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freebsd/sys/dev/mrsas/mrsas.h
Kashyap D Desai 2f2163ab40 Counter part of mfi driver commit in mrsas
Switch from make_dev_alias to make_dev_alias_p since make_dev_alias_p can
gracefully fail if the /dev/megaraid_sas_ioctl_node symlink already exists.
This can happen if mfi(4) and mrsas(4) are both attached to cards and
providing Linux emulation support.  Let the first one win.  An equivalent
change has been done in mfi(4).  Extra credit would be to pass the
Linux emulation call to the other driver when appropriate.  This will
probably be a rare case and the user can manually change where the symlink
points to.

MFC after:  3 days
2015-06-26 12:00:51 +00:00

2795 lines
73 KiB
C

/*
* Copyright (c) 2015, AVAGO Tech. All rights reserved. Authors: Marian Choy
* Copyright (c) 2014, LSI Corp. All rights reserved. Authors: Marian Choy
* Support: freebsdraid@avagotech.com
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer. 2. Redistributions
* in binary form must reproduce the above copyright notice, this list of
* conditions and the following disclaimer in the documentation and/or other
* materials provided with the distribution. 3. Neither the name of the
* <ORGANIZATION> nor the names of its contributors may be used to endorse or
* promote products derived from this software without specific prior written
* permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation are
* those of the authors and should not be interpreted as representing
* official policies,either expressed or implied, of the FreeBSD Project.
*
* Send feedback to: <megaraidfbsd@avagotech.com> Mail to: AVAGO TECHNOLOGIES, 1621
* Barber Lane, Milpitas, CA 95035 ATTN: MegaRaid FreeBSD
*
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#ifndef MRSAS_H
#define MRSAS_H
#include <sys/param.h> /* defines used in kernel.h */
#include <sys/module.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/errno.h>
#include <sys/kernel.h> /* types used in module initialization */
#include <sys/conf.h> /* cdevsw struct */
#include <sys/uio.h> /* uio struct */
#include <sys/malloc.h>
#include <sys/bus.h> /* structs, prototypes for pci bus
* stuff */
#include <sys/rman.h>
#include <sys/types.h>
#include <sys/lock.h>
#include <sys/sema.h>
#include <sys/sysctl.h>
#include <sys/stat.h>
#include <sys/taskqueue.h>
#include <sys/poll.h>
#include <sys/selinfo.h>
#include <machine/bus.h>
#include <machine/resource.h>
#include <machine/atomic.h>
#include <dev/pci/pcivar.h> /* For pci_get macros! */
#include <dev/pci/pcireg.h>
#define IOCTL_SEMA_DESCRIPTION "mrsas semaphore for MFI pool"
/*
* Device IDs and PCI
*/
#define MRSAS_TBOLT 0x005b
#define MRSAS_INVADER 0x005d
#define MRSAS_FURY 0x005f
#define MRSAS_PCI_BAR0 0x10
#define MRSAS_PCI_BAR1 0x14
#define MRSAS_PCI_BAR2 0x1C
/*
* Firmware State Defines
*/
#define MRSAS_FWSTATE_MAXCMD_MASK 0x0000FFFF
#define MRSAS_FWSTATE_SGE_MASK 0x00FF0000
#define MRSAS_FW_STATE_CHNG_INTERRUPT 1
/*
* Message Frame Defines
*/
#define MRSAS_SENSE_LEN 96
#define MRSAS_FUSION_MAX_RESET_TRIES 3
/*
* Miscellaneous Defines
*/
#define BYTE_ALIGNMENT 1
#define MRSAS_MAX_NAME_LENGTH 32
#define MRSAS_VERSION "06.707.05.00-fbsd"
#define MRSAS_ULONG_MAX 0xFFFFFFFFFFFFFFFF
#define MRSAS_DEFAULT_TIMEOUT 0x14 /* Temporarily set */
#define DONE 0
#define MRSAS_PAGE_SIZE 4096
#define MRSAS_RESET_NOTICE_INTERVAL 5
#define MRSAS_IO_TIMEOUT 180000 /* 180 second timeout */
#define MRSAS_LDIO_QUEUE_DEPTH 70 /* 70 percent as default */
#define THRESHOLD_REPLY_COUNT 50
#define MAX_MSIX_COUNT 128
/*
* Boolean types
*/
#if (__FreeBSD_version < 901000)
typedef enum _boolean {
false, true
} boolean;
#endif
enum err {
SUCCESS, FAIL
};
MALLOC_DECLARE(M_MRSAS);
SYSCTL_DECL(_hw_mrsas);
#define MRSAS_INFO (1 << 0)
#define MRSAS_TRACE (1 << 1)
#define MRSAS_FAULT (1 << 2)
#define MRSAS_OCR (1 << 3)
#define MRSAS_TOUT MRSAS_OCR
#define MRSAS_AEN (1 << 4)
#define MRSAS_PRL11 (1 << 5)
#define mrsas_dprint(sc, level, msg, args...) \
do { \
if (sc->mrsas_debug & level) \
device_printf(sc->mrsas_dev, msg, ##args); \
} while (0)
/****************************************************************************
* Raid Context structure which describes MegaRAID specific IO Paramenters
* This resides at offset 0x60 where the SGL normally starts in MPT IO Frames
****************************************************************************/
typedef struct _RAID_CONTEXT {
u_int8_t Type:4;
u_int8_t nseg:4;
u_int8_t resvd0;
u_int16_t timeoutValue;
u_int8_t regLockFlags;
u_int8_t resvd1;
u_int16_t VirtualDiskTgtId;
u_int64_t regLockRowLBA;
u_int32_t regLockLength;
u_int16_t nextLMId;
u_int8_t exStatus;
u_int8_t status;
u_int8_t RAIDFlags;
u_int8_t numSGE;
u_int16_t configSeqNum;
u_int8_t spanArm;
u_int8_t resvd2[3];
} RAID_CONTEXT;
/*************************************************************************
* MPI2 Defines
************************************************************************/
#define MPI2_FUNCTION_IOC_INIT (0x02) /* IOC Init */
#define MPI2_WHOINIT_HOST_DRIVER (0x04)
#define MPI2_VERSION_MAJOR (0x02)
#define MPI2_VERSION_MINOR (0x00)
#define MPI2_VERSION_MAJOR_MASK (0xFF00)
#define MPI2_VERSION_MAJOR_SHIFT (8)
#define MPI2_VERSION_MINOR_MASK (0x00FF)
#define MPI2_VERSION_MINOR_SHIFT (0)
#define MPI2_VERSION ((MPI2_VERSION_MAJOR << MPI2_VERSION_MAJOR_SHIFT) | \
MPI2_VERSION_MINOR)
#define MPI2_HEADER_VERSION_UNIT (0x10)
#define MPI2_HEADER_VERSION_DEV (0x00)
#define MPI2_HEADER_VERSION_UNIT_MASK (0xFF00)
#define MPI2_HEADER_VERSION_UNIT_SHIFT (8)
#define MPI2_HEADER_VERSION_DEV_MASK (0x00FF)
#define MPI2_HEADER_VERSION_DEV_SHIFT (0)
#define MPI2_HEADER_VERSION ((MPI2_HEADER_VERSION_UNIT << 8) | MPI2_HEADER_VERSION_DEV)
#define MPI2_IEEE_SGE_FLAGS_IOCPLBNTA_ADDR (0x03)
#define MPI2_SCSIIO_EEDPFLAGS_INC_PRI_REFTAG (0x8000)
#define MPI2_SCSIIO_EEDPFLAGS_CHECK_REFTAG (0x0400)
#define MPI2_SCSIIO_EEDPFLAGS_CHECK_REMOVE_OP (0x0003)
#define MPI2_SCSIIO_EEDPFLAGS_CHECK_APPTAG (0x0200)
#define MPI2_SCSIIO_EEDPFLAGS_CHECK_GUARD (0x0100)
#define MPI2_SCSIIO_EEDPFLAGS_INSERT_OP (0x0004)
#define MPI2_FUNCTION_SCSI_IO_REQUEST (0x00) /* SCSI IO */
#define MPI2_REQ_DESCRIPT_FLAGS_HIGH_PRIORITY (0x06)
#define MPI2_REQ_DESCRIPT_FLAGS_SCSI_IO (0x00)
#define MPI2_SGE_FLAGS_64_BIT_ADDRESSING (0x02)
#define MPI2_SCSIIO_CONTROL_WRITE (0x01000000)
#define MPI2_SCSIIO_CONTROL_READ (0x02000000)
#define MPI2_REQ_DESCRIPT_FLAGS_TYPE_MASK (0x0E)
#define MPI2_RPY_DESCRIPT_FLAGS_UNUSED (0x0F)
#define MPI2_RPY_DESCRIPT_FLAGS_SCSI_IO_SUCCESS (0x00)
#define MPI2_RPY_DESCRIPT_FLAGS_TYPE_MASK (0x0F)
#define MPI2_WRSEQ_FLUSH_KEY_VALUE (0x0)
#define MPI2_WRITE_SEQUENCE_OFFSET (0x00000004)
#define MPI2_WRSEQ_1ST_KEY_VALUE (0xF)
#define MPI2_WRSEQ_2ND_KEY_VALUE (0x4)
#define MPI2_WRSEQ_3RD_KEY_VALUE (0xB)
#define MPI2_WRSEQ_4TH_KEY_VALUE (0x2)
#define MPI2_WRSEQ_5TH_KEY_VALUE (0x7)
#define MPI2_WRSEQ_6TH_KEY_VALUE (0xD)
#ifndef MPI2_POINTER
#define MPI2_POINTER *
#endif
/***************************************
* MPI2 Structures
***************************************/
typedef struct _MPI25_IEEE_SGE_CHAIN64 {
u_int64_t Address;
u_int32_t Length;
u_int16_t Reserved1;
u_int8_t NextChainOffset;
u_int8_t Flags;
} MPI25_IEEE_SGE_CHAIN64, MPI2_POINTER PTR_MPI25_IEEE_SGE_CHAIN64,
Mpi25IeeeSgeChain64_t, MPI2_POINTER pMpi25IeeeSgeChain64_t;
typedef struct _MPI2_SGE_SIMPLE_UNION {
u_int32_t FlagsLength;
union {
u_int32_t Address32;
u_int64_t Address64;
} u;
} MPI2_SGE_SIMPLE_UNION, MPI2_POINTER PTR_MPI2_SGE_SIMPLE_UNION,
Mpi2SGESimpleUnion_t, MPI2_POINTER pMpi2SGESimpleUnion_t;
typedef struct {
u_int8_t CDB[20]; /* 0x00 */
u_int32_t PrimaryReferenceTag; /* 0x14 */
u_int16_t PrimaryApplicationTag;/* 0x18 */
u_int16_t PrimaryApplicationTagMask; /* 0x1A */
u_int32_t TransferLength; /* 0x1C */
} MPI2_SCSI_IO_CDB_EEDP32, MPI2_POINTER PTR_MPI2_SCSI_IO_CDB_EEDP32,
Mpi2ScsiIoCdbEedp32_t, MPI2_POINTER pMpi2ScsiIoCdbEedp32_t;
typedef struct _MPI2_SGE_CHAIN_UNION {
u_int16_t Length;
u_int8_t NextChainOffset;
u_int8_t Flags;
union {
u_int32_t Address32;
u_int64_t Address64;
} u;
} MPI2_SGE_CHAIN_UNION, MPI2_POINTER PTR_MPI2_SGE_CHAIN_UNION,
Mpi2SGEChainUnion_t, MPI2_POINTER pMpi2SGEChainUnion_t;
typedef struct _MPI2_IEEE_SGE_SIMPLE32 {
u_int32_t Address;
u_int32_t FlagsLength;
} MPI2_IEEE_SGE_SIMPLE32, MPI2_POINTER PTR_MPI2_IEEE_SGE_SIMPLE32,
Mpi2IeeeSgeSimple32_t, MPI2_POINTER pMpi2IeeeSgeSimple32_t;
typedef struct _MPI2_IEEE_SGE_SIMPLE64 {
u_int64_t Address;
u_int32_t Length;
u_int16_t Reserved1;
u_int8_t Reserved2;
u_int8_t Flags;
} MPI2_IEEE_SGE_SIMPLE64, MPI2_POINTER PTR_MPI2_IEEE_SGE_SIMPLE64,
Mpi2IeeeSgeSimple64_t, MPI2_POINTER pMpi2IeeeSgeSimple64_t;
typedef union _MPI2_IEEE_SGE_SIMPLE_UNION {
MPI2_IEEE_SGE_SIMPLE32 Simple32;
MPI2_IEEE_SGE_SIMPLE64 Simple64;
} MPI2_IEEE_SGE_SIMPLE_UNION, MPI2_POINTER PTR_MPI2_IEEE_SGE_SIMPLE_UNION,
Mpi2IeeeSgeSimpleUnion_t, MPI2_POINTER pMpi2IeeeSgeSimpleUnion_t;
typedef MPI2_IEEE_SGE_SIMPLE32 MPI2_IEEE_SGE_CHAIN32;
typedef MPI2_IEEE_SGE_SIMPLE64 MPI2_IEEE_SGE_CHAIN64;
typedef union _MPI2_IEEE_SGE_CHAIN_UNION {
MPI2_IEEE_SGE_CHAIN32 Chain32;
MPI2_IEEE_SGE_CHAIN64 Chain64;
} MPI2_IEEE_SGE_CHAIN_UNION, MPI2_POINTER PTR_MPI2_IEEE_SGE_CHAIN_UNION,
Mpi2IeeeSgeChainUnion_t, MPI2_POINTER pMpi2IeeeSgeChainUnion_t;
typedef union _MPI2_SGE_IO_UNION {
MPI2_SGE_SIMPLE_UNION MpiSimple;
MPI2_SGE_CHAIN_UNION MpiChain;
MPI2_IEEE_SGE_SIMPLE_UNION IeeeSimple;
MPI2_IEEE_SGE_CHAIN_UNION IeeeChain;
} MPI2_SGE_IO_UNION, MPI2_POINTER PTR_MPI2_SGE_IO_UNION,
Mpi2SGEIOUnion_t, MPI2_POINTER pMpi2SGEIOUnion_t;
typedef union {
u_int8_t CDB32[32];
MPI2_SCSI_IO_CDB_EEDP32 EEDP32;
MPI2_SGE_SIMPLE_UNION SGE;
} MPI2_SCSI_IO_CDB_UNION, MPI2_POINTER PTR_MPI2_SCSI_IO_CDB_UNION,
Mpi2ScsiIoCdb_t, MPI2_POINTER pMpi2ScsiIoCdb_t;
/*
* RAID SCSI IO Request Message Total SGE count will be one less than
* _MPI2_SCSI_IO_REQUEST
*/
typedef struct _MPI2_RAID_SCSI_IO_REQUEST {
u_int16_t DevHandle; /* 0x00 */
u_int8_t ChainOffset; /* 0x02 */
u_int8_t Function; /* 0x03 */
u_int16_t Reserved1; /* 0x04 */
u_int8_t Reserved2; /* 0x06 */
u_int8_t MsgFlags; /* 0x07 */
u_int8_t VP_ID; /* 0x08 */
u_int8_t VF_ID; /* 0x09 */
u_int16_t Reserved3; /* 0x0A */
u_int32_t SenseBufferLowAddress;/* 0x0C */
u_int16_t SGLFlags; /* 0x10 */
u_int8_t SenseBufferLength; /* 0x12 */
u_int8_t Reserved4; /* 0x13 */
u_int8_t SGLOffset0; /* 0x14 */
u_int8_t SGLOffset1; /* 0x15 */
u_int8_t SGLOffset2; /* 0x16 */
u_int8_t SGLOffset3; /* 0x17 */
u_int32_t SkipCount; /* 0x18 */
u_int32_t DataLength; /* 0x1C */
u_int32_t BidirectionalDataLength; /* 0x20 */
u_int16_t IoFlags; /* 0x24 */
u_int16_t EEDPFlags; /* 0x26 */
u_int32_t EEDPBlockSize; /* 0x28 */
u_int32_t SecondaryReferenceTag;/* 0x2C */
u_int16_t SecondaryApplicationTag; /* 0x30 */
u_int16_t ApplicationTagTranslationMask; /* 0x32 */
u_int8_t LUN[8]; /* 0x34 */
u_int32_t Control; /* 0x3C */
MPI2_SCSI_IO_CDB_UNION CDB; /* 0x40 */
RAID_CONTEXT RaidContext; /* 0x60 */
MPI2_SGE_IO_UNION SGL; /* 0x80 */
} MRSAS_RAID_SCSI_IO_REQUEST, MPI2_POINTER PTR_MRSAS_RAID_SCSI_IO_REQUEST,
MRSASRaidSCSIIORequest_t, MPI2_POINTER pMRSASRaidSCSIIORequest_t;
/*
* MPT RAID MFA IO Descriptor.
*/
typedef struct _MRSAS_RAID_MFA_IO_DESCRIPTOR {
u_int32_t RequestFlags:8;
u_int32_t MessageAddress1:24; /* bits 31:8 */
u_int32_t MessageAddress2; /* bits 61:32 */
} MRSAS_RAID_MFA_IO_REQUEST_DESCRIPTOR, *PMRSAS_RAID_MFA_IO_REQUEST_DESCRIPTOR;
/* Default Request Descriptor */
typedef struct _MPI2_DEFAULT_REQUEST_DESCRIPTOR {
u_int8_t RequestFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t LMID; /* 0x04 */
u_int16_t DescriptorTypeDependent; /* 0x06 */
} MPI2_DEFAULT_REQUEST_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_DEFAULT_REQUEST_DESCRIPTOR,
Mpi2DefaultRequestDescriptor_t, MPI2_POINTER pMpi2DefaultRequestDescriptor_t;
/* High Priority Request Descriptor */
typedef struct _MPI2_HIGH_PRIORITY_REQUEST_DESCRIPTOR {
u_int8_t RequestFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t LMID; /* 0x04 */
u_int16_t Reserved1; /* 0x06 */
} MPI2_HIGH_PRIORITY_REQUEST_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_HIGH_PRIORITY_REQUEST_DESCRIPTOR,
Mpi2HighPriorityRequestDescriptor_t, MPI2_POINTER pMpi2HighPriorityRequestDescriptor_t;
/* SCSI IO Request Descriptor */
typedef struct _MPI2_SCSI_IO_REQUEST_DESCRIPTOR {
u_int8_t RequestFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t LMID; /* 0x04 */
u_int16_t DevHandle; /* 0x06 */
} MPI2_SCSI_IO_REQUEST_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_SCSI_IO_REQUEST_DESCRIPTOR,
Mpi2SCSIIORequestDescriptor_t, MPI2_POINTER pMpi2SCSIIORequestDescriptor_t;
/* SCSI Target Request Descriptor */
typedef struct _MPI2_SCSI_TARGET_REQUEST_DESCRIPTOR {
u_int8_t RequestFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t LMID; /* 0x04 */
u_int16_t IoIndex; /* 0x06 */
} MPI2_SCSI_TARGET_REQUEST_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_SCSI_TARGET_REQUEST_DESCRIPTOR,
Mpi2SCSITargetRequestDescriptor_t, MPI2_POINTER pMpi2SCSITargetRequestDescriptor_t;
/* RAID Accelerator Request Descriptor */
typedef struct _MPI2_RAID_ACCEL_REQUEST_DESCRIPTOR {
u_int8_t RequestFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t LMID; /* 0x04 */
u_int16_t Reserved; /* 0x06 */
} MPI2_RAID_ACCEL_REQUEST_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_RAID_ACCEL_REQUEST_DESCRIPTOR,
Mpi2RAIDAcceleratorRequestDescriptor_t, MPI2_POINTER pMpi2RAIDAcceleratorRequestDescriptor_t;
/* union of Request Descriptors */
typedef union _MRSAS_REQUEST_DESCRIPTOR_UNION {
MPI2_DEFAULT_REQUEST_DESCRIPTOR Default;
MPI2_HIGH_PRIORITY_REQUEST_DESCRIPTOR HighPriority;
MPI2_SCSI_IO_REQUEST_DESCRIPTOR SCSIIO;
MPI2_SCSI_TARGET_REQUEST_DESCRIPTOR SCSITarget;
MPI2_RAID_ACCEL_REQUEST_DESCRIPTOR RAIDAccelerator;
MRSAS_RAID_MFA_IO_REQUEST_DESCRIPTOR MFAIo;
union {
struct {
u_int32_t low;
u_int32_t high;
} u;
u_int64_t Words;
} addr;
} MRSAS_REQUEST_DESCRIPTOR_UNION;
/* Default Reply Descriptor */
typedef struct _MPI2_DEFAULT_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t DescriptorTypeDependent1; /* 0x02 */
u_int32_t DescriptorTypeDependent2; /* 0x04 */
} MPI2_DEFAULT_REPLY_DESCRIPTOR, MPI2_POINTER PTR_MPI2_DEFAULT_REPLY_DESCRIPTOR,
Mpi2DefaultReplyDescriptor_t, MPI2_POINTER pMpi2DefaultReplyDescriptor_t;
/* Address Reply Descriptor */
typedef struct _MPI2_ADDRESS_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int32_t ReplyFrameAddress; /* 0x04 */
} MPI2_ADDRESS_REPLY_DESCRIPTOR, MPI2_POINTER PTR_MPI2_ADDRESS_REPLY_DESCRIPTOR,
Mpi2AddressReplyDescriptor_t, MPI2_POINTER pMpi2AddressReplyDescriptor_t;
/* SCSI IO Success Reply Descriptor */
typedef struct _MPI2_SCSI_IO_SUCCESS_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int16_t TaskTag; /* 0x04 */
u_int16_t Reserved1; /* 0x06 */
} MPI2_SCSI_IO_SUCCESS_REPLY_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_SCSI_IO_SUCCESS_REPLY_DESCRIPTOR,
Mpi2SCSIIOSuccessReplyDescriptor_t, MPI2_POINTER pMpi2SCSIIOSuccessReplyDescriptor_t;
/* TargetAssist Success Reply Descriptor */
typedef struct _MPI2_TARGETASSIST_SUCCESS_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int8_t SequenceNumber; /* 0x04 */
u_int8_t Reserved1; /* 0x05 */
u_int16_t IoIndex; /* 0x06 */
} MPI2_TARGETASSIST_SUCCESS_REPLY_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_TARGETASSIST_SUCCESS_REPLY_DESCRIPTOR,
Mpi2TargetAssistSuccessReplyDescriptor_t, MPI2_POINTER pMpi2TargetAssistSuccessReplyDescriptor_t;
/* Target Command Buffer Reply Descriptor */
typedef struct _MPI2_TARGET_COMMAND_BUFFER_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int8_t VP_ID; /* 0x02 */
u_int8_t Flags; /* 0x03 */
u_int16_t InitiatorDevHandle; /* 0x04 */
u_int16_t IoIndex; /* 0x06 */
} MPI2_TARGET_COMMAND_BUFFER_REPLY_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_TARGET_COMMAND_BUFFER_REPLY_DESCRIPTOR,
Mpi2TargetCommandBufferReplyDescriptor_t, MPI2_POINTER pMpi2TargetCommandBufferReplyDescriptor_t;
/* RAID Accelerator Success Reply Descriptor */
typedef struct _MPI2_RAID_ACCELERATOR_SUCCESS_REPLY_DESCRIPTOR {
u_int8_t ReplyFlags; /* 0x00 */
u_int8_t MSIxIndex; /* 0x01 */
u_int16_t SMID; /* 0x02 */
u_int32_t Reserved; /* 0x04 */
} MPI2_RAID_ACCELERATOR_SUCCESS_REPLY_DESCRIPTOR,
MPI2_POINTER PTR_MPI2_RAID_ACCELERATOR_SUCCESS_REPLY_DESCRIPTOR,
Mpi2RAIDAcceleratorSuccessReplyDescriptor_t, MPI2_POINTER pMpi2RAIDAcceleratorSuccessReplyDescriptor_t;
/* union of Reply Descriptors */
typedef union _MPI2_REPLY_DESCRIPTORS_UNION {
MPI2_DEFAULT_REPLY_DESCRIPTOR Default;
MPI2_ADDRESS_REPLY_DESCRIPTOR AddressReply;
MPI2_SCSI_IO_SUCCESS_REPLY_DESCRIPTOR SCSIIOSuccess;
MPI2_TARGETASSIST_SUCCESS_REPLY_DESCRIPTOR TargetAssistSuccess;
MPI2_TARGET_COMMAND_BUFFER_REPLY_DESCRIPTOR TargetCommandBuffer;
MPI2_RAID_ACCELERATOR_SUCCESS_REPLY_DESCRIPTOR RAIDAcceleratorSuccess;
u_int64_t Words;
} MPI2_REPLY_DESCRIPTORS_UNION, MPI2_POINTER PTR_MPI2_REPLY_DESCRIPTORS_UNION,
Mpi2ReplyDescriptorsUnion_t, MPI2_POINTER pMpi2ReplyDescriptorsUnion_t;
typedef union {
volatile unsigned int val;
unsigned int val_rdonly;
} mrsas_atomic_t;
#define mrsas_atomic_read(v) atomic_load_acq_int(&(v)->val)
#define mrsas_atomic_set(v,i) atomic_store_rel_int(&(v)->val, i)
#define mrsas_atomic_dec(v) atomic_fetchadd_int(&(v)->val, -1)
#define mrsas_atomic_inc(v) atomic_fetchadd_int(&(v)->val, 1)
/* IOCInit Request message */
typedef struct _MPI2_IOC_INIT_REQUEST {
u_int8_t WhoInit; /* 0x00 */
u_int8_t Reserved1; /* 0x01 */
u_int8_t ChainOffset; /* 0x02 */
u_int8_t Function; /* 0x03 */
u_int16_t Reserved2; /* 0x04 */
u_int8_t Reserved3; /* 0x06 */
u_int8_t MsgFlags; /* 0x07 */
u_int8_t VP_ID; /* 0x08 */
u_int8_t VF_ID; /* 0x09 */
u_int16_t Reserved4; /* 0x0A */
u_int16_t MsgVersion; /* 0x0C */
u_int16_t HeaderVersion; /* 0x0E */
u_int32_t Reserved5; /* 0x10 */
u_int16_t Reserved6; /* 0x14 */
u_int8_t Reserved7; /* 0x16 */
u_int8_t HostMSIxVectors; /* 0x17 */
u_int16_t Reserved8; /* 0x18 */
u_int16_t SystemRequestFrameSize; /* 0x1A */
u_int16_t ReplyDescriptorPostQueueDepth; /* 0x1C */
u_int16_t ReplyFreeQueueDepth; /* 0x1E */
u_int32_t SenseBufferAddressHigh; /* 0x20 */
u_int32_t SystemReplyAddressHigh; /* 0x24 */
u_int64_t SystemRequestFrameBaseAddress; /* 0x28 */
u_int64_t ReplyDescriptorPostQueueAddress; /* 0x30 */
u_int64_t ReplyFreeQueueAddress;/* 0x38 */
u_int64_t TimeStamp; /* 0x40 */
} MPI2_IOC_INIT_REQUEST, MPI2_POINTER PTR_MPI2_IOC_INIT_REQUEST,
Mpi2IOCInitRequest_t, MPI2_POINTER pMpi2IOCInitRequest_t;
/*
* MR private defines
*/
#define MR_PD_INVALID 0xFFFF
#define MAX_SPAN_DEPTH 8
#define MAX_QUAD_DEPTH MAX_SPAN_DEPTH
#define MAX_RAIDMAP_SPAN_DEPTH (MAX_SPAN_DEPTH)
#define MAX_ROW_SIZE 32
#define MAX_RAIDMAP_ROW_SIZE (MAX_ROW_SIZE)
#define MAX_LOGICAL_DRIVES 64
#define MAX_LOGICAL_DRIVES_EXT 256
#define MAX_RAIDMAP_LOGICAL_DRIVES (MAX_LOGICAL_DRIVES)
#define MAX_RAIDMAP_VIEWS (MAX_LOGICAL_DRIVES)
#define MAX_ARRAYS 128
#define MAX_RAIDMAP_ARRAYS (MAX_ARRAYS)
#define MAX_ARRAYS_EXT 256
#define MAX_API_ARRAYS_EXT MAX_ARRAYS_EXT
#define MAX_PHYSICAL_DEVICES 256
#define MAX_RAIDMAP_PHYSICAL_DEVICES (MAX_PHYSICAL_DEVICES)
#define MR_DCMD_LD_MAP_GET_INFO 0x0300e101
#define MRSAS_MAX_PD_CHANNELS 1
#define MRSAS_MAX_LD_CHANNELS 1
#define MRSAS_MAX_DEV_PER_CHANNEL 256
#define MRSAS_DEFAULT_INIT_ID -1
#define MRSAS_MAX_LUN 8
#define MRSAS_DEFAULT_CMD_PER_LUN 256
#define MRSAS_MAX_PD (MRSAS_MAX_PD_CHANNELS * \
MRSAS_MAX_DEV_PER_CHANNEL)
#define MRSAS_MAX_LD_IDS (MRSAS_MAX_LD_CHANNELS * \
MRSAS_MAX_DEV_PER_CHANNEL)
#define VD_EXT_DEBUG 0
/*******************************************************************
* RAID map related structures
********************************************************************/
#pragma pack(1)
typedef struct _MR_DEV_HANDLE_INFO {
u_int16_t curDevHdl;
u_int8_t validHandles;
u_int8_t reserved;
u_int16_t devHandle[2];
} MR_DEV_HANDLE_INFO;
#pragma pack()
typedef struct _MR_ARRAY_INFO {
u_int16_t pd[MAX_RAIDMAP_ROW_SIZE];
} MR_ARRAY_INFO;
typedef struct _MR_QUAD_ELEMENT {
u_int64_t logStart;
u_int64_t logEnd;
u_int64_t offsetInSpan;
u_int32_t diff;
u_int32_t reserved1;
} MR_QUAD_ELEMENT;
typedef struct _MR_SPAN_INFO {
u_int32_t noElements;
u_int32_t reserved1;
MR_QUAD_ELEMENT quad[MAX_RAIDMAP_SPAN_DEPTH];
} MR_SPAN_INFO;
typedef struct _MR_LD_SPAN_ {
u_int64_t startBlk;
u_int64_t numBlks;
u_int16_t arrayRef;
u_int8_t spanRowSize;
u_int8_t spanRowDataSize;
u_int8_t reserved[4];
} MR_LD_SPAN;
typedef struct _MR_SPAN_BLOCK_INFO {
u_int64_t num_rows;
MR_LD_SPAN span;
MR_SPAN_INFO block_span_info;
} MR_SPAN_BLOCK_INFO;
typedef struct _MR_LD_RAID {
struct {
u_int32_t fpCapable:1;
u_int32_t reserved5:3;
u_int32_t ldPiMode:4;
u_int32_t pdPiMode:4;
u_int32_t encryptionType:8;
u_int32_t fpWriteCapable:1;
u_int32_t fpReadCapable:1;
u_int32_t fpWriteAcrossStripe:1;
u_int32_t fpReadAcrossStripe:1;
u_int32_t fpNonRWCapable:1;
u_int32_t reserved4:7;
} capability;
u_int32_t reserved6;
u_int64_t size;
u_int8_t spanDepth;
u_int8_t level;
u_int8_t stripeShift;
u_int8_t rowSize;
u_int8_t rowDataSize;
u_int8_t writeMode;
u_int8_t PRL;
u_int8_t SRL;
u_int16_t targetId;
u_int8_t ldState;
u_int8_t regTypeReqOnWrite;
u_int8_t modFactor;
u_int8_t regTypeReqOnRead;
u_int16_t seqNum;
struct {
u_int32_t ldSyncRequired:1;
u_int32_t regTypeReqOnReadLsValid:1;
u_int32_t reserved:30;
} flags;
u_int8_t LUN[8];
u_int8_t fpIoTimeoutForLd;
u_int8_t reserved2[3];
u_int32_t logicalBlockLength;
struct {
u_int32_t LdPiExp:4;
u_int32_t LdLogicalBlockExp:4;
u_int32_t reserved1:24;
} exponent;
u_int8_t reserved3[0x80 - 0x38];
} MR_LD_RAID;
typedef struct _MR_LD_SPAN_MAP {
MR_LD_RAID ldRaid;
u_int8_t dataArmMap[MAX_RAIDMAP_ROW_SIZE];
MR_SPAN_BLOCK_INFO spanBlock[MAX_RAIDMAP_SPAN_DEPTH];
} MR_LD_SPAN_MAP;
typedef struct _MR_FW_RAID_MAP {
u_int32_t totalSize;
union {
struct {
u_int32_t maxLd;
u_int32_t maxSpanDepth;
u_int32_t maxRowSize;
u_int32_t maxPdCount;
u_int32_t maxArrays;
} validationInfo;
u_int32_t version[5];
u_int32_t reserved1[5];
} raid_desc;
u_int32_t ldCount;
u_int32_t Reserved1;
/*
* This doesn't correspond to FW Ld Tgt Id to LD, but will purge. For
* example: if tgt Id is 4 and FW LD is 2, and there is only one LD,
* FW will populate the array like this. [0xFF, 0xFF, 0xFF, 0xFF,
* 0x0,.....]. This is to help reduce the entire strcture size if
* there are few LDs or driver is looking info for 1 LD only.
*/
u_int8_t ldTgtIdToLd[MAX_RAIDMAP_LOGICAL_DRIVES + MAX_RAIDMAP_VIEWS];
u_int8_t fpPdIoTimeoutSec;
u_int8_t reserved2[7];
MR_ARRAY_INFO arMapInfo[MAX_RAIDMAP_ARRAYS];
MR_DEV_HANDLE_INFO devHndlInfo[MAX_RAIDMAP_PHYSICAL_DEVICES];
MR_LD_SPAN_MAP ldSpanMap[1];
} MR_FW_RAID_MAP;
typedef struct _MR_FW_RAID_MAP_EXT {
/* Not used in new map */
u_int32_t reserved;
union {
struct {
u_int32_t maxLd;
u_int32_t maxSpanDepth;
u_int32_t maxRowSize;
u_int32_t maxPdCount;
u_int32_t maxArrays;
} validationInfo;
u_int32_t version[5];
u_int32_t reserved1[5];
} fw_raid_desc;
u_int8_t fpPdIoTimeoutSec;
u_int8_t reserved2[7];
u_int16_t ldCount;
u_int16_t arCount;
u_int16_t spanCount;
u_int16_t reserve3;
MR_DEV_HANDLE_INFO devHndlInfo[MAX_RAIDMAP_PHYSICAL_DEVICES];
u_int8_t ldTgtIdToLd[MAX_LOGICAL_DRIVES_EXT];
MR_ARRAY_INFO arMapInfo[MAX_API_ARRAYS_EXT];
MR_LD_SPAN_MAP ldSpanMap[MAX_LOGICAL_DRIVES_EXT];
} MR_FW_RAID_MAP_EXT;
typedef struct _MR_DRV_RAID_MAP {
/*
* Total size of this structure, including this field. This feild
* will be manupulated by driver for ext raid map, else pick the
* value from firmware raid map.
*/
u_int32_t totalSize;
union {
struct {
u_int32_t maxLd;
u_int32_t maxSpanDepth;
u_int32_t maxRowSize;
u_int32_t maxPdCount;
u_int32_t maxArrays;
} validationInfo;
u_int32_t version[5];
u_int32_t reserved1[5];
} drv_raid_desc;
/* timeout value used by driver in FP IOs */
u_int8_t fpPdIoTimeoutSec;
u_int8_t reserved2[7];
u_int16_t ldCount;
u_int16_t arCount;
u_int16_t spanCount;
u_int16_t reserve3;
MR_DEV_HANDLE_INFO devHndlInfo[MAX_RAIDMAP_PHYSICAL_DEVICES];
u_int8_t ldTgtIdToLd[MAX_LOGICAL_DRIVES_EXT];
MR_ARRAY_INFO arMapInfo[MAX_API_ARRAYS_EXT];
MR_LD_SPAN_MAP ldSpanMap[1];
} MR_DRV_RAID_MAP;
/*
* Driver raid map size is same as raid map ext MR_DRV_RAID_MAP_ALL is
* created to sync with old raid. And it is mainly for code re-use purpose.
*/
#pragma pack(1)
typedef struct _MR_DRV_RAID_MAP_ALL {
MR_DRV_RAID_MAP raidMap;
MR_LD_SPAN_MAP ldSpanMap[MAX_LOGICAL_DRIVES_EXT - 1];
} MR_DRV_RAID_MAP_ALL;
#pragma pack()
typedef struct _LD_LOAD_BALANCE_INFO {
u_int8_t loadBalanceFlag;
u_int8_t reserved1;
mrsas_atomic_t scsi_pending_cmds[MAX_PHYSICAL_DEVICES];
u_int64_t last_accessed_block[MAX_PHYSICAL_DEVICES];
} LD_LOAD_BALANCE_INFO, *PLD_LOAD_BALANCE_INFO;
/* SPAN_SET is info caclulated from span info from Raid map per ld */
typedef struct _LD_SPAN_SET {
u_int64_t log_start_lba;
u_int64_t log_end_lba;
u_int64_t span_row_start;
u_int64_t span_row_end;
u_int64_t data_strip_start;
u_int64_t data_strip_end;
u_int64_t data_row_start;
u_int64_t data_row_end;
u_int8_t strip_offset[MAX_SPAN_DEPTH];
u_int32_t span_row_data_width;
u_int32_t diff;
u_int32_t reserved[2];
} LD_SPAN_SET, *PLD_SPAN_SET;
typedef struct LOG_BLOCK_SPAN_INFO {
LD_SPAN_SET span_set[MAX_SPAN_DEPTH];
} LD_SPAN_INFO, *PLD_SPAN_INFO;
#pragma pack(1)
typedef struct _MR_FW_RAID_MAP_ALL {
MR_FW_RAID_MAP raidMap;
MR_LD_SPAN_MAP ldSpanMap[MAX_LOGICAL_DRIVES - 1];
} MR_FW_RAID_MAP_ALL;
#pragma pack()
struct IO_REQUEST_INFO {
u_int64_t ldStartBlock;
u_int32_t numBlocks;
u_int16_t ldTgtId;
u_int8_t isRead;
u_int16_t devHandle;
u_int64_t pdBlock;
u_int8_t fpOkForIo;
u_int8_t IoforUnevenSpan;
u_int8_t start_span;
u_int8_t reserved;
u_int64_t start_row;
/* span[7:5], arm[4:0] */
u_int8_t span_arm;
u_int8_t pd_after_lb;
};
typedef struct _MR_LD_TARGET_SYNC {
u_int8_t targetId;
u_int8_t reserved;
u_int16_t seqNum;
} MR_LD_TARGET_SYNC;
#define IEEE_SGE_FLAGS_ADDR_MASK (0x03)
#define IEEE_SGE_FLAGS_SYSTEM_ADDR (0x00)
#define IEEE_SGE_FLAGS_IOCDDR_ADDR (0x01)
#define IEEE_SGE_FLAGS_IOCPLB_ADDR (0x02)
#define IEEE_SGE_FLAGS_IOCPLBNTA_ADDR (0x03)
#define IEEE_SGE_FLAGS_CHAIN_ELEMENT (0x80)
#define IEEE_SGE_FLAGS_END_OF_LIST (0x40)
union desc_value {
u_int64_t word;
struct {
u_int32_t low;
u_int32_t high;
} u;
};
/*******************************************************************
* Temporary command
********************************************************************/
struct mrsas_tmp_dcmd {
bus_dma_tag_t tmp_dcmd_tag;
bus_dmamap_t tmp_dcmd_dmamap;
void *tmp_dcmd_mem;
bus_addr_t tmp_dcmd_phys_addr;
};
/*******************************************************************
* Register set, included legacy controllers 1068 and 1078,
* structure extended for 1078 registers
*******************************************************************/
#pragma pack(1)
typedef struct _mrsas_register_set {
u_int32_t doorbell; /* 0000h */
u_int32_t fusion_seq_offset; /* 0004h */
u_int32_t fusion_host_diag; /* 0008h */
u_int32_t reserved_01; /* 000Ch */
u_int32_t inbound_msg_0; /* 0010h */
u_int32_t inbound_msg_1; /* 0014h */
u_int32_t outbound_msg_0; /* 0018h */
u_int32_t outbound_msg_1; /* 001Ch */
u_int32_t inbound_doorbell; /* 0020h */
u_int32_t inbound_intr_status; /* 0024h */
u_int32_t inbound_intr_mask; /* 0028h */
u_int32_t outbound_doorbell; /* 002Ch */
u_int32_t outbound_intr_status; /* 0030h */
u_int32_t outbound_intr_mask; /* 0034h */
u_int32_t reserved_1[2]; /* 0038h */
u_int32_t inbound_queue_port; /* 0040h */
u_int32_t outbound_queue_port; /* 0044h */
u_int32_t reserved_2[9]; /* 0048h */
u_int32_t reply_post_host_index;/* 006Ch */
u_int32_t reserved_2_2[12]; /* 0070h */
u_int32_t outbound_doorbell_clear; /* 00A0h */
u_int32_t reserved_3[3]; /* 00A4h */
u_int32_t outbound_scratch_pad; /* 00B0h */
u_int32_t outbound_scratch_pad_2; /* 00B4h */
u_int32_t reserved_4[2]; /* 00B8h */
u_int32_t inbound_low_queue_port; /* 00C0h */
u_int32_t inbound_high_queue_port; /* 00C4h */
u_int32_t reserved_5; /* 00C8h */
u_int32_t res_6[11]; /* CCh */
u_int32_t host_diag;
u_int32_t seq_offset;
u_int32_t index_registers[807]; /* 00CCh */
} mrsas_reg_set;
#pragma pack()
/*******************************************************************
* Firmware Interface Defines
*******************************************************************
* MFI stands for MegaRAID SAS FW Interface. This is just a moniker
* for protocol between the software and firmware. Commands are
* issued using "message frames".
******************************************************************/
/*
* FW posts its state in upper 4 bits of outbound_msg_0 register
*/
#define MFI_STATE_MASK 0xF0000000
#define MFI_STATE_UNDEFINED 0x00000000
#define MFI_STATE_BB_INIT 0x10000000
#define MFI_STATE_FW_INIT 0x40000000
#define MFI_STATE_WAIT_HANDSHAKE 0x60000000
#define MFI_STATE_FW_INIT_2 0x70000000
#define MFI_STATE_DEVICE_SCAN 0x80000000
#define MFI_STATE_BOOT_MESSAGE_PENDING 0x90000000
#define MFI_STATE_FLUSH_CACHE 0xA0000000
#define MFI_STATE_READY 0xB0000000
#define MFI_STATE_OPERATIONAL 0xC0000000
#define MFI_STATE_FAULT 0xF0000000
#define MFI_RESET_REQUIRED 0x00000001
#define MFI_RESET_ADAPTER 0x00000002
#define MEGAMFI_FRAME_SIZE 64
#define MRSAS_MFI_FRAME_SIZE 1024
#define MRSAS_MFI_SENSE_SIZE 128
/*
* During FW init, clear pending cmds & reset state using inbound_msg_0
*
* ABORT : Abort all pending cmds READY : Move from OPERATIONAL to
* READY state; discard queue info MFIMODE : Discard (possible) low MFA
* posted in 64-bit mode (??) CLR_HANDSHAKE: FW is waiting for HANDSHAKE from
* BIOS or Driver HOTPLUG : Resume from Hotplug MFI_STOP_ADP : Send
* signal to FW to stop processing
*/
#define WRITE_SEQUENCE_OFFSET (0x0000000FC)
#define HOST_DIAGNOSTIC_OFFSET (0x000000F8)
#define DIAG_WRITE_ENABLE (0x00000080)
#define DIAG_RESET_ADAPTER (0x00000004)
#define MFI_ADP_RESET 0x00000040
#define MFI_INIT_ABORT 0x00000001
#define MFI_INIT_READY 0x00000002
#define MFI_INIT_MFIMODE 0x00000004
#define MFI_INIT_CLEAR_HANDSHAKE 0x00000008
#define MFI_INIT_HOTPLUG 0x00000010
#define MFI_STOP_ADP 0x00000020
#define MFI_RESET_FLAGS MFI_INIT_READY| \
MFI_INIT_MFIMODE| \
MFI_INIT_ABORT
/*
* MFI frame flags
*/
#define MFI_FRAME_POST_IN_REPLY_QUEUE 0x0000
#define MFI_FRAME_DONT_POST_IN_REPLY_QUEUE 0x0001
#define MFI_FRAME_SGL32 0x0000
#define MFI_FRAME_SGL64 0x0002
#define MFI_FRAME_SENSE32 0x0000
#define MFI_FRAME_SENSE64 0x0004
#define MFI_FRAME_DIR_NONE 0x0000
#define MFI_FRAME_DIR_WRITE 0x0008
#define MFI_FRAME_DIR_READ 0x0010
#define MFI_FRAME_DIR_BOTH 0x0018
#define MFI_FRAME_IEEE 0x0020
/*
* Definition for cmd_status
*/
#define MFI_CMD_STATUS_POLL_MODE 0xFF
/*
* MFI command opcodes
*/
#define MFI_CMD_INIT 0x00
#define MFI_CMD_LD_READ 0x01
#define MFI_CMD_LD_WRITE 0x02
#define MFI_CMD_LD_SCSI_IO 0x03
#define MFI_CMD_PD_SCSI_IO 0x04
#define MFI_CMD_DCMD 0x05
#define MFI_CMD_ABORT 0x06
#define MFI_CMD_SMP 0x07
#define MFI_CMD_STP 0x08
#define MFI_CMD_INVALID 0xff
#define MR_DCMD_CTRL_GET_INFO 0x01010000
#define MR_DCMD_LD_GET_LIST 0x03010000
#define MR_DCMD_CTRL_CACHE_FLUSH 0x01101000
#define MR_FLUSH_CTRL_CACHE 0x01
#define MR_FLUSH_DISK_CACHE 0x02
#define MR_DCMD_CTRL_SHUTDOWN 0x01050000
#define MR_DCMD_HIBERNATE_SHUTDOWN 0x01060000
#define MR_ENABLE_DRIVE_SPINDOWN 0x01
#define MR_DCMD_CTRL_EVENT_GET_INFO 0x01040100
#define MR_DCMD_CTRL_EVENT_GET 0x01040300
#define MR_DCMD_CTRL_EVENT_WAIT 0x01040500
#define MR_DCMD_LD_GET_PROPERTIES 0x03030000
#define MR_DCMD_CLUSTER 0x08000000
#define MR_DCMD_CLUSTER_RESET_ALL 0x08010100
#define MR_DCMD_CLUSTER_RESET_LD 0x08010200
#define MR_DCMD_PD_LIST_QUERY 0x02010100
#define MR_DCMD_CTRL_MISC_CPX 0x0100e200
#define MR_DCMD_CTRL_MISC_CPX_INIT_DATA_GET 0x0100e201
#define MR_DCMD_CTRL_MISC_CPX_QUEUE_DATA 0x0100e202
#define MR_DCMD_CTRL_MISC_CPX_UNREGISTER 0x0100e203
#define MAX_MR_ROW_SIZE 32
#define MR_CPX_DIR_WRITE 1
#define MR_CPX_DIR_READ 0
#define MR_CPX_VERSION 1
#define MR_DCMD_CTRL_IO_METRICS_GET 0x01170200
#define MR_EVT_CFG_CLEARED 0x0004
#define MR_EVT_LD_STATE_CHANGE 0x0051
#define MR_EVT_PD_INSERTED 0x005b
#define MR_EVT_PD_REMOVED 0x0070
#define MR_EVT_LD_CREATED 0x008a
#define MR_EVT_LD_DELETED 0x008b
#define MR_EVT_FOREIGN_CFG_IMPORTED 0x00db
#define MR_EVT_LD_OFFLINE 0x00fc
#define MR_EVT_CTRL_HOST_BUS_SCAN_REQUESTED 0x0152
#define MR_EVT_CTRL_PERF_COLLECTION 0x017e
/*
* MFI command completion codes
*/
enum MFI_STAT {
MFI_STAT_OK = 0x00,
MFI_STAT_INVALID_CMD = 0x01,
MFI_STAT_INVALID_DCMD = 0x02,
MFI_STAT_INVALID_PARAMETER = 0x03,
MFI_STAT_INVALID_SEQUENCE_NUMBER = 0x04,
MFI_STAT_ABORT_NOT_POSSIBLE = 0x05,
MFI_STAT_APP_HOST_CODE_NOT_FOUND = 0x06,
MFI_STAT_APP_IN_USE = 0x07,
MFI_STAT_APP_NOT_INITIALIZED = 0x08,
MFI_STAT_ARRAY_INDEX_INVALID = 0x09,
MFI_STAT_ARRAY_ROW_NOT_EMPTY = 0x0a,
MFI_STAT_CONFIG_RESOURCE_CONFLICT = 0x0b,
MFI_STAT_DEVICE_NOT_FOUND = 0x0c,
MFI_STAT_DRIVE_TOO_SMALL = 0x0d,
MFI_STAT_FLASH_ALLOC_FAIL = 0x0e,
MFI_STAT_FLASH_BUSY = 0x0f,
MFI_STAT_FLASH_ERROR = 0x10,
MFI_STAT_FLASH_IMAGE_BAD = 0x11,
MFI_STAT_FLASH_IMAGE_INCOMPLETE = 0x12,
MFI_STAT_FLASH_NOT_OPEN = 0x13,
MFI_STAT_FLASH_NOT_STARTED = 0x14,
MFI_STAT_FLUSH_FAILED = 0x15,
MFI_STAT_HOST_CODE_NOT_FOUNT = 0x16,
MFI_STAT_LD_CC_IN_PROGRESS = 0x17,
MFI_STAT_LD_INIT_IN_PROGRESS = 0x18,
MFI_STAT_LD_LBA_OUT_OF_RANGE = 0x19,
MFI_STAT_LD_MAX_CONFIGURED = 0x1a,
MFI_STAT_LD_NOT_OPTIMAL = 0x1b,
MFI_STAT_LD_RBLD_IN_PROGRESS = 0x1c,
MFI_STAT_LD_RECON_IN_PROGRESS = 0x1d,
MFI_STAT_LD_WRONG_RAID_LEVEL = 0x1e,
MFI_STAT_MAX_SPARES_EXCEEDED = 0x1f,
MFI_STAT_MEMORY_NOT_AVAILABLE = 0x20,
MFI_STAT_MFC_HW_ERROR = 0x21,
MFI_STAT_NO_HW_PRESENT = 0x22,
MFI_STAT_NOT_FOUND = 0x23,
MFI_STAT_NOT_IN_ENCL = 0x24,
MFI_STAT_PD_CLEAR_IN_PROGRESS = 0x25,
MFI_STAT_PD_TYPE_WRONG = 0x26,
MFI_STAT_PR_DISABLED = 0x27,
MFI_STAT_ROW_INDEX_INVALID = 0x28,
MFI_STAT_SAS_CONFIG_INVALID_ACTION = 0x29,
MFI_STAT_SAS_CONFIG_INVALID_DATA = 0x2a,
MFI_STAT_SAS_CONFIG_INVALID_PAGE = 0x2b,
MFI_STAT_SAS_CONFIG_INVALID_TYPE = 0x2c,
MFI_STAT_SCSI_DONE_WITH_ERROR = 0x2d,
MFI_STAT_SCSI_IO_FAILED = 0x2e,
MFI_STAT_SCSI_RESERVATION_CONFLICT = 0x2f,
MFI_STAT_SHUTDOWN_FAILED = 0x30,
MFI_STAT_TIME_NOT_SET = 0x31,
MFI_STAT_WRONG_STATE = 0x32,
MFI_STAT_LD_OFFLINE = 0x33,
MFI_STAT_PEER_NOTIFICATION_REJECTED = 0x34,
MFI_STAT_PEER_NOTIFICATION_FAILED = 0x35,
MFI_STAT_RESERVATION_IN_PROGRESS = 0x36,
MFI_STAT_I2C_ERRORS_DETECTED = 0x37,
MFI_STAT_PCI_ERRORS_DETECTED = 0x38,
MFI_STAT_CONFIG_SEQ_MISMATCH = 0x67,
MFI_STAT_INVALID_STATUS = 0xFF
};
/*
* Number of mailbox bytes in DCMD message frame
*/
#define MFI_MBOX_SIZE 12
enum MR_EVT_CLASS {
MR_EVT_CLASS_DEBUG = -2,
MR_EVT_CLASS_PROGRESS = -1,
MR_EVT_CLASS_INFO = 0,
MR_EVT_CLASS_WARNING = 1,
MR_EVT_CLASS_CRITICAL = 2,
MR_EVT_CLASS_FATAL = 3,
MR_EVT_CLASS_DEAD = 4,
};
enum MR_EVT_LOCALE {
MR_EVT_LOCALE_LD = 0x0001,
MR_EVT_LOCALE_PD = 0x0002,
MR_EVT_LOCALE_ENCL = 0x0004,
MR_EVT_LOCALE_BBU = 0x0008,
MR_EVT_LOCALE_SAS = 0x0010,
MR_EVT_LOCALE_CTRL = 0x0020,
MR_EVT_LOCALE_CONFIG = 0x0040,
MR_EVT_LOCALE_CLUSTER = 0x0080,
MR_EVT_LOCALE_ALL = 0xffff,
};
enum MR_EVT_ARGS {
MR_EVT_ARGS_NONE,
MR_EVT_ARGS_CDB_SENSE,
MR_EVT_ARGS_LD,
MR_EVT_ARGS_LD_COUNT,
MR_EVT_ARGS_LD_LBA,
MR_EVT_ARGS_LD_OWNER,
MR_EVT_ARGS_LD_LBA_PD_LBA,
MR_EVT_ARGS_LD_PROG,
MR_EVT_ARGS_LD_STATE,
MR_EVT_ARGS_LD_STRIP,
MR_EVT_ARGