84_GOLD_LOGIN_COMPLETE:
			ha->cs84xx->diag_fw_version = mb[3] << 16 | mb[2];
			ha->cs84xx->fw_update = 1;
			ql_log(ql_log_info, vha, 0x501c,
			    "Alert 84XX: gold firmware version %x.\n",
			    ha->cs84xx->gold_fw_version);
			break;
		default:
			ql_log(ql_log_warn, vha, 0x501d,
			    "Alert 84xx: Invalid Alert %04x %04x %04x.\n",
			    mb[1], mb[2], mb[3]);
		}
		spin_unlock_irqrestore(&ha->cs84xx->access_lock, flags);
		break;
	case MBA_DCBX_START:
		ql_dbg(ql_dbg_async, vha, 0x501e,
		    "DCBX Started -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);
		break;
	case MBA_DCBX_PARAM_UPDATE:
		ql_dbg(ql_dbg_async, vha, 0x501f,
		    "DCBX Parameters Updated -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);
		break;
	case MBA_FCF_CONF_ERR:
		ql_dbg(ql_dbg_async, vha, 0x5020,
		    "FCF Configuration Error -- %04x %04x %04x.\n",
		    mb[1], mb[2], mb[3]);
		break;
	case MBA_IDC_NOTIFY:
		if (IS_QLA8031(vha->hw) || IS_QLA8044(ha)) {
			mb[4] = RD_REG_WORD(&reg24->mailbox4);
			if (((mb[2] & 0x7fff) == MBC_PORT_RESET ||
			    (mb[2] & 0x7fff) == MBC_SET_PORT_CONFIG) &&
			    (mb[4] & INTERNAL_LOOPBACK_MASK) != 0) {
				set_bit(ISP_QUIESCE_NEEDED, &vha->dpc_flags);
				/*
				 * Extend loop down timer since port is active.
				 */
				if (atomic_read(&vha->loop_state) == LOOP_DOWN)
					atomic_set(&vha->loop_down_timer,
					    LOOP_DOWN_TIME);
				qla2xxx_wake_dpc(vha);
			}
		}
	case MBA_IDC_COMPLETE:
		if (ha->notify_lb_portup_comp && !vha->vp_idx)
			complete(&ha->lb_portup_comp);
		/* Fallthru */
	case MBA_IDC_TIME_EXT:
		if (IS_QLA81XX(vha->hw) || IS_QLA8031(vha->hw) ||
		    IS_QLA8044(ha))
			qla81xx_idc_event(vha, mb[0], mb[1]);
		break;

	case MBA_IDC_AEN:
		mb[4] = RD_REG_WORD(&reg24->mailbox4);
		mb[5] = RD_REG_WORD(&reg24->mailbox5);
		mb[6] = RD_REG_WORD(&reg24->mailbox6);
		mb[7] = RD_REG_WORD(&reg24->mailbox7);
		qla83xx_handle_8200_aen(vha, mb);
		break;

	case MBA_DPORT_DIAGNOSTICS:
		ql_dbg(ql_dbg_async, vha, 0x5052,
		    "D-Port Diagnostics: %04x %04x=%s\n", mb[0], mb[1],
		    mb[1] == 0 ? "start" :
		    mb[1] == 1 ? "done (ok)" :
		    mb[1] == 2 ? "done (error)" : "other");
		break;

	default:
		ql_dbg(ql_dbg_async, vha, 0x5057,
		    "Unknown AEN:%04x %04x %04x %04x\n",
		    mb[0], mb[1], mb[2], mb[3]);
	}

	qlt_async_event(mb[0], vha, mb);

	if (!vha->vp_idx && ha->num_vhosts)
		qla2x00_alert_all_vps(rsp, mb);
}

/**
 * qla2x00_process_completed_request() - Process a Fast Post response.
 * @ha: SCSI driver HA context
 * @index: SRB index
 */
void
qla2x00_process_completed_request(struct scsi_qla_host *vha,
				  struct req_que *req, uint32_t index)
{
	srb_t *sp;
	struct qla_hw_data *ha = vha->hw;

	/* Validate handle. */
	if (index >= req->num_outstanding_cmds) {
		ql_log(ql_log_warn, vha, 0x3014,
		    "Invalid SCSI command index (%x).\n", index);

		if (IS_P3P_TYPE(ha))
			set_bit(FCOE_CTX_RESET_NEEDED, &vha->dpc_flags);
		else
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		return;
	}

	sp = req->outstanding_cmds[index];
	if (sp) {
		/* Free outstanding command slot. */
		req->outstanding_cmds[index] = NULL;

		/* Save ISP completion status */
		sp->done(ha, sp, DID_OK << 16);
	} else {
		ql_log(ql_log_warn, vha, 0x3016, "Invalid SCSI SRB.\n");

		if (IS_P3P_TYPE(ha))
			set_bit(FCOE_CTX_RESET_NEEDED, &vha->dpc_flags);
		else
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
	}
}

srb_t *
qla2x00_get_sp_from_handle(scsi_qla_host_t *vha, const char *func,
    struct req_que *req, void *iocb)
{
	struct qla_hw_data *ha = vha->hw;
	sts_entry_t *pkt = iocb;
	srb_t *sp = NULL;
	uint16_t index;

	index = LSW(pkt->handle);
	if (index >= req->num_outstanding_cmds) {
		ql_log(ql_log_warn, vha, 0x5031,
		    "Invalid command index (%x).\n", index);
		if (IS_P3P_TYPE(ha))
			set_bit(FCOE_CTX_RESET_NEEDED, &vha->dpc_flags);
		else
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		goto done;
	}
	sp = req->outstanding_cmds[index];
	if (!sp) {
		ql_log(ql_log_warn, vha, 0x5032,
		    "Invalid completion handle (%x) -- timed-out.\n", index);
		return sp;
	}
	if (sp->handle != index) {
		ql_log(ql_log_warn, vha, 0x5033,
		    "SRB handle (%x) mismatch %x.\n", sp->handle, index);
		return NULL;
	}

	req->outstanding_cmds[index] = NULL;

done:
	return sp;
}

static void
qla2x00_mbx_iocb_entry(scsi_qla_host_t *vha, struct req_que *req,
    struct mbx_entry *mbx)
{
	const char func[] = "MBX-IOCB";
	const char *type;
	fc_port_t *fcport;
	srb_t *sp;
	struct srb_iocb *lio;
	uint16_t *data;
	uint16_t status;

	sp = qla2x00_get_sp_from_handle(vha, func, req, mbx);
	if (!sp)
		return;

	lio = &sp->u.iocb_cmd;
	type = sp->name;
	fcport = sp->fcport;
	data = lio->u.logio.data;

	data[0] = MBS_COMMAND_ERROR;
	data[1] = lio->u.logio.flags & SRB_LOGIN_RETRIED ?
	    QLA_LOGIO_LOGIN_RETRIED : 0;
	if (mbx->entry_status) {
		ql_dbg(ql_dbg_async, vha, 0x5043,
		    "Async-%s error entry - hdl=%x portid=%02x%02x%02x "
		    "entry-status=%x status=%x state-flag=%x "
		    "status-flags=%x.\n", type, sp->handle,
		    fcport->d_id.b.domain, fcport->d_id.b.area,
		    fcport->d_id.b.al_pa, mbx->entry_status,
		    le16_to_cpu(mbx->status), le16_to_cpu(mbx->state_flags),
		    le16_to_cpu(mbx->status_flags));

		ql_dump_buffer(ql_dbg_async + ql_dbg_buffer, vha, 0x5029,
		    (uint8_t *)mbx, sizeof(*mbx));

		goto logio_done;
	}

	status = le16_to_cpu(mbx->status);
	if (status == 0x30 && sp->type == SRB_LOGIN_CMD &&
	    le16_to_cpu(mbx->mb0) == MBS_COMMAND_COMPLETE)
		status = 0;
	if (!status && le16_to_cpu(mbx->mb0) == MBS_COMMAND_COMPLETE) {
		ql_dbg(ql_dbg_async, vha, 0x5045,
		    "Async-%s complete - hdl=%x portid=%02x%02x%02x mbx1=%x.\n",
		    type, sp->handle, fcport->d_id.b.domain,
		    fcport->d_id.b.area, fcport->d_id.b.al_pa,
		    le16_to_cpu(mbx->mb1));

		data[0] = MBS_COMMAND_COMPLETE;
		if (sp->type == SRB_LOGIN_CMD) {
			fcport->port_type = FCT_TARGET;
			if (le16_to_cpu(mbx->mb1) & BIT_0)
				fcport->port_type = FCT_INITIATOR;
			else if (le16_to_cpu(mbx->mb1) & BIT_1)
				fcport->flags |= FCF_FCP2_DEVICE;
		}
		goto logio_done;
	}

	data[0] = le16_to_cpu(mbx->mb0);
	switch (data[0]) {
	case MBS_PORT_ID_USED:
		data[1] = le16_to_cpu(mbx->mb1);
		break;
	case MBS_LOOP_ID_USED:
		break;
	default:
		data[0] = MBS_COMMAND_ERROR;
		break;
	}

	ql_log(ql_log_warn, vha, 0x5046,
	    "Async-%s failed - hdl=%x portid=%02x%02x%02x status=%x "
	    "mb0=%x mb1=%x mb2=%x mb6=%x mb7=%x.\n", type, sp->handle,
	    fcport->d_id.b.domain, fcport->d_id.b.area, fcport->d_id.b.al_pa,
	    status, le16_to_cpu(mbx->mb0), le16_to_cpu(mbx->mb1),
	    le16_to_cpu(mbx->mb2), le16_to_cpu(mbx->mb6),
	    le16_to_cpu(mbx->mb7));

logio_done:
	sp->done(vha, sp, 0);
}

static void
qla2x00_ct_entry(scsi_qla_host_t *vha, struct req_que *req,
    sts_entry_t *pkt, int iocb_type)
{
	const char func[] = "CT_IOCB";
	const char *type;
	srb_t *sp;
	struct fc_bsg_job *bsg_job;
	uint16_t comp_status;
	int res;

	sp = qla2x00_get_sp_from_handle(vha, func, req, pkt);
	if (!sp)
		return;

	bsg_job = sp->u.bsg_job;

	type = "ct pass-through";

	comp_status = le16_to_cpu(pkt->comp_status);

	/* return FC_CTELS_STATUS_OK and leave the decoding of the ELS/CT
	 * fc payload  to the caller
	 */
	bsg_job->reply->reply_data.ctels_reply.status = FC_CTELS_STATUS_OK;
	bsg_job->reply_len = sizeof(struct fc_bsg_reply);

	if (comp_status != CS_COMPLETE) {
		if (comp_status == CS_DATA_UNDERRUN) {
			res = DID_OK << 16;
			bsg_job->reply->reply_payload_rcv_len =
			    le16_to_cpu(((sts_entry_t *)pkt)->rsp_info_len);

			ql_log(ql_log_warn, vha, 0x5048,
			    "CT pass-through-%s error "
			    "comp_status-status=0x%x total_byte = 0x%x.\n",
			    type, comp_status,
			    bsg_job->reply->reply_payload_rcv_len);
		} else {
			ql_log(ql_log_warn, vha, 0x5049,
			    "CT pass-through-%s error "
			    "comp_status-status=0x%x.\n", type, comp_status);
			res = DID_ERROR << 16;
			bsg_job->reply->reply_payload_rcv_len = 0;
		}
		ql_dump_buffer(ql_dbg_async + ql_dbg_buffer, vha, 0x5035,
		    (uint8_t *)pkt, sizeof(*pkt));
	} else {
		res = DID_OK << 16;
		bsg_job->reply->reply_payload_rcv_len =
		    bsg_job->reply_payload.payload_len;
		bsg_job->reply_len = 0;
	}

	sp->done(vha, sp, res);
}

static void
qla24xx_els_ct_entry(scsi_qla_host_t *vha, struct req_que *req,
    struct sts_entry_24xx *pkt, int iocb_type)
{
	const char func[] = "ELS_CT_IOCB";
	const char *type;
	srb_t *sp;
	struct fc_bsg_job *bsg_job;
	uint16_t comp_status;
	uint32_t fw_status[3];
	uint8_t* fw_sts_ptr;
	int res;

	sp = qla2x00_get_sp_from_handle(vha, func, req, pkt);
	if (!sp)
		return;
	bsg_job = sp->u.bsg_job;

	type = NULL;
	switch (sp->type) {
	case SRB_ELS_CMD_RPT:
	case SRB_ELS_CMD_HST:
		type = "els";
		break;
	case SRB_CT_CMD:
		type = "ct pass-through";
		break;
	default:
		ql_dbg(ql_dbg_user, vha, 0x503e,
		    "Unrecognized SRB: (%p) type=%d.\n", sp, sp->type);
		return;
	}

	comp_status = fw_status[0] = le16_to_cpu(pkt->comp_status);
	fw_status[1] = le16_to_cpu(((struct els_sts_entry_24xx*)pkt)->error_subcode_1);
	fw_status[2] = le16_to_cpu(((struct els_sts_entry_24xx*)pkt)->error_subcode_2);

	/* return FC_CTELS_STATUS_OK and leave the decoding of the ELS/CT
	 * fc payload  to the caller
	 */
	bsg_job->reply->reply_data.ctels_reply.status = FC_CTELS_STATUS_OK;
	bsg_job->reply_len = sizeof(struct fc_bsg_reply) + sizeof(fw_status);

	if (comp_status != CS_COMPLETE) {
		if (comp_status == CS_DATA_UNDERRUN) {
			res = DID_OK << 16;
			bsg_job->reply->reply_payload_rcv_len =
			    le16_to_cpu(((struct els_sts_entry_24xx *)pkt)->total_byte_count);

			ql_dbg(ql_dbg_user, vha, 0x503f,
			    "ELS-CT pass-through-%s error hdl=%x comp_status-status=0x%x "
			    "error subcode 1=0x%x error subcode 2=0x%x total_byte = 0x%x.\n",
			    type, sp->handle, comp_status, fw_status[1], fw_status[2],
			    le16_to_cpu(((struct els_sts_entry_24xx *)
				pkt)->total_byte_count));
			fw_sts_ptr = ((uint8_t*)bsg_job->req->sense) + sizeof(struct fc_bsg_reply);
			memcpy( fw_sts_ptr, fw_status, sizeof(fw_status));
		}
		else {
			ql_dbg(ql_dbg_user, vha, 0x5040,
			    "ELS-CT pass-through-%s error hdl=%x comp_status-status=0x%x "
			    "error subcode 1=0x%x error subcode 2=0x%x.\n",
			    type, sp->handle, comp_status,
			    le16_to_cpu(((struct els_sts_entry_24xx *)
				pkt)->error_subcode_1),
			    le16_to_cpu(((struct els_sts_entry_24xx *)
				    pkt)->error_subcode_2));
			res = DID_ERROR << 16;
			bsg_job->reply->reply_payload_rcv_len = 0;
			fw_sts_ptr = ((uint8_t*)bsg_job->req->sense) + sizeof(struct fc_bsg_reply);
			memcpy( fw_sts_ptr, fw_status, sizeof(fw_status));
		}
		ql_dump_buffer(ql_dbg_user + ql_dbg_buffer, vha, 0x5056,
				(uint8_t *)pkt, sizeof(*pkt));
	}
	else {
		res =  DID_OK << 16;
		bsg_job->reply->reply_payload_rcv_len = bsg_job->reply_payload.payload_len;
		bsg_job->reply_len = 0;
	}

	sp->done(vha, sp, res);
}

static void
qla24xx_logio_entry(scsi_qla_host_t *vha, struct req_que *req,
    struct logio_entry_24xx *logio)
{
	const char func[] = "LOGIO-IOCB";
	const char *type;
	fc_port_t *fcport;
	srb_t *sp;
	struct srb_iocb *lio;
	uint16_t *data;
	uint32_t iop[2];

	sp = qla2x00_get_sp_from_handle(vha, func, req, logio);
	if (!sp)
		return;

	lio = &sp->u.iocb_cmd;
	type = sp->name;
	fcport = sp->fcport;
	data = lio->u.logio.data;

	data[0] = MBS_COMMAND_ERROR;
	data[1] = lio->u.logio.flags & SRB_LOGIN_RETRIED ?
		QLA_LOGIO_LOGIN_RETRIED : 0;
	if (logio->entry_status) {
		ql_log(ql_log_warn, fcport->vha, 0x5034,
		    "Async-%s error entry - hdl=%x"
		    "portid=%02x%02x%02x entry-status=%x.\n",
		    type, sp->handle, fcport->d_id.b.domain,
		    fcport->d_id.b.area, fcport->d_id.b.al_pa,
		    logio->entry_status);
		ql_dump_buffer(ql_dbg_async + ql_dbg_buffer, vha, 0x504d,
		    (uint8_t *)logio, sizeof(*logio));

		goto logio_done;
	}

	if (le16_to_cpu(logio->comp_status) == CS_COMPLETE) {
		ql_dbg(ql_dbg_async, fcport->vha, 0x5036,
		    "Async-%s complete - hdl=%x portid=%02x%02x%02x "
		    "iop0=%x.\n", type, sp->handle, fcport->d_id.b.domain,
		    fcport->d_id.b.area, fcport->d_id.b.al_pa,
		    le32_to_cpu(logio->io_parameter[0]));

		data[0] = MBS_COMMAND_COMPLETE;
		if (sp->type != SRB_LOGIN_CMD)
			goto logio_done;

		iop[0] = le32_to_cpu(logio->io_parameter[0]);
		if (iop[0] & BIT_4) {
			fcport->port_type = FCT_TARGET;
			if (iop[0] & BIT_8)
				fcport->flags |= FCF_FCP2_DEVICE;
		} else if (iop[0] & BIT_5)
			fcport->port_type = FCT_INITIATOR;

		if (iop[0] & BIT_7)
			fcport->flags |= FCF_CONF_COMP_SUPPORTED;

		if (logio->io_parameter[7] || logio->io_parameter[8])
			fcport->supported_classes |= FC_COS_CLASS2;
		if (logio->io_parameter[9] || logio->io_parameter[10])
			fcport->supported_classes |= FC_COS_CLASS3;

		goto logio_done;
	}

	iop[0] = le32_to_cpu(logio->io_parameter[0]);
	iop[1] = le32_to_cpu(logio->io_parameter[1]);
	switch (iop[0]) {
	case LSC_SCODE_PORTID_USED:
		data[0] = MBS_PORT_ID_USED;
		data[1] = LSW(iop[1]);
		break;
	case LSC_SCODE_NPORT_USED:
		data[0] = MBS_LOOP_ID_USED;
		break;
	default:
		data[0] = MBS_COMMAND_ERROR;
		break;
	}

	ql_dbg(ql_dbg_async, fcport->vha, 0x5037,
	    "Async-%s failed - hdl=%x portid=%02x%02x%02x comp=%x "
	    "iop0=%x iop1=%x.\n", type, sp->handle, fcport->d_id.b.domain,
	    fcport->d_id.b.area, fcport->d_id.b.al_pa,
	    le16_to_cpu(logio->comp_status),
	    le32_to_cpu(logio->io_parameter[0]),
	    le32_to_cpu(logio->io_parameter[1]));

logio_done:
	sp->done(vha, sp, 0);
}

static void
qla24xx_tm_iocb_entry(scsi_qla_host_t *vha, struct req_que *req, void *tsk)
{
	const char func[] = "TMF-IOCB";
	const char *type;
	fc_port_t *fcport;
	srb_t *sp;
	struct srb_iocb *iocb;
	struct sts_entry_24xx *sts = (struct sts_entry_24xx *)tsk;

	sp = qla2x00_get_sp_from_handle(vha, func, req, tsk);
	if (!sp)
		return;

	iocb = &sp->u.iocb_cmd;
	type = sp->name;
	fcport = sp->fcport;
	iocb->u.tmf.data = QLA_SUCCESS;

