src/hw/mpt-scsi.c - seabios - Git at Google

 // MPT Fusion boot support.
 //
 // Copyright (c) 2012 Verizon, Inc.
 // Copyright (C) 2016 Paolo Bonzini <pbonzini@redhat.com>
 //
 // This file may be distributed under the terms of the GNU LGPLv3 license.

 #include "biosvar.h" // GET_GLOBALFLAT
 #include "block.h" // struct drive_s
 #include "blockcmd.h" // scsi_drive_setup
 #include "config.h" // CONFIG_*
 #include "fw/paravirt.h" // runningOnQEMU
 #include "malloc.h" // free
 #include "output.h" // dprintf
 #include "pcidevice.h" // foreachpci
 #include "pci_ids.h" // PCI_DEVICE_ID
 #include "pci_regs.h" // PCI_VENDOR_ID
 #include "stacks.h" // run_thread
 #include "std/disk.h" // DISK_RET_SUCCESS
 #include "string.h" // memset
 #include "util.h" // usleep

 #define MPT_REG_DOORBELL  0x00
 #define MPT_REG_WRITE_SEQ 0x04
 #define MPT_REG_HOST_DIAG 0x08
 #define MPT_REG_TEST      0x0c
 #define MPT_REG_DIAG_DATA 0x10
 #define MPT_REG_DIAG_ADDR 0x14
 #define MPT_REG_ISTATUS   0x30
 #define MPT_REG_IMASK     0x34
 #define MPT_REG_REQ_Q     0x40
 #define MPT_REG_REP_Q     0x44

 #define MPT_DOORBELL_MSG_RESET 0x40
 #define MPT_DOORBELL_HANDSHAKE 0x42

 #define MPT_IMASK_DOORBELL 0x01
 #define MPT_IMASK_REPLY    0x08

 struct mpt_lun_s {
     struct drive_s drive;
     struct pci_device *pci;
     u32 iobase;
     u8 target;
     u8 lun;
 };

 u8 reply_msg[4] __attribute((aligned(4))) VARLOW;

 #define MPT_MESSAGE_HDR_FUNCTION_SCSI_IO_REQUEST        (0x00)
 #define MPT_MESSAGE_HDR_FUNCTION_IOC_INIT               (0x02)

 static struct MptIOCInitRequest
 {
     u8     WhoInit;             /* Which system sent this init request. */
     u8     Reserved1;           /* Reserved */
     u8     ChainOffset;         /* Chain offset in the SG list. */
     u8     Function;            /* Function to execute. */
     u8     Flags;               /* Flags */
     u8     MaxDevices;          /* Max devices the driver can handle. */
     u8     MaxBuses;            /* Max buses the driver can handle. */
     u8     MessageFlags;        /* Message flags. */
     u32    MessageContext;      /* Message context ID. */
     u16    ReplyFrameSize;      /* Reply frame size. */
     u16    Reserved2;           /* Reserved */
     u32    HostMfaHighAddr;     /* Upper 32bit of the message frames. */
     u32    SenseBufferHighAddr; /* Upper 32bit of the sense buffer. */
 } MptIOCInitRequest = {
     .WhoInit = 2,
     .Function = MPT_MESSAGE_HDR_FUNCTION_IOC_INIT,
     .MaxDevices = 8,
     .MaxBuses = 1,
     .ReplyFrameSize = sizeof(reply_msg),
     .HostMfaHighAddr = 0,
     .SenseBufferHighAddr = 0
 };

 struct MptIOCInitReply {
     u8     WhoInit;     /* Which subsystem sent this init request. */
     u8     Reserved1;   /* Reserved */
     u8     MessageLength; /* Message length */
     u8     Function;    /* Function. */
     u8     Flags;       /* Flags */
     u8     MaxDevices;  /* Maximum number of devices the driver can handle. */
     u8     MaxBuses;    /* Maximum number of busses the driver can handle. */
     u8     MessageFlags; /* Message flags. */
     u32    MessageContext; /* Message context ID */
     u16    Reserved2;   /* Reserved */
     u16    IOCStatus;   /* IO controller status. */
     u32    IOCLogInfo;  /* IO controller log information. */
 };

 typedef struct MptSCSIIORequest {
     u8     TargetID;            /* Target ID */
     u8     Bus;                 /* Bus number */
     u8     ChainOffset;         /* Chain offset */
     u8     Function;            /* Function number. */
     u8     CDBLength;           /* CDB length. */
     u8     SenseBufferLength;   /* Sense buffer length. */
     u8     Reserved;            /* Reserved */
     u8     MessageFlags;        /* Message flags. */
     u32    MessageContext;      /* Message context ID. */
     u8     LUN[8];              /* LUN */
     u32    Control;             /* Control values. */
     u8     CDB[16];             /* The CDB. */
     u32    DataLength;          /* Data length. */
     u32    SenseBufferLowAddr;  /* Sense buffer low 32bit address. */
 } __attribute__((packed)) MptSCSIIORequest_t;

 #define MPT_POLL_TIMEOUT  60000

 typedef struct MptSGEntrySimple32 {
     u32 FlagsLength;
     u32 DataBufferAddressLow;
 } __attribute__((packed)) MptSGEntrySimple32_t;

 static int
 mpt_scsi_cmd(u32 iobase, struct disk_op_s *op,
              u8 *cdb, u16 target, u16 lun, u16 blocksize)
 {
     u32 end = timer_calc(MPT_POLL_TIMEOUT);

     u8 sense_buf[18];
     struct scsi_req {
         MptSCSIIORequest_t      scsi_io;
         MptSGEntrySimple32_t    sge;
     } __attribute__((packed, aligned(4))) req = {
         .scsi_io = {
             .TargetID = target,
             .Bus = 0,
             .Function = MPT_MESSAGE_HDR_FUNCTION_SCSI_IO_REQUEST,
             .CDBLength = 16,
             .SenseBufferLength = 18,
             .MessageContext = end & 0x7fffffff,
             .DataLength = op->count * blocksize,
             .SenseBufferLowAddr = (u32)MAKE_FLATPTR(GET_SEG(SS), &sense_buf[0]),
         },
         .sge = {
             /* end of list, simple entry, end of buffer, last element */
             .FlagsLength = (op->count * blocksize) | 0xD1000000,
             .DataBufferAddressLow = (u32)op->buf_fl,
         }
     };

     req.scsi_io.LUN[1] = lun;
     memcpy(req.scsi_io.CDB, cdb, 16);
     if (blocksize) {
         if (scsi_is_read(op)) {
             req.scsi_io.Control = 2 << 24;
         } else {
             req.scsi_io.Control = 1 << 24;
             req.sge.FlagsLength |= 0x04000000;
         }
     }

     outl((u32)MAKE_FLATPTR(GET_SEG(SS), &req), iobase + MPT_REG_REQ_Q);

     for (;;) {
         if (timer_check(end)) {
             return DISK_RET_ETIMEOUT;
         }

         u32 istatus = inl(iobase + MPT_REG_ISTATUS);
         if (istatus & MPT_IMASK_REPLY) {
             u32 resp = inl(iobase + MPT_REG_REP_Q);
             /* another read to turn interrupt off */
             inl(iobase + MPT_REG_REP_Q);
             if (resp == req.scsi_io.MessageContext) {
                 return DISK_RET_SUCCESS;
             } else if (resp & 0x80000000) {
                 outl((u32)&reply_msg[0], iobase + MPT_REG_REP_Q);
                 return DISK_RET_EBADTRACK;
             }
         }
         usleep(50);
     }
 }

 int
 mpt_scsi_process_op(struct disk_op_s *op)
 {
     if (!CONFIG_MPT_SCSI)
         return DISK_RET_EBADTRACK;

     u8 cdbcmd[16];
     int blocksize = scsi_fill_cmd(op, cdbcmd, sizeof(cdbcmd));
     if (blocksize < 0)
         return default_process_op(op);

     struct mpt_lun_s *llun_gf =
         container_of(op->drive_fl, struct mpt_lun_s, drive);
     u16 target = GET_GLOBALFLAT(llun_gf->target);
     u16 lun = GET_GLOBALFLAT(llun_gf->lun);
     u32 iobase = GET_GLOBALFLAT(llun_gf->iobase);
     return mpt_scsi_cmd(iobase, op, cdbcmd, target, lun, blocksize);
 }

 static void
 mpt_scsi_init_lun(struct mpt_lun_s *llun, struct pci_device *pci,
                   u32 iobase, u8 target, u8 lun)
 {
     memset(llun, 0, sizeof(*llun));
     llun->drive.type = DTYPE_MPT_SCSI;
     llun->drive.cntl_id = pci->bdf;
     llun->pci = pci;
     llun->target = target;
     llun->lun = lun;
     llun->iobase = iobase;
 }

 static int
 mpt_scsi_add_lun(u32 lun, struct drive_s *tmpl_drv)
 {
     struct mpt_lun_s *tmpl_llun =
         container_of(tmpl_drv, struct mpt_lun_s, drive);
     struct mpt_lun_s *llun = malloc_fseg(sizeof(*llun));
     if (!llun) {
         warn_noalloc();
         return -1;
     }
     mpt_scsi_init_lun(llun, tmpl_llun->pci, tmpl_llun->iobase,
                       tmpl_llun->target, lun);

     boot_lchs_find_scsi_device(llun->pci, llun->target, llun->lun,
                                &(llun->drive.lchs));
     char *name = znprintf(MAXDESCSIZE, "mpt %pP %d:%d",
                           llun->pci, llun->target, llun->lun);
     int prio = bootprio_find_scsi_device(llun->pci, llun->target, llun->lun);
     int ret = scsi_drive_setup(&llun->drive, name, prio);
     free(name);
     if (ret) {
         goto fail;
     }
     return 0;

 fail:
     free(llun);
     return -1;
 }

 static void
 mpt_scsi_scan_target(struct pci_device *pci, u32 iobase, u8 target)
 {
     struct mpt_lun_s llun0;

     mpt_scsi_init_lun(&llun0, pci, iobase, target, 0);

     if (scsi_rep_luns_scan(&llun0.drive, mpt_scsi_add_lun) < 0)
         scsi_sequential_scan(&llun0.drive, 8, mpt_scsi_add_lun);
 }

 static inline void
 mpt_out_doorbell(u8 func, u8 arg, u16 iobase)
 {
     outl((func << 24) | (arg << 16), iobase + MPT_REG_DOORBELL);
 }

 static void
 init_mpt_scsi(void *data)
 {
     struct pci_device *pci = data;
     u16 *msg_in_p;
     u32 iobase = pci_enable_iobar(pci, PCI_BASE_ADDRESS_0);
     if (!iobase)
         return;
     struct MptIOCInitReply MptIOCInitReply;
     pci_enable_busmaster(pci);

     dprintf(1, "found mpt-scsi(%04x) at %pP, io @ %x\n"
             , pci->device, pci, iobase);

     // reset
     mpt_out_doorbell(MPT_DOORBELL_MSG_RESET, 0, iobase);
     outl(MPT_IMASK_DOORBELL|MPT_IMASK_REPLY , iobase + MPT_REG_IMASK);
     outl(0, iobase + MPT_REG_ISTATUS);

     // send IOC Init message through the doorbell
     mpt_out_doorbell(MPT_DOORBELL_HANDSHAKE,
                      sizeof(MptIOCInitRequest)/sizeof(u32),
                      iobase);

     outsl(iobase + MPT_REG_DOORBELL,
           (u32 *)&MptIOCInitRequest,
           sizeof(MptIOCInitRequest)/sizeof(u32));

     // Read the reply 16 bits at a time.  Cannot use insl
     // because the port is 32 bits wide.
     msg_in_p = (u16 *)&MptIOCInitReply;
     while(msg_in_p != (u16 *)(&MptIOCInitReply + 1))
         *msg_in_p++ = (u16)inl(iobase + MPT_REG_DOORBELL);

     // Eat doorbell interrupt
     outl(0, iobase + MPT_REG_ISTATUS);

     // Post reply message used for SCSI errors
     outl((u32)&reply_msg[0], iobase + MPT_REG_REP_Q);

     int i;
     for (i = 0; i < 7; i++)
         mpt_scsi_scan_target(pci, iobase, i);
 }

 void
 mpt_scsi_setup(void)
 {
     ASSERT32FLAT();
     if (!CONFIG_MPT_SCSI || !runningOnQEMU()) {
         return;
     }

     dprintf(3, "init MPT\n");

     struct pci_device *pci;
     foreachpci(pci) {
         if (pci->vendor == PCI_VENDOR_ID_LSI_LOGIC
             && (pci->device == PCI_DEVICE_ID_LSI_53C1030
                 || pci->device == PCI_DEVICE_ID_LSI_SAS1068
                 || pci->device == PCI_DEVICE_ID_LSI_SAS1068E))
             run_thread(init_mpt_scsi, pci);
     }
 }
	// MPT Fusion boot support.
	//
	// Copyright (c) 2012 Verizon, Inc.
	// Copyright (C) 2016 Paolo Bonzini <pbonzini@redhat.com>
	//
	// This file may be distributed under the terms of the GNU LGPLv3 license.

	#include "biosvar.h" // GET_GLOBALFLAT
	#include "block.h" // struct drive_s
	#include "blockcmd.h" // scsi_drive_setup
	#include "config.h" // CONFIG_*
	#include "fw/paravirt.h" // runningOnQEMU
	#include "malloc.h" // free
	#include "output.h" // dprintf
	#include "pcidevice.h" // foreachpci
	#include "pci_ids.h" // PCI_DEVICE_ID
	#include "pci_regs.h" // PCI_VENDOR_ID
	#include "stacks.h" // run_thread
	#include "std/disk.h" // DISK_RET_SUCCESS
	#include "string.h" // memset
	#include "util.h" // usleep

	#define MPT_REG_DOORBELL 0x00
	#define MPT_REG_WRITE_SEQ 0x04
	#define MPT_REG_HOST_DIAG 0x08
	#define MPT_REG_TEST 0x0c
	#define MPT_REG_DIAG_DATA 0x10
	#define MPT_REG_DIAG_ADDR 0x14
	#define MPT_REG_ISTATUS 0x30
	#define MPT_REG_IMASK 0x34
	#define MPT_REG_REQ_Q 0x40
	#define MPT_REG_REP_Q 0x44

	#define MPT_DOORBELL_MSG_RESET 0x40
	#define MPT_DOORBELL_HANDSHAKE 0x42

	#define MPT_IMASK_DOORBELL 0x01
	#define MPT_IMASK_REPLY 0x08

	struct mpt_lun_s {
	struct drive_s drive;
	struct pci_device *pci;
	u32 iobase;
	u8 target;
	u8 lun;
	};

	u8 reply_msg[4] __attribute((aligned(4))) VARLOW;

	#define MPT_MESSAGE_HDR_FUNCTION_SCSI_IO_REQUEST (0x00)
	#define MPT_MESSAGE_HDR_FUNCTION_IOC_INIT (0x02)

	static struct MptIOCInitRequest
	{
	u8 WhoInit; /* Which system sent this init request. */
	u8 Reserved1; /* Reserved */
	u8 ChainOffset; /* Chain offset in the SG list. */
	u8 Function; /* Function to execute. */
	u8 Flags; /* Flags */
	u8 MaxDevices; /* Max devices the driver can handle. */
	u8 MaxBuses; /* Max buses the driver can handle. */
	u8 MessageFlags; /* Message flags. */
	u32 MessageContext; /* Message context ID. */
	u16 ReplyFrameSize; /* Reply frame size. */
	u16 Reserved2; /* Reserved */
	u32 HostMfaHighAddr; /* Upper 32bit of the message frames. */
	u32 SenseBufferHighAddr; /* Upper 32bit of the sense buffer. */
	} MptIOCInitRequest = {
	.WhoInit = 2,
	.Function = MPT_MESSAGE_HDR_FUNCTION_IOC_INIT,
	.MaxDevices = 8,
	.MaxBuses = 1,
	.ReplyFrameSize = sizeof(reply_msg),
	.HostMfaHighAddr = 0,
	.SenseBufferHighAddr = 0
	};

	struct MptIOCInitReply {
	u8 WhoInit; /* Which subsystem sent this init request. */
	u8 Reserved1; /* Reserved */
	u8 MessageLength; /* Message length */
	u8 Function; /* Function. */
	u8 Flags; /* Flags */
	u8 MaxDevices; /* Maximum number of devices the driver can handle. */
	u8 MaxBuses; /* Maximum number of busses the driver can handle. */
	u8 MessageFlags; /* Message flags. */
	u32 MessageContext; /* Message context ID */
	u16 Reserved2; /* Reserved */
	u16 IOCStatus; /* IO controller status. */
	u32 IOCLogInfo; /* IO controller log information. */
	};

	typedef struct MptSCSIIORequest {
	u8 TargetID; /* Target ID */
	u8 Bus; /* Bus number */
	u8 ChainOffset; /* Chain offset */
	u8 Function; /* Function number. */
	u8 CDBLength; /* CDB length. */
	u8 SenseBufferLength; /* Sense buffer length. */
	u8 Reserved; /* Reserved */
	u8 MessageFlags; /* Message flags. */
	u32 MessageContext; /* Message context ID. */
	u8 LUN[8]; /* LUN */
	u32 Control; /* Control values. */
	u8 CDB[16]; /* The CDB. */
	u32 DataLength; /* Data length. */
	u32 SenseBufferLowAddr; /* Sense buffer low 32bit address. */
	} __attribute__((packed)) MptSCSIIORequest_t;

	#define MPT_POLL_TIMEOUT 60000

	typedef struct MptSGEntrySimple32 {
	u32 FlagsLength;
	u32 DataBufferAddressLow;
	} __attribute__((packed)) MptSGEntrySimple32_t;

	static int
	mpt_scsi_cmd(u32 iobase, struct disk_op_s *op,
	u8 *cdb, u16 target, u16 lun, u16 blocksize)
	{
	u32 end = timer_calc(MPT_POLL_TIMEOUT);

	u8 sense_buf[18];
	struct scsi_req {
	MptSCSIIORequest_t scsi_io;
	MptSGEntrySimple32_t sge;
	} __attribute__((packed, aligned(4))) req = {
	.scsi_io = {
	.TargetID = target,
	.Bus = 0,
	.Function = MPT_MESSAGE_HDR_FUNCTION_SCSI_IO_REQUEST,
	.CDBLength = 16,
	.SenseBufferLength = 18,
	.MessageContext = end & 0x7fffffff,
	.DataLength = op->count * blocksize,
	.SenseBufferLowAddr = (u32)MAKE_FLATPTR(GET_SEG(SS), &sense_buf[0]),
	},
	.sge = {
	/* end of list, simple entry, end of buffer, last element */
	.FlagsLength = (op->count * blocksize) \| 0xD1000000,
	.DataBufferAddressLow = (u32)op->buf_fl,
	}
	};

	req.scsi_io.LUN[1] = lun;
	memcpy(req.scsi_io.CDB, cdb, 16);
	if (blocksize) {
	if (scsi_is_read(op)) {
	req.scsi_io.Control = 2 << 24;
	} else {
	req.scsi_io.Control = 1 << 24;
	req.sge.FlagsLength \|= 0x04000000;
	}
	}

	outl((u32)MAKE_FLATPTR(GET_SEG(SS), &req), iobase + MPT_REG_REQ_Q);

	for (;;) {
	if (timer_check(end)) {
	return DISK_RET_ETIMEOUT;
	}

	u32 istatus = inl(iobase + MPT_REG_ISTATUS);
	if (istatus & MPT_IMASK_REPLY) {
	u32 resp = inl(iobase + MPT_REG_REP_Q);
	/* another read to turn interrupt off */
	inl(iobase + MPT_REG_REP_Q);
	if (resp == req.scsi_io.MessageContext) {
	return DISK_RET_SUCCESS;
	} else if (resp & 0x80000000) {
	outl((u32)&reply_msg[0], iobase + MPT_REG_REP_Q);
	return DISK_RET_EBADTRACK;
	}
	}
	usleep(50);
	}
	}

	int
	mpt_scsi_process_op(struct disk_op_s *op)
	{
	if (!CONFIG_MPT_SCSI)
	return DISK_RET_EBADTRACK;

	u8 cdbcmd[16];
	int blocksize = scsi_fill_cmd(op, cdbcmd, sizeof(cdbcmd));
	if (blocksize < 0)
	return default_process_op(op);

	struct mpt_lun_s *llun_gf =
	container_of(op->drive_fl, struct mpt_lun_s, drive);
	u16 target = GET_GLOBALFLAT(llun_gf->target);
	u16 lun = GET_GLOBALFLAT(llun_gf->lun);
	u32 iobase = GET_GLOBALFLAT(llun_gf->iobase);
	return mpt_scsi_cmd(iobase, op, cdbcmd, target, lun, blocksize);
	}

	static void
	mpt_scsi_init_lun(struct mpt_lun_s llun, struct pci_device pci,
	u32 iobase, u8 target, u8 lun)
	{
	memset(llun, 0, sizeof(*llun));
	llun->drive.type = DTYPE_MPT_SCSI;
	llun->drive.cntl_id = pci->bdf;
	llun->pci = pci;
	llun->target = target;
	llun->lun = lun;
	llun->iobase = iobase;
	}

	static int
	mpt_scsi_add_lun(u32 lun, struct drive_s *tmpl_drv)
	{
	struct mpt_lun_s *tmpl_llun =
	container_of(tmpl_drv, struct mpt_lun_s, drive);
	struct mpt_lun_s llun = malloc_fseg(sizeof(llun));
	if (!llun) {
	warn_noalloc();
	return -1;
	}
	mpt_scsi_init_lun(llun, tmpl_llun->pci, tmpl_llun->iobase,
	tmpl_llun->target, lun);

	boot_lchs_find_scsi_device(llun->pci, llun->target, llun->lun,
	&(llun->drive.lchs));
	char *name = znprintf(MAXDESCSIZE, "mpt %pP %d:%d",
	llun->pci, llun->target, llun->lun);
	int prio = bootprio_find_scsi_device(llun->pci, llun->target, llun->lun);
	int ret = scsi_drive_setup(&llun->drive, name, prio);
	free(name);
	if (ret) {
	goto fail;
	}
	return 0;

	fail:
	free(llun);
	return -1;
	}

	static void
	mpt_scsi_scan_target(struct pci_device *pci, u32 iobase, u8 target)
	{
	struct mpt_lun_s llun0;

	mpt_scsi_init_lun(&llun0, pci, iobase, target, 0);

	if (scsi_rep_luns_scan(&llun0.drive, mpt_scsi_add_lun) < 0)
	scsi_sequential_scan(&llun0.drive, 8, mpt_scsi_add_lun);
	}

	static inline void
	mpt_out_doorbell(u8 func, u8 arg, u16 iobase)
	{
	outl((func << 24) \| (arg << 16), iobase + MPT_REG_DOORBELL);
	}

	static void
	init_mpt_scsi(void *data)
	{
	struct pci_device *pci = data;
	u16 *msg_in_p;
	u32 iobase = pci_enable_iobar(pci, PCI_BASE_ADDRESS_0);
	if (!iobase)
	return;
	struct MptIOCInitReply MptIOCInitReply;
	pci_enable_busmaster(pci);

	dprintf(1, "found mpt-scsi(%04x) at %pP, io @ %x\n"
	, pci->device, pci, iobase);

	// reset
	mpt_out_doorbell(MPT_DOORBELL_MSG_RESET, 0, iobase);
	outl(MPT_IMASK_DOORBELL\|MPT_IMASK_REPLY , iobase + MPT_REG_IMASK);
	outl(0, iobase + MPT_REG_ISTATUS);

	// send IOC Init message through the doorbell
	mpt_out_doorbell(MPT_DOORBELL_HANDSHAKE,
	sizeof(MptIOCInitRequest)/sizeof(u32),
	iobase);

	outsl(iobase + MPT_REG_DOORBELL,
	(u32 *)&MptIOCInitRequest,
	sizeof(MptIOCInitRequest)/sizeof(u32));

	// Read the reply 16 bits at a time. Cannot use insl
	// because the port is 32 bits wide.
	msg_in_p = (u16 *)&MptIOCInitReply;
	while(msg_in_p != (u16 *)(&MptIOCInitReply + 1))
	*msg_in_p++ = (u16)inl(iobase + MPT_REG_DOORBELL);

	// Eat doorbell interrupt
	outl(0, iobase + MPT_REG_ISTATUS);

	// Post reply message used for SCSI errors
	outl((u32)&reply_msg[0], iobase + MPT_REG_REP_Q);

	int i;
	for (i = 0; i < 7; i++)
	mpt_scsi_scan_target(pci, iobase, i);
	}

	void
	mpt_scsi_setup(void)
	{
	ASSERT32FLAT();
	if (!CONFIG_MPT_SCSI \|\| !runningOnQEMU()) {
	return;
	}

	dprintf(3, "init MPT\n");

	struct pci_device *pci;
	foreachpci(pci) {
	if (pci->vendor == PCI_VENDOR_ID_LSI_LOGIC
	&& (pci->device == PCI_DEVICE_ID_LSI_53C1030
	\|\| pci->device == PCI_DEVICE_ID_LSI_SAS1068
	\|\| pci->device == PCI_DEVICE_ID_LSI_SAS1068E))
	run_thread(init_mpt_scsi, pci);
	}
	}