	if (sts->entry_status) {
		ql_log(ql_log_warn, fcport->vha, 0x5038,
		    "Async-%s error - hdl=%x entry-status(%x).\n",
		    type, sp->handle, sts->entry_status);
		iocb->u.tmf.data = QLA_FUNCTION_FAILED;
	} else if (sts->comp_status != __constant_cpu_to_le16(CS_COMPLETE)) {
		ql_log(ql_log_warn, fcport->vha, 0x5039,
		    "Async-%s error - hdl=%x completion status(%x).\n",
		    type, sp->handle, sts->comp_status);
		iocb->u.tmf.data = QLA_FUNCTION_FAILED;
	} else if ((le16_to_cpu(sts->scsi_status) &
	    SS_RESPONSE_INFO_LEN_VALID)) {
		if (le32_to_cpu(sts->rsp_data_len) < 4) {
			ql_log(ql_log_warn, fcport->vha, 0x503b,
			    "Async-%s error - hdl=%x not enough response(%d).\n",
			    type, sp->handle, sts->rsp_data_len);
		} else if (sts->data[3]) {
			ql_log(ql_log_warn, fcport->vha, 0x503c,
			    "Async-%s error - hdl=%x response(%x).\n",
			    type, sp->handle, sts->data[3]);
		iocb->u.tmf.data = QLA_FUNCTION_FAILED;
		}
	}

	if (iocb->u.tmf.data != QLA_SUCCESS)
		ql_dump_buffer(ql_dbg_async + ql_dbg_buffer, vha, 0x5055,
		    (uint8_t *)sts, sizeof(*sts));

	sp->done(vha, sp, 0);
}

/**
 * qla2x00_process_response_queue() - Process response queue entries.
 * @ha: SCSI driver HA context
 */
void
qla2x00_process_response_queue(struct rsp_que *rsp)
{
	struct scsi_qla_host *vha;
	struct qla_hw_data *ha = rsp->hw;
	struct device_reg_2xxx __iomem *reg = &ha->iobase->isp;
	sts_entry_t	*pkt;
	uint16_t        handle_cnt;
	uint16_t        cnt;

	vha = pci_get_drvdata(ha->pdev);

	if (!vha->flags.online)
		return;

	while (rsp->ring_ptr->signature != RESPONSE_PROCESSED) {
		pkt = (sts_entry_t *)rsp->ring_ptr;

		rsp->ring_index++;
		if (rsp->ring_index == rsp->length) {
			rsp->ring_index = 0;
			rsp->ring_ptr = rsp->ring;
		} else {
			rsp->ring_ptr++;
		}

		if (pkt->entry_status != 0) {
			qla2x00_error_entry(vha, rsp, pkt);
			((response_t *)pkt)->signature = RESPONSE_PROCESSED;
			wmb();
			continue;
		}

		switch (pkt->entry_type) {
		case STATUS_TYPE:
			qla2x00_status_entry(vha, rsp, pkt);
			break;
		case STATUS_TYPE_21:
			handle_cnt = ((sts21_entry_t *)pkt)->handle_count;
			for (cnt = 0; cnt < handle_cnt; cnt++) {
				qla2x00_process_completed_request(vha, rsp->req,
				    ((sts21_entry_t *)pkt)->handle[cnt]);
			}
			break;
		case STATUS_TYPE_22:
			handle_cnt = ((sts22_entry_t *)pkt)->handle_count;
			for (cnt = 0; cnt < handle_cnt; cnt++) {
				qla2x00_process_completed_request(vha, rsp->req,
				    ((sts22_entry_t *)pkt)->handle[cnt]);
			}
			break;
		case STATUS_CONT_TYPE:
			qla2x00_status_cont_entry(rsp, (sts_cont_entry_t *)pkt);
			break;
		case MBX_IOCB_TYPE:
			qla2x00_mbx_iocb_entry(vha, rsp->req,
			    (struct mbx_entry *)pkt);
			break;
		case CT_IOCB_TYPE:
			qla2x00_ct_entry(vha, rsp->req, pkt, CT_IOCB_TYPE);
			break;
		default:
			/* Type Not Supported. */
			ql_log(ql_log_warn, vha, 0x504a,
			    "Received unknown response pkt type %x "
			    "entry status=%x.\n",
			    pkt->entry_type, pkt->entry_status);
			break;
		}
		((response_t *)pkt)->signature = RESPONSE_PROCESSED;
		wmb();
	}

	/* Adjust ring index */
	WRT_REG_WORD(ISP_RSP_Q_OUT(ha, reg), rsp->ring_index);
}

static inline void
qla2x00_handle_sense(srb_t *sp, uint8_t *sense_data, uint32_t par_sense_len,
		     uint32_t sense_len, struct rsp_que *rsp, int res)
{
	struct scsi_qla_host *vha = sp->fcport->vha;
	struct scsi_cmnd *cp = GET_CMD_SP(sp);
	uint32_t track_sense_len;

	if (sense_len >= SCSI_SENSE_BUFFERSIZE)
		sense_len = SCSI_SENSE_BUFFERSIZE;

	SET_CMD_SENSE_LEN(sp, sense_len);
	SET_CMD_SENSE_PTR(sp, cp->sense_buffer);
	track_sense_len = sense_len;

	if (sense_len > par_sense_len)
		sense_len = par_sense_len;

	memcpy(cp->sense_buffer, sense_data, sense_len);

	SET_CMD_SENSE_PTR(sp, cp->sense_buffer + sense_len);
	track_sense_len -= sense_len;
	SET_CMD_SENSE_LEN(sp, track_sense_len);

	if (track_sense_len != 0) {
		rsp->status_srb = sp;
		cp->result = res;
	}

	if (sense_len) {
		ql_dbg(ql_dbg_io + ql_dbg_buffer, vha, 0x301c,
		    "Check condition Sense data, nexus%ld:%d:%llu cmd=%p.\n",
		    sp->fcport->vha->host_no, cp->device->id, cp->device->lun,
		    cp);
		ql_dump_buffer(ql_dbg_io + ql_dbg_buffer, vha, 0x302b,
		    cp->sense_buffer, sense_len);
	}
}

struct scsi_dif_tuple {
	__be16 guard;       /* Checksum */
	__be16 app_tag;         /* APPL identifier */
	__be32 ref_tag;         /* Target LBA or indirect LBA */
};

/*
 * Checks the guard or meta-data for the type of error
 * detected by the HBA. In case of errors, we set the
 * ASC/ASCQ fields in the sense buffer with ILLEGAL_REQUEST
 * to indicate to the kernel that the HBA detected error.
 */
static inline int
qla2x00_handle_dif_error(srb_t *sp, struct sts_entry_24xx *sts24)
{
	struct scsi_qla_host *vha = sp->fcport->vha;
	struct scsi_cmnd *cmd = GET_CMD_SP(sp);
	uint8_t		*ap = &sts24->data[12];
	uint8_t		*ep = &sts24->data[20];
	uint32_t	e_ref_tag, a_ref_tag;
	uint16_t	e_app_tag, a_app_tag;
	uint16_t	e_guard, a_guard;

	/*
	 * swab32 of the "data" field in the beginning of qla2x00_status_entry()
	 * would make guard field appear at offset 2
	 */
	a_guard   = le16_to_cpu(*(uint16_t *)(ap + 2));
	a_app_tag = le16_to_cpu(*(uint16_t *)(ap + 0));
	a_ref_tag = le32_to_cpu(*(uint32_t *)(ap + 4));
	e_guard   = le16_to_cpu(*(uint16_t *)(ep + 2));
	e_app_tag = le16_to_cpu(*(uint16_t *)(ep + 0));
	e_ref_tag = le32_to_cpu(*(uint32_t *)(ep + 4));

	ql_dbg(ql_dbg_io, vha, 0x3023,
	    "iocb(s) %p Returned STATUS.\n", sts24);

	ql_dbg(ql_dbg_io, vha, 0x3024,
	    "DIF ERROR in cmd 0x%x lba 0x%llx act ref"
	    " tag=0x%x, exp ref_tag=0x%x, act app tag=0x%x, exp app"
	    " tag=0x%x, act guard=0x%x, exp guard=0x%x.\n",
	    cmd->cmnd[0], (u64)scsi_get_lba(cmd), a_ref_tag, e_ref_tag,
	    a_app_tag, e_app_tag, a_guard, e_guard);

	/*
	 * Ignore sector if:
	 * For type     3: ref & app tag is all 'f's
	 * For type 0,1,2: app tag is all 'f's
	 */
	if ((a_app_tag == 0xffff) &&
	    ((scsi_get_prot_type(cmd) != SCSI_PROT_DIF_TYPE3) ||
	     (a_ref_tag == 0xffffffff))) {
		uint32_t blocks_done, resid;
		sector_t lba_s = scsi_get_lba(cmd);

		/* 2TB boundary case covered automatically with this */
		blocks_done = e_ref_tag - (uint32_t)lba_s + 1;

		resid = scsi_bufflen(cmd) - (blocks_done *
		    cmd->device->sector_size);

		scsi_set_resid(cmd, resid);
		cmd->result = DID_OK << 16;

		/* Update protection tag */
		if (scsi_prot_sg_count(cmd)) {
			uint32_t i, j = 0, k = 0, num_ent;
			struct scatterlist *sg;
			struct sd_dif_tuple *spt;

			/* Patch the corresponding protection tags */
			scsi_for_each_prot_sg(cmd, sg,
			    scsi_prot_sg_count(cmd), i) {
				num_ent = sg_dma_len(sg) / 8;
				if (k + num_ent < blocks_done) {
					k += num_ent;
					continue;
				}
				j = blocks_done - k - 1;
				k = blocks_done;
				break;
			}

			if (k != blocks_done) {
				ql_log(ql_log_warn, vha, 0x302f,
				    "unexpected tag values tag:lba=%x:%llx)\n",
				    e_ref_tag, (unsigned long long)lba_s);
				return 1;
			}

			spt = page_address(sg_page(sg)) + sg->offset;
			spt += j;

			spt->app_tag = 0xffff;
			if (scsi_get_prot_type(cmd) == SCSI_PROT_DIF_TYPE3)
				spt->ref_tag = 0xffffffff;
		}

		return 0;
	}

	/* check guard */
	if (e_guard != a_guard) {
		scsi_build_sense_buffer(1, cmd->sense_buffer, ILLEGAL_REQUEST,
		    0x10, 0x1);
		set_driver_byte(cmd, DRIVER_SENSE);
		set_host_byte(cmd, DID_ABORT);
		cmd->result |= SAM_STAT_CHECK_CONDITION << 1;
		return 1;
	}

	/* check ref tag */
	if (e_ref_tag != a_ref_tag) {
		scsi_build_sense_buffer(1, cmd->sense_buffer, ILLEGAL_REQUEST,
		    0x10, 0x3);
		set_driver_byte(cmd, DRIVER_SENSE);
		set_host_byte(cmd, DID_ABORT);
		cmd->result |= SAM_STAT_CHECK_CONDITION << 1;
		return 1;
	}

	/* check appl tag */
	if (e_app_tag != a_app_tag) {
		scsi_build_sense_buffer(1, cmd->sense_buffer, ILLEGAL_REQUEST,
		    0x10, 0x2);
		set_driver_byte(cmd, DRIVER_SENSE);
		set_host_byte(cmd, DID_ABORT);
		cmd->result |= SAM_STAT_CHECK_CONDITION << 1;
		return 1;
	}

	return 1;
}

static void
qla25xx_process_bidir_status_iocb(scsi_qla_host_t *vha, void *pkt,
				  struct req_que *req, uint32_t index)
{
	struct qla_hw_data *ha = vha->hw;
	srb_t *sp;
	uint16_t	comp_status;
	uint16_t	scsi_status;
	uint16_t thread_id;
	uint32_t rval = EXT_STATUS_OK;
	struct fc_bsg_job *bsg_job = NULL;
	sts_entry_t *sts;
	struct sts_entry_24xx *sts24;
	sts = (sts_entry_t *) pkt;
	sts24 = (struct sts_entry_24xx *) pkt;

	/* Validate handle. */
	if (index >= req->num_outstanding_cmds) {
		ql_log(ql_log_warn, vha, 0x70af,
		    "Invalid SCSI completion handle 0x%x.\n", index);
		set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		return;
	}

	sp = req->outstanding_cmds[index];
	if (sp) {
		/* Free outstanding command slot. */
		req->outstanding_cmds[index] = NULL;
		bsg_job = sp->u.bsg_job;
	} else {
		ql_log(ql_log_warn, vha, 0x70b0,
		    "Req:%d: Invalid ISP SCSI completion handle(0x%x)\n",
		    req->id, index);

		set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
		return;
	}

	if (IS_FWI2_CAPABLE(ha)) {
		comp_status = le16_to_cpu(sts24->comp_status);
		scsi_status = le16_to_cpu(sts24->scsi_status) & SS_MASK;
	} else {
		comp_status = le16_to_cpu(sts->comp_status);
		scsi_status = le16_to_cpu(sts->scsi_status) & SS_MASK;
	}

	thread_id = bsg_job->request->rqst_data.h_vendor.vendor_cmd[1];
	switch (comp_status) {
	case CS_COMPLETE:
		if (scsi_status == 0) {
			bsg_job->reply->reply_payload_rcv_len =
					bsg_job->reply_payload.payload_len;
			vha->qla_stats.input_bytes +=
				bsg_job->reply->reply_payload_rcv_len;
			vha->qla_stats.input_requests++;
			rval = EXT_STATUS_OK;
		}
		goto done;

	case CS_DATA_OVERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b1,
		    "Command completed with date overrun thread_id=%d\n",
		    thread_id);
		rval = EXT_STATUS_DATA_OVERRUN;
		break;

	case CS_DATA_UNDERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b2,
		    "Command completed with date underrun thread_id=%d\n",
		    thread_id);
		rval = EXT_STATUS_DATA_UNDERRUN;
		break;
	case CS_BIDIR_RD_OVERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b3,
		    "Command completed with read data overrun thread_id=%d\n",
		    thread_id);
		rval = EXT_STATUS_DATA_OVERRUN;
		break;

	case CS_BIDIR_RD_WR_OVERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b4,
		    "Command completed with read and write data overrun "
		    "thread_id=%d\n", thread_id);
		rval = EXT_STATUS_DATA_OVERRUN;
		break;

	case CS_BIDIR_RD_OVERRUN_WR_UNDERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b5,
		    "Command completed with read data over and write data "
		    "underrun thread_id=%d\n", thread_id);
		rval = EXT_STATUS_DATA_OVERRUN;
		break;

	case CS_BIDIR_RD_UNDERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b6,
		    "Command completed with read data data underrun "
		    "thread_id=%d\n", thread_id);
		rval = EXT_STATUS_DATA_UNDERRUN;
		break;

	case CS_BIDIR_RD_UNDERRUN_WR_OVERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b7,
		    "Command completed with read data under and write data "
		    "overrun thread_id=%d\n", thread_id);
		rval = EXT_STATUS_DATA_UNDERRUN;
		break;

	case CS_BIDIR_RD_WR_UNDERRUN:
		ql_dbg(ql_dbg_user, vha, 0x70b8,
		    "Command completed with read and write data underrun "
		    "thread_id=%d\n", thread_id);
		rval = EXT_STATUS_DATA_UNDERRUN;
		break;

	case CS_BIDIR_DMA:
		ql_dbg(ql_dbg_user, vha, 0x70b9,
		    "Command completed with data DMA error thread_id=%d\n",
		    thread_id);
		rval = EXT_STATUS_DMA_ERR;
		break;

	case CS_TIMEOUT:
		ql_dbg(ql_dbg_user, vha, 0x70ba,
		    "Command completed with timeout thread_id=%d\n",
		    thread_id);
		rval = EXT_STATUS_TIMEOUT;
		break;
	default:
		ql_dbg(ql_dbg_user, vha, 0x70bb,
		    "Command completed with completion status=0x%x "
		    "thread_id=%d\n", comp_status, thread_id);
		rval = EXT_STATUS_ERR;
		break;
	}
		bsg_job->reply->reply_payload_rcv_len = 0;

done:
	/* Return the vendor specific reply to API */
	bsg_job->reply->reply_data.vendor_reply.vendor_rsp[0] = rval;
	bsg_job->reply_len = sizeof(struct fc_bsg_reply);
	/* Always return DID_OK, bsg will send the vendor specific response
	 * in this case only */
	sp->done(vha, sp, (DID_OK << 6));

}

/**
 * qla2x00_status_entry() - Process a Status IOCB entry.
 * @ha: SCSI driver HA context
 * @pkt: Entry pointer
 */
static void
qla2x00_status_entry(scsi_qla_host_t *vha, struct rsp_que *rsp, void *pkt)
{
	srb_t		*sp;
	fc_port_t	*fcport;
	struct scsi_cmnd *cp;
	sts_entry_t *sts;
	struct sts_entry_24xx *sts24;
	uint16_t	comp_status;
	uint16_t	scsi_status;
	uint16_t	ox_id;
	uint8_t		lscsi_status;
	int32_t		resid;
	uint32_t sense_len, par_sense_len, rsp_info_len, resid_len,
	    fw_resid_len;
	uint8_t		*rsp_info, *sense_data;
	struct qla_hw_data *ha = vha->hw;
	uint32_t handle;
	uint16_t que;
	struct req_que *req;
	int logit = 1;
	int res = 0;
	uint16_t state_flags = 0;
	uint16_t retry_delay = 0;

	sts = (sts_entry_t *) pkt;
	sts24 = (struct sts_entry_24xx *) pkt;
	if (IS_FWI2_CAPABLE(ha)) {
		comp_status = le16_to_cpu(sts24->comp_status);
		scsi_status = le16_to_cpu(sts24->scsi_status) & SS_MASK;
		state_flags = le16_to_cpu(sts24->state_flags);
	} else {
		comp_status = le16_to_cpu(sts->comp_status);
		scsi_status = le16_to_cpu(sts->scsi_status) & SS_MASK;
	}
	handle = (uint32_t) LSW(sts->handle);
	que = MSW(sts->handle);
	req = ha->req_q_map[que];

	/* Check for invalid queue pointer */
	if (req == NULL ||
	    que >= find_first_zero_bit(ha->req_qid_map, ha->max_req_queues)) {
		ql_dbg(ql_dbg_io, vha, 0x3059,
		    "Invalid status handle (0x%x): Bad req pointer. req=%p, "
		    "que=%u.\n", sts->handle, req, que);
		return;
	}

	/* Validate handle. */
	if (handle < req->num_outstanding_cmds)
		sp = req->outstanding_cmds[handle];
	else
		sp = NULL;

	if (sp == NULL) {
		ql_dbg(ql_dbg_io, vha, 0x3017,
		    "Invalid status handle (0x%x).\n", sts->handle);

		if (!test_bit(ABORT_ISP_ACTIVE, &vha->dpc_flags)) {
			if (IS_P3P_TYPE(ha))
				set_bit(FCOE_CTX_RESET_NEEDED, &vha->dpc_flags);
			else
				set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			qla2xxx_wake_dpc(vha);
		}
		return;
	}

	if (unlikely((state_flags & BIT_1) && (sp->type == SRB_BIDI_CMD))) {
		qla25xx_process_bidir_status_iocb(vha, pkt, req, handle);
		return;
	}

	/* Task Management completion. */
	if (sp->type == SRB_TM_CMD) {
		qla24xx_tm_iocb_entry(vha, req, pkt);
		return;
	}

	/* Fast path completion. */
	if (comp_status == CS_COMPLETE && scsi_status == 0) {
		qla2x00_process_completed_request(vha, req, handle);

		return;
	}

	req->outstanding_cmds[handle] = NULL;
	cp = GET_CMD_SP(sp);
	if (cp == NULL) {
		ql_dbg(ql_dbg_io, vha, 0x3018,
		    "Command already returned (0x%x/%p).\n",
		    sts->handle, sp);

		return;
	}

	lscsi_status = scsi_status & STATUS_MASK;

	fcport = sp->fcport;

	ox_id = 0;
	sense_len = par_sense_len = rsp_info_len = resid_len =
	    fw_resid_len = 0;
	if (IS_FWI2_CAPABLE(ha)) {
		if (scsi_status & SS_SENSE_LEN_VALID)
			sense_len = le32_to_cpu(sts24->sense_len);
		if (scsi_status & SS_RESPONSE_INFO_LEN_VALID)
			rsp_info_len = le32_to_cpu(sts24->rsp_data_len);
		if (scsi_status & (SS_RESIDUAL_UNDER | SS_RESIDUAL_OVER))
			resid_len = le32_to_cpu(sts24->rsp_residual_count);
		if (comp_status == CS_DATA_UNDERRUN)
			fw_resid_len = le32_to_cpu(sts24->residual_len);
		rsp_info = sts24->data;
		sense_data = sts24->data;
		host_to_fcp_swap(sts24->data, sizeof(sts24->data));
		ox_id = le16_to_cpu(sts24->ox_id);
		par_sense_len = sizeof(sts24->data);
		/* Valid values of the retry delay timer are 0x1-0xffef */
		if (sts24->retry_delay > 0 && sts24->retry_delay < 0xfff1)
			retry_delay = sts24->retry_delay;
	} else {
		if (scsi_status & SS_SENSE_LEN_VALID)
			sense_len = le16_to_cpu(sts->req_sense_length);
		if (scsi_status & SS_RESPONSE_INFO_LEN_VALID)
			rsp_info_len = le16_to_cpu(sts->rsp_info_len);
		resid_len = le32_to_cpu(sts->residual_length);
		rsp_info = sts->rsp_info;
		sense_data = sts->req_sense_data;
		par_sense_len = sizeof(sts->req_sense_data);
	}

	/* Check for any FCP transport errors. */
	if (scsi_status & SS_RESPONSE_INFO_LEN_VALID) {
		/* Sense data lies beyond any FCP RESPONSE data. */
		if (IS_FWI2_CAPABLE(ha)) {
			sense_data += rsp_info_len;
			par_sense_len -= rsp_info_len;
		}
		if (rsp_info_len > 3 && rsp_info[3]) {
			ql_dbg(ql_dbg_io, fcport->vha, 0x3019,
			    "FCP I/O protocol failure (0x%x/0x%x).\n",
			    rsp_info_len, rsp_info[3]);

			res = DID_BUS_BUSY << 16;
			goto out;
		}
	}

	/* Check for overrun. */
	if (IS_FWI2_CAPABLE(ha) && comp_status == CS_COMPLETE &&
	    scsi_status & SS_RESIDUAL_OVER)
		comp_status = CS_DATA_OVERRUN;

	/*
	 * Check retry_delay_timer value if we receive a busy or
	 * queue full.
	 */
	if (lscsi_status == SAM_STAT_TASK_SET_FULL ||
	    lscsi_status == SAM_STAT_BUSY)
		qla2x00_set_retry_delay_timestamp(fcport, retry_delay);

	/*
	 * Based on Host and scsi status generate status code for Linux
	 */
	switch (comp_status) {
	case CS_COMPLETE:
	case CS_QUEUE_FULL:
		if (scsi_status == 0) {
			res = DID_OK << 16;
			break;
		}
		if (scsi_status & (SS_RESIDUAL_UNDER | SS_RESIDUAL_OVER)) {
			resid = resid_len;
			scsi_set_resid(cp, resid);

			if (!lscsi_status &&
			    ((unsigned)(scsi_bufflen(cp) - resid) <
			     cp->underflow)) {
				ql_dbg(ql_dbg_io, fcport->vha, 0x301a,
				    "Mid-layer underflow "
				    "detected (0x%x of 0x%x bytes).\n",
				    resid, scsi_bufflen(cp));

				res = DID_ERROR << 16;
				break;
			}
		}
		res = DID_OK << 16 | lscsi_status;

		if (lscsi_status == SAM_STAT_TASK_SET_FULL) {
			ql_dbg(ql_dbg_io, fcport->vha, 0x301b,
			    "QUEUE FULL detected.\n");
			break;
		}
		logit = 0;
		if (lscsi_status != SS_CHECK_CONDITION)
			break;

		memset(cp->sense_buffer, 0, SCSI_SENSE_BUFFERSIZE);
		if (!(scsi_status & SS_SENSE_LEN_VALID))
			break;

		qla2x00_handle_sense(sp, sense_data, par_sense_len, sense_len,
		    rsp, res);
		break;

	case CS_DATA_UNDERRUN:
		/* Use F/W calculated residual length. */
		resid = IS_FWI2_CAPABLE(ha) ? fw_resid_len : resid_len;
		scsi_set_resid(cp, resid);
		if (scsi_status & SS_RESIDUAL_UNDER) {
			if (IS_FWI2_CAPABLE(ha) && fw_resid_len != resid_len) {
				ql_dbg(ql_dbg_io, fcport->vha, 0x301d,
				    "Dropped frame(s) detected "
				    "(0x%x of 0x%x bytes).\n",
				    resid, scsi_bufflen(cp));

				res = DID_ERROR << 16 | lscsi_status;
				goto check_scsi_status;
			}

			if (!lscsi_status &&
			    ((unsigned)(scsi_bufflen(cp) - resid) <
			    cp->underflow)) {
				ql_dbg(ql_dbg_io, fcport->vha, 0x301e,
				    "Mid-layer underflow "
				    "detected (0x%x of 0x%x bytes).\n",
				    resid, scsi_bufflen(cp));

				res = DID_ERROR << 16;
				break;
			}
		} else if (lscsi_status != SAM_STAT_TASK_SET_FULL &&
			    lscsi_status != SAM_STAT_BUSY) {
			/*
			 * scsi status of task set and busy are considered to be
			 * task not completed.
			 */

			ql_dbg(ql_dbg_io, fcport->vha, 0x301f,
			    "Dropped frame(s) detected (0x%x "
			    "of 0x%x bytes).\n", resid,
			    scsi_bufflen(cp));

			res = DID_ERROR << 16 | lscsi_status;
			goto check_scsi_status;
		} else {
			ql_dbg(ql_dbg_io, fcport->vha, 0x3030,
			    "scsi_status: 0x%x, lscsi_status: 0x%x\n",
			    scsi_status, lscsi_status);
		}

		res = DID_OK << 16 | lscsi_status;
		logit = 0;

check_scsi_status:
		/*
		 * Check to see if SCSI Status is non zero. If so report SCSI
		 * Status.
		 */
		if (lscsi_status != 0) {
			if (lscsi_status == SAM_STAT_TASK_SET_FULL) {
				ql_dbg(ql_dbg_io, fcport->vha, 0x3020,
				    "QUEUE FULL detected.\n");
				logit = 1;
				break;
			}
			if (lscsi_status != SS_CHECK_CONDITION)
				break;

			memset(cp->sense_buffer, 0, SCSI_SENSE_BUFFERSIZE);
			if (!(scsi_status & SS_SENSE_LEN_VALID))
				break;

			qla2x00_handle_sense(sp, sense_data, par_sense_len,
			    sense_len, rsp, res);
		}
		break;

	case CS_PORT_LOGGED_OUT:
	case CS_PORT_CONFIG_CHG:
	case CS_PORT_BUSY:
	case CS_INCOMPLETE:
	case CS_PORT_UNAVAILABLE:
	case CS_TIMEOUT:
	case CS_RESET:

		/*
		 * We are going to have the fc class block the rport
		 * while we try to recover so instruct the mid layer
		 * to requeue until the class decides how to handle this.
		 */
		res = DID_TRANSPORT_DISRUPTED << 16;

		if (comp_status == CS_TIMEOUT) {
			if (IS_FWI2_CAPABLE(ha))
				break;
			else if ((le16_to_cpu(sts->status_flags) &
			    SF_LOGOUT_SENT) == 0)
				break;
		}

		ql_dbg(ql_dbg_io, fcport->vha, 0x3021,
		    "Port to be marked lost on fcport=%02x%02x%02x, current "
		    "port state= %s.\n", fcport->d_id.b.domain,
		    fcport->d_id.b.area, fcport->d_id.b.al_pa,
		    port_state_str[atomic_read(&fcport->state)]);

		if (atomic_read(&fcport->state) == FCS_ONLINE)
			qla2x00_mark_device_lost(fcport->vha, fcport, 1, 1);
		break;

	case CS_ABORTED:
		res = DID_RESET << 16;
		break;

	case CS_DIF_ERROR:
		logit = qla2x00_handle_dif_error(sp, sts24);
		res = cp->result;
		break;

	case CS_TRANSPORT:
		res = DID_ERROR << 16;

		if (!IS_PI_SPLIT_DET_CAPABLE(ha))
			break;

		if (state_flags & BIT_4)
			scmd_printk(KERN_WARNING, cp,
			    "Unsupported device '%s' found.\n",
			    cp->device->vendor);
		break;

	default:
		res = DID_ERROR << 16;
		break;
	}

out:
	if (logit)
		ql_dbg(ql_dbg_io, fcport->vha, 0x3022,
		    "FCP command status: 0x%x-0x%x (0x%x) nexus=%ld:%d:%llu "
		    "portid=%02x%02x%02x oxid=0x%x cdb=%10phN len=0x%x "
		    "rsp_info=0x%x resid=0x%x fw_resid=0x%x.\n",
		    comp_status, scsi_status, res, vha->host_no,
		    cp->device->id, cp->device->lun, fcport->d_id.b.domain,
		    fcport->d_id.b.area, fcport->d_id.b.al_pa, ox_id,
		    cp->cmnd, scsi_bufflen(cp), rsp_info_len,
		    resid_len, fw_resid_len);

	if (rsp->status_srb == NULL)
		sp->done(ha, sp, res);
}

/**
 * qla2x00_status_cont_entry() - Process a Status Continuations entry.
 * @ha: SCSI driver HA context
 * @pkt: Entry pointer
 *
 * Extended sense data.
 */
static void
qla2x00_status_cont_entry(struct rsp_que *rsp, sts_cont_entry_t *pkt)
{
	uint8_t	sense_sz = 0;
	struct qla_hw_data *ha = rsp->hw;
	struct scsi_qla_host *vha = pci_get_drvdata(ha->pdev);
	srb_t *sp = rsp->status_srb;
	struct scsi_cmnd *cp;
	uint32_t sense_len;
	uint8_t *sense_ptr;

	if (!sp || !GET_CMD_SENSE_LEN(sp))
		return;

	sense_len = GET_CMD_SENSE_LEN(sp);
	sense_ptr = GET_CMD_SENSE_PTR(sp);

	cp = GET_CMD_SP(sp);
	if (cp == NULL) {
		ql_log(ql_log_warn, vha, 0x3025,
		    "cmd is NULL: already returned to OS (sp=%p).\n", sp);

		rsp->status_srb = NULL;
		return;
	}

	if (sense_len > sizeof(pkt->data))
		sense_sz = sizeof(pkt->data);
	else
		sense_sz = sense_len;

	/* Move sense data. */
	if (IS_FWI2_CAPABLE(ha))
		host_to_fcp_swap(pkt->data, sizeof(pkt->data));
	memcpy(sense_ptr, pkt->data, sense_sz);
	ql_dump_buffer(ql_dbg_io + ql_dbg_buffer, vha, 0x302c,
		sense_ptr, sense_sz);

	sense_len -= sense_sz;
	sense_ptr += sense_sz;

	SET_CMD_SENSE_PTR(sp, sense_ptr);
	SET_CMD_SENSE_LEN(sp, sense_len);

	/* Place command on done queue. */
	if (sense_len == 0) {
		rsp->status_srb = NULL;
		sp->done(ha, sp, cp->result);
	}
}

/**
 * qla2x00_error_entry() - Process an error entry.
 * @ha: SCSI driver HA context
 * @pkt: Entry pointer
 */
static void
qla2x00_error_entry(scsi_qla_host_t *vha, struct rsp_que *rsp, sts_entry_t *pkt)
{
	srb_t *sp;
	struct qla_hw_data *ha = vha->hw;
	const char func[] = "ERROR-IOCB";
	uint16_t que = MSW(pkt->handle);
	struct req_que *req = NULL;
	int res = DID_ERROR << 16;

	ql_dbg(ql_dbg_async, vha, 0x502a,
	    "type of error status in response: 0x%x\n", pkt->entry_status);

	if (que >= ha->max_req_queues || !ha->req_q_map[que])
		goto fatal;

	req = ha->req_q_map[que];

	if (pkt->entry_status & RF_BUSY)
		res = DID_BUS_BUSY << 16;

	sp = qla2x00_get_sp_from_handle(vha, func, req, pkt);
	if (sp) {
		sp->done(ha, sp, res);
		return;
	}
fatal:
	ql_log(ql_log_warn, vha, 0x5030,
	    "Error entry - invalid handle/queue.\n");

	if (IS_P3P_TYPE(ha))
		set_bit(FCOE_CTX_RESET_NEEDED, &vha->dpc_flags);
	else
		set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
	qla2xxx_wake_dpc(vha);
}

/**
 * qla24xx_mbx_completion() - Process mailbox command completions.
 * @ha: SCSI driver HA context
 * @mb0: Mailbox0 register
 */
static void
qla24xx_mbx_completion(scsi_qla_host_t *vha, uint16_t mb0)
{
	uint16_t	cnt;
	uint32_t	mboxes;
	uint16_t __iomem *wptr;
	struct qla_hw_data *ha = vha->hw;
	struct device_reg_24xx __iomem *reg = &ha->iobase->isp24;

	/* Read all mbox registers? */
	mboxes = (1 << ha->mbx_count) - 1;
	if (!ha->mcp)
		ql_dbg(ql_dbg_async, vha, 0x504e, "MBX pointer ERROR.\n");
	else
		mboxes = ha->mcp->in_mb;

	/* Load return mailbox registers. */
	ha->flags.mbox_int = 1;
	ha->mailbox_out[0] = mb0;
	mboxes >>= 1;
	wptr = (uint16_t __iomem *)&reg->mailbox1;

	for (cnt = 1; cnt < ha->mbx_count; cnt++) {
		if (mboxes & BIT_0)
			ha->mailbox_out[cnt] = RD_REG_WORD(wptr);

		mboxes >>= 1;
		wptr++;
	}
}

static void
qla24xx_abort_iocb_entry(scsi_qla_host_t *vha, struct req_que *req,
	struct abort_entry_24xx *pkt)
{
	const char func[] = "ABT_IOCB";
	srb_t *sp;
	struct srb_iocb *abt;

	sp = qla2x00_get_sp_from_handle(vha, func, req, pkt);
	if (!sp)
		return;

	abt = &sp->u.iocb_cmd;
	abt->u.abt.comp_status = le32_to_cpu(pkt->nport_handle);
	sp->done(vha, sp, 0);
}

/**
 * qla24xx_process_response_queue() - Process response queue entries.
 * @ha: SCSI driver HA context
 */
void qla24xx_process_response_queue(struct scsi_qla_host *vha,
	struct rsp_que *rsp)
{
	struct sts_entry_24xx *pkt;
	struct qla_hw_data *ha = vha->hw;

	if (!vha->flags.online)
		return;

	while (rsp->ring_ptr->signature != RESPONSE_PROCESSED) {
		pkt = (struct sts_entry_24xx *)rsp->ring_ptr;

		rsp->ring_index++;
		if (rsp->ring_index == rsp->length) {
			rsp->ring_index = 0;
			rsp->ring_ptr = rsp->ring;
		} else {
			rsp->ring_ptr++;
		}

		if (pkt->entry_status != 0) {
			qla2x00_error_entry(vha, rsp, (sts_entry_t *) pkt);

			if (qlt_24xx_process_response_error(vha, pkt))
				goto process_err;

			((response_t *)pkt)->signature = RESPONSE_PROCESSED;
			wmb();
			continue;
		}
process_err:

		switch (pkt->entry_type) {
		case STATUS_TYPE:
			qla2x00_status_entry(vha, rsp, pkt);
			break;
		case STATUS_CONT_TYPE:
			qla2x00_status_cont_entry(rsp, (sts_cont_entry_t *)pkt);
			break;
		case VP_RPT_ID_IOCB_TYPE:
			qla24xx_report_id_acquisition(vha,
			    (struct vp_rpt_id_entry_24xx *)pkt);
			break;
		case LOGINOUT_PORT_IOCB_TYPE:
			qla24xx_logio_entry(vha, rsp->req,
			    (struct logio_entry_24xx *)pkt);
			break;
		case CT_IOCB_TYPE:
			qla24xx_els_ct_entry(vha, rsp->req, pkt, CT_IOCB_TYPE);
			break;
		case ELS_IOCB_TYPE:
			qla24xx_els_ct_entry(vha, rsp->req, pkt, ELS_IOCB_TYPE);
			break;
		case ABTS_RECV_24XX:
			/* ensure that the ATIO queue is empty */
			qlt_24xx_process_atio_queue(vha);
		case ABTS_RESP_24XX:
		case CTIO_TYPE7:
		case NOTIFY_ACK_TYPE:
		case CTIO_CRC2:
			qlt_response_pkt_all_vps(vha, (response_t *)pkt);
			break;
		case MARKER_TYPE:
			/* Do nothing in this case, this check is to prevent it
			 * from falling into default case
			 */
			break;
		case ABORT_IOCB_TYPE:
			qla24xx_abort_iocb_entry(vha, rsp->req,
			    (struct abort_entry_24xx *)pkt);
			break;
		default:
			/* Type Not Supported. */
			ql_dbg(ql_dbg_async, vha, 0x5042,
			    "Received unknown response pkt type %x "
			    "entry status=%x.\n",
			    pkt->entry_type, pkt->entry_status);
			break;
		}
		((response_t *)pkt)->signature = RESPONSE_PROCESSED;
		wmb();
	}

	/* Adjust ring index */
	if (IS_P3P_TYPE(ha)) {
		struct device_reg_82xx __iomem *reg = &ha->iobase->isp82;
		WRT_REG_DWORD(&reg->rsp_q_out[0], rsp->ring_index);
	} else
		WRT_REG_DWORD(rsp->rsp_q_out, rsp->ring_index);
}

static void
qla2xxx_check_risc_status(scsi_qla_host_t *vha)
{
	int rval;
	uint32_t cnt;
	struct qla_hw_data *ha = vha->hw;
	struct device_reg_24xx __iomem *reg = &ha->iobase->isp24;

	if (!IS_QLA25XX(ha) && !IS_QLA81XX(ha) && !IS_QLA83XX(ha) &&
	    !IS_QLA27XX(ha))
		return;

	rval = QLA_SUCCESS;
	WRT_REG_DWORD(&reg->iobase_addr, 0x7C00);
	RD_REG_DWORD(&reg->iobase_addr);
	WRT_REG_DWORD(&reg->iobase_window, 0x0001);
	for (cnt = 10000; (RD_REG_DWORD(&reg->iobase_window) & BIT_0) == 0 &&
	    rval == QLA_SUCCESS; cnt--) {
		if (cnt) {
			WRT_REG_DWORD(&reg->iobase_window, 0x0001);
			udelay(10);
		} else
			rval = QLA_FUNCTION_TIMEOUT;
	}
	if (rval == QLA_SUCCESS)
		goto next_test;

	rval = QLA_SUCCESS;
	WRT_REG_DWORD(&reg->iobase_window, 0x0003);
	for (cnt = 100; (RD_REG_DWORD(&reg->iobase_window) & BIT_0) == 0 &&
	    rval == QLA_SUCCESS; cnt--) {
		if (cnt) {
			WRT_REG_DWORD(&reg->iobase_window, 0x0003);
			udelay(10);
		} else
			rval = QLA_FUNCTION_TIMEOUT;
	}
	if (rval != QLA_SUCCESS)
		goto done;

next_test:
	if (RD_REG_DWORD(&reg->iobase_c8) & BIT_3)
		ql_log(ql_log_info, vha, 0x504c,
		    "Additional code -- 0x55AA.\n");

done:
	WRT_REG_DWORD(&reg->iobase_window, 0x0000);
	RD_REG_DWORD(&reg->iobase_window);
}

/**
 * qla24xx_intr_handler() - Process interrupts for the ISP23xx and ISP24xx.
 * @irq:
 * @dev_id: SCSI driver HA context
 *
 * Called by system whenever the host adapter generates an interrupt.
 *
 * Returns handled flag.
 */
irqreturn_t
qla24xx_intr_handler(int irq, void *dev_id)
{
	scsi_qla_host_t	*vha;
	struct qla_hw_data *ha;
	struct device_reg_24xx __iomem *reg;
	int		status;
	unsigned long	iter;
	uint32_t	stat;
	uint32_t	hccr;
	uint16_t	mb[8];
	struct rsp_que *rsp;
	unsigned long	flags;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x5059,
		    "%s: NULL response queue pointer.\n", __func__);
		return IRQ_NONE;
	}

	ha = rsp->hw;
	reg = &ha->iobase->isp24;
	status = 0;

	if (unlikely(pci_channel_offline(ha->pdev)))
		return IRQ_HANDLED;

	spin_lock_irqsave(&ha->hardware_lock, flags);
	vha = pci_get_drvdata(ha->pdev);
	for (iter = 50; iter--; ) {
		stat = RD_REG_DWORD(&reg->host_status);
		if (qla2x00_check_reg32_for_disconnect(vha, stat))
			break;
		if (stat & HSRX_RISC_PAUSED) {
			if (unlikely(pci_channel_offline(ha->pdev)))
				break;

			hccr = RD_REG_DWORD(&reg->hccr);

			ql_log(ql_log_warn, vha, 0x504b,
			    "RISC paused -- HCCR=%x, Dumping firmware.\n",
			    hccr);

			qla2xxx_check_risc_status(vha);

			ha->isp_ops->fw_dump(vha, 1);
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			break;
		} else if ((stat & HSRX_RISC_INT) == 0)
			break;

		switch (stat & 0xff) {
		case INTR_ROM_MB_SUCCESS:
		case INTR_ROM_MB_FAILED:
		case INTR_MB_SUCCESS:
		case INTR_MB_FAILED:
			qla24xx_mbx_completion(vha, MSW(stat));
			status |= MBX_INTERRUPT;

			break;
		case INTR_ASYNC_EVENT:
			mb[0] = MSW(stat);
			mb[1] = RD_REG_WORD(&reg->mailbox1);
			mb[2] = RD_REG_WORD(&reg->mailbox2);
			mb[3] = RD_REG_WORD(&reg->mailbox3);
			qla2x00_async_event(vha, rsp, mb);
			break;
		case INTR_RSP_QUE_UPDATE:
		case INTR_RSP_QUE_UPDATE_83XX:
			qla24xx_process_response_queue(vha, rsp);
			break;
		case INTR_ATIO_QUE_UPDATE:
			qlt_24xx_process_atio_queue(vha);
			break;
		case INTR_ATIO_RSP_QUE_UPDATE:
			qlt_24xx_process_atio_queue(vha);
			qla24xx_process_response_queue(vha, rsp);
			break;
		default:
			ql_dbg(ql_dbg_async, vha, 0x504f,
			    "Unrecognized interrupt type (%d).\n", stat * 0xff);
			break;
		}
		WRT_REG_DWORD(&reg->hccr, HCCRX_CLR_RISC_INT);
		RD_REG_DWORD_RELAXED(&reg->hccr);
		if (unlikely(IS_QLA83XX(ha) && (ha->pdev->revision == 1)))
			ndelay(3500);
	}
	qla2x00_handle_mbx_completion(ha, status);
	spin_unlock_irqrestore(&ha->hardware_lock, flags);

	return IRQ_HANDLED;
}

static irqreturn_t
qla24xx_msix_rsp_q(int irq, void *dev_id)
{
	struct qla_hw_data *ha;
	struct rsp_que *rsp;
	struct device_reg_24xx __iomem *reg;
	struct scsi_qla_host *vha;
	unsigned long flags;
	uint32_t stat = 0;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x505a,
		    "%s: NULL response queue pointer.\n", __func__);
		return IRQ_NONE;
	}
	ha = rsp->hw;
	reg = &ha->iobase->isp24;

	spin_lock_irqsave(&ha->hardware_lock, flags);

	vha = pci_get_drvdata(ha->pdev);
	/*
	 * Use host_status register to check to PCI disconnection before we
	 * we process the response queue.
	 */
	stat = RD_REG_DWORD(&reg->host_status);
	if (qla2x00_check_reg32_for_disconnect(vha, stat))
		goto out;
	qla24xx_process_response_queue(vha, rsp);
	if (!ha->flags.disable_msix_handshake) {
		WRT_REG_DWORD(&reg->hccr, HCCRX_CLR_RISC_INT);
		RD_REG_DWORD_RELAXED(&reg->hccr);
	}
out:
	spin_unlock_irqrestore(&ha->hardware_lock, flags);

	return IRQ_HANDLED;
}

static irqreturn_t
qla25xx_msix_rsp_q(int irq, void *dev_id)
{
	struct qla_hw_data *ha;
	scsi_qla_host_t *vha;
	struct rsp_que *rsp;
	struct device_reg_24xx __iomem *reg;
	unsigned long flags;
	uint32_t hccr = 0;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x505b,
		    "%s: NULL response queue pointer.\n", __func__);
		return IRQ_NONE;
	}
	ha = rsp->hw;
	vha = pci_get_drvdata(ha->pdev);

	/* Clear the interrupt, if enabled, for this response queue */
	if (!ha->flags.disable_msix_handshake) {
		reg = &ha->iobase->isp24;
		spin_lock_irqsave(&ha->hardware_lock, flags);
		WRT_REG_DWORD(&reg->hccr, HCCRX_CLR_RISC_INT);
		hccr = RD_REG_DWORD_RELAXED(&reg->hccr);
		spin_unlock_irqrestore(&ha->hardware_lock, flags);
	}
	if (qla2x00_check_reg32_for_disconnect(vha, hccr))
		goto out;
	queue_work_on((int) (rsp->id - 1), ha->wq, &rsp->q_work);

out:
	return IRQ_HANDLED;
}

static irqreturn_t
qla24xx_msix_default(int irq, void *dev_id)
{
	scsi_qla_host_t	*vha;
	struct qla_hw_data *ha;
	struct rsp_que *rsp;
	struct device_reg_24xx __iomem *reg;
	int		status;
	uint32_t	stat;
	uint32_t	hccr;
	uint16_t	mb[8];
	unsigned long flags;

	rsp = (struct rsp_que *) dev_id;
	if (!rsp) {
		ql_log(ql_log_info, NULL, 0x505c,
		    "%s: NULL response queue pointer.\n", __func__);
		return IRQ_NONE;
	}
	ha = rsp->hw;
	reg = &ha->iobase->isp24;
	status = 0;

	spin_lock_irqsave(&ha->hardware_lock, flags);
	vha = pci_get_drvdata(ha->pdev);
	do {
		stat = RD_REG_DWORD(&reg->host_status);
		if (qla2x00_check_reg32_for_disconnect(vha, stat))
			break;
		if (stat & HSRX_RISC_PAUSED) {
			if (unlikely(pci_channel_offline(ha->pdev)))
				break;

			hccr = RD_REG_DWORD(&reg->hccr);

			ql_log(ql_log_info, vha, 0x5050,
			    "RISC paused -- HCCR=%x, Dumping firmware.\n",
			    hccr);

			qla2xxx_check_risc_status(vha);

			ha->isp_ops->fw_dump(vha, 1);
			set_bit(ISP_ABORT_NEEDED, &vha->dpc_flags);
			break;
		} else if ((stat & HSRX_RISC_INT) == 0)
			break;

		switch (stat & 0xff) {
		case INTR_ROM_MB_SUCCESS:
		case INTR_ROM_MB_FAILED:
		case INTR_MB_SUCCESS:
		case INTR_MB_FAILED:
			qla24xx_mbx_completion(vha, MSW(stat));
			status |= MBX_INTERRUPT;

			break;
		case INTR_ASYNC_EVENT:
			mb[0] = MSW(stat);
			mb[1] = RD_REG_WORD(&reg->mailbox1);
			mb[2] = RD_REG_WORD(&reg->mailbox2);
			mb[3] = RD_REG_WORD(&reg->mailbox3);
			qla2x00_async_event(vha, rsp, mb);
			break;
		case INTR_RSP_QUE_UPDATE:
		case INTR_RSP_QUE_UPDATE_83XX:
			qla24xx_process_response_queue(vha, rsp);
			break;
		case INTR_ATIO_QUE_UPDATE:
			qlt_24xx_process_atio_queue(vha);
			break;
		case INTR_ATIO_RSP_QUE_UPDATE:
			qlt_24xx_process_atio_queue(vha);
			qla24xx_process_response_queue(vha, rsp);
			break;
		default:
			ql_dbg(ql_dbg_async, vha, 0x5051,
			    "Unrecognized interrupt type (%d).\n", stat & 0xff);
			break;
		}
		WRT_REG_DWORD(&reg->hccr, HCCRX_CLR_RISC_INT);
	} while (0);
	qla2x00_handle_mbx_completion(ha, status);
	spin_unlock_irqrestore(&ha->hardware_lock, flags);

	return IRQ_HANDLED;
}

/* Interrupt handling helpers. */

struct qla_init_msix_entry {
	const char *name;
	irq_handler_t handler;
};

static struct qla_init_msix_entry msix_entries[3] = {
	{ "qla2xxx (default)", qla24xx_msix_default },
	{ "qla2xxx (rsp_q)", qla24xx_msix_rsp_q },
	{ "qla2xxx (multiq)", qla25xx_msix_rsp_q },
};

static struct qla_init_msix_entry qla82xx_msix_entries[2] = {
	{ "qla2xxx (default)", qla82xx_msix_default },
	{ "qla2xxx (rsp_q)", qla82xx_msix_rsp_q },
};

static struct qla_init_msix_entry qla83xx_msix_entries[3] = {
	{ "qla2xxx (default)", qla24xx_msix_default },
	{ "qla2xxx (rsp_q)", qla24xx_msix_rsp_q },
	{ "qla2xxx (atio_q)", qla83xx_msix_atio_q },
};

static void
qla24xx_disable_msix(struct qla_hw_data *ha)
{
	int i;
	struct qla_msix_entry *qentry;
	scsi_qla_host_t *vha = pci_get_drvdata(ha->pdev);

	for (i = 0; i < ha->msix_count; i++) {
		qentry = &ha->msix_entries[i];
		if (qentry->have_irq)
			free_irq(qentry->vector, qentry->rsp);
	}
	pci_disable_msix(ha->pdev);
	kfree(ha->msix_entries);
	ha->msix_entries = NULL;
	ha->flags.msix_enabled = 0;
	ql_dbg(ql_dbg_init, vha, 0x0042,
	    "Disabled the MSI.\n");
}

static int
qla24xx_enable_msix(struct qla_hw_data *ha, struct rsp_que *rsp)
{
#define MIN_MSIX_COUNT	2
#define ATIO_VECTOR	2
	int i, ret;
	struct msix_entry *entries;
	struct qla_msix_entry *qentry;
	scsi_qla_host_t *vha = pci_get_drvdata(ha->pdev);

	entries = kzalloc(sizeof(struct msix_entry) * ha->msix_count,
			GFP_KERNEL);
	if (!entries) {
		ql_log(ql_log_warn, vha, 0x00bc,
		    "Failed to allocate memory for msix_entry.\n");
		return -ENOMEM;
	}

	for (i = 0; i < ha->msix_count; i++)
		entries[i].entry = i;

	ret = pci_enable_msix_range(ha->pdev,
				    entries, MIN_MSIX_COUNT, ha->msix_count);
	if (ret < 0) {
		ql_log(ql_log_fatal, vha, 0x00c7,
		    "MSI-X: Failed to enable support, "
		    "giving   up -- %d/%d.\n",
		    ha->msix_count, ret);
		goto msix_out;
	} else if (ret < ha->msix_count) {
		ql_log(ql_log_warn, vha, 0x00c6,
		    "MSI-X: Failed to enable support "
		    "-- %d/%d\n Retry with %d vectors.\n",
		    ha->msix_count, ret, ret);
	}
	ha->msix_count = ret;
	ha->max_rsp_queues = ha->msix_count - 1;
	ha->msix_entries = kzalloc(sizeof(struct qla_msix_entry) *
				ha->msix_count, GFP_KERNEL);
	if (!ha->msix_entries) {
		ql_log(ql_log_fatal, vha, 0x00c8,
		    "Failed to allocate memory for ha->msix_entries.\n");
		ret = -ENOMEM;
		goto msix_out;
	}
	ha->flags.msix_enabled = 1;

	for (i = 0; i < ha->msix_count; i++) {
		qentry = &ha->msix_entries[i];
		qentry->vector = entries[i].vector;
		qentry->entry = entries[i].entry;
		qentry->have_irq = 0;
		qentry->rsp = NULL;
	}

	/* Enable MSI-X vectors for the base queue */
	for (i = 0; i < 2; i++) {
		qentry = &ha->msix_entries[i];
		if (IS_P3P_TYPE(ha))
			ret = request_irq(qentry->vector,
				qla82xx_msix_entries[i].handler,
				0, qla82xx_msix_entries[i].name, rsp);
		else
			ret = request_irq(qentry->vector,
				msix_entries[i].handler,
				0, msix_entries[i].name, rsp);
		if (ret)
			goto msix_register_fail;
		qentry->have_irq = 1;
		qentry->rsp = rsp;
		rsp->msix = qentry;
	}

	/*
	 * If target mode is enable, also request the vector for the ATIO
	 * queue.
	 */
	if (QLA_TGT_MODE_ENABLED() && IS_ATIO_MSIX_CAPABLE(ha)) {
		qentry = &ha->msix_entries[ATIO_VECTOR];
		ret = request_irq(qentry->vector,
			qla83xx_msix_entries[ATIO_VECTOR].handler,
			0, qla83xx_msix_entries[ATIO_VECTOR].name, rsp);
		qentry->have_irq = 1;
		qentry->rsp = rsp;
		rsp->msix = qentry;
	}

msix_register_fail:
	if (ret) {
		ql_log(ql_log_fatal, vha, 0x00cb,
		    "MSI-X: unable to register handler -- %x/%d.\n",
		    qentry->vector, ret);
		qla24xx_disable_msix(ha);
		ha->mqenable = 0;
		goto msix_out;
	}

	/* Enable MSI-X vector for response queue update for queue 0 */
	if (IS_QLA83XX(ha) || IS_QLA27XX(ha)) {
		if (ha->msixbase && ha->mqiobase &&
		    (ha->max_rsp_queues > 1 || ha->max_req_queues > 1))
			ha->mqenable = 1;
	} else
		if (ha->mqiobase
		    && (ha->max_rsp_queues > 1 || ha->max_req_queues > 1))
			ha->mqenable = 1;
	ql_dbg(ql_dbg_multiq, vha, 0xc005,
	    "mqiobase=%p, max_rsp_queues=%d, max_req_queues=%d.\n",
	    ha->mqiobase, ha->max_rsp_queues, ha->max_req_queues);
	ql_dbg(ql_dbg_init, vha, 0x0055,
	    "mqiobase=%p, max_rsp_queues=%d, max_req_queues=%d.\n",
	    ha->mqiobase, ha->max_rsp_queues, ha->max_req_queues);

msix_out:
	kfree(entries);
	return ret;
}

int
qla2x00_request_irqs(struct qla_hw_data *ha, struct rsp_que *rsp)
{
	int ret = QLA_FUNCTION_FAILED;
	device_reg_t *reg = ha->iobase;
	scsi_qla_host_t *vha = pci_get_drvdata(ha->pdev);

	/* If possible, enable MSI-X. */
	if (!IS_QLA2432(ha) && !IS_QLA2532(ha) && !IS_QLA8432(ha) &&
	    !IS_CNA_CAPABLE(ha) && !IS_QLA2031(ha) && !IS_QLAFX00(ha) &&
	    !IS_QLA27XX(ha))
		goto skip_msi;

	if (ha->pdev->subsystem_vendor == PCI_VENDOR_ID_HP &&
		(ha->pdev->subsystem_device == 0x7040 ||
		ha->pdev->subsystem_device == 0x7041 ||
		ha->pdev->subsystem_device == 0x1705)) {
		ql_log(ql_log_warn, vha, 0x0034,
		    "MSI-X: Unsupported ISP 2432 SSVID/SSDID (0x%X,0x%X).\n",
			ha->pdev->subsystem_vendor,
			ha->pdev->subsystem_device);
		goto skip_msi;
	}

	if (IS_QLA2432(ha) && (ha->pdev->revision < QLA_MSIX_CHIP_REV_24XX)) {
		ql_log(ql_log_warn, vha, 0x0035,
		    "MSI-X; Unsupported ISP2432 (0x%X, 0x%X).\n",
		    ha->pdev->revision, QLA_MSIX_CHIP_REV_24XX);
		goto skip_msix;
	}

	ret = qla24xx_enable_msix(ha, rsp);
	if (!ret) {
		ql_dbg(ql_dbg_init, vha, 0x0036,
		    "MSI-X: Enabled (0x%X, 0x%X).\n",
		    ha->chip_revision, ha->fw_attributes);
		goto clear_risc_ints;
	}

skip_msix:

	ql_log(ql_log_info, vha, 0x0037,
	    "Falling back-to MSI mode -%d.\n", ret);

	if (!IS_QLA24XX(ha) && !IS_QLA2532(ha) && !IS_QLA8432(ha) &&
	    !IS_QLA8001(ha) && !IS_P3P_TYPE(ha) && !IS_QLAFX00(ha) &&
	    !IS_QLA27XX(ha))
		goto skip_msi;

	ret = pci_enable_msi(ha->pdev);
	if (!ret) {
		ql_dbg(ql_dbg_init, vha, 0x0038,
		    "MSI: Enabled.\n");
		ha->flags.msi_enabled = 1;
	} else
		ql_log(ql_log_warn, vha, 0x0039,
		    "Falling back-to INTa mode -- %d.\n", ret);
skip_msi:

	/* Skip INTx on ISP82xx. */
	if (!ha->flags.msi_enabled && IS_QLA82XX(ha))
		return QLA_FUNCTION_FAILED;

	ret = request_irq(ha->pdev->irq, ha->isp_ops->intr_handler,
	    ha->flags.msi_enabled ? 0 : IRQF_SHARED,
	    QLA2XXX_DRIVER_NAME, rsp);
	if (ret) {
		ql_log(ql_log_warn, vha, 0x003a,
		    "Failed to reserve interrupt %d already in use.\n",
		    ha->pdev->irq);
		goto fail;
	} else if (!ha->flags.msi_enabled) {
		ql_dbg(ql_dbg_init, vha, 0x0125,
		    "INTa mode: Enabled.\n");
		ha->flags.mr_intr_valid = 1;
	}

clear_risc_ints:
	if (IS_FWI2_CAPABLE(ha) || IS_QLAFX00(ha))
		goto fail;

	spin_lock_irq(&ha->hardware_lock);
	WRT_REG_WORD(&reg->isp.semaphore, 0);
	spin_unlock_irq(&ha->hardware_lock);

fail:
	return ret;
}

void
qla2x00_free_irqs(scsi_qla_host_t *vha)
{
	struct qla_hw_data *ha = vha->hw;
	struct rsp_que *rsp;

	/*
	 * We need to check that ha->rsp_q_map is valid in case we are called
	 * from a probe failure context.
	 */
	if (!ha->rsp_q_map || !ha->rsp_q_map[0])
		return;
	rsp = ha->rsp_q_map[0];

	if (ha->flags.msix_enabled)
		qla24xx_disable_msix(ha);
	else if (ha->flags.msi_enabled) {
		free_irq(ha->pdev->irq, rsp);
		pci_disable_msi(ha->pdev);
	} else
		free_irq(ha->pdev->irq, rsp);
}


int qla25xx_request_irq(struct rsp_que *rsp)
{
	struct qla_hw_data *ha = rsp->hw;
	struct qla_init_msix_entry *intr = &msix_entries[2];
	struct qla_msix_entry *msix = rsp->msix;
	scsi_qla_host_t *vha = pci_get_drvdata(ha->pdev);
	int ret;

	ret = request_irq(msix->vector, intr->handler, 0, intr->name, rsp);
	if (ret) {
		ql_log(ql_log_fatal, vha, 0x00e6,
		    "MSI-X: Unable to register handler -- %x/%d.\n",
		    msix->vector, ret);
		return ret;
	}
	msix->have_irq = 1;
	msix->rsp = rsp;
	return ret;
}
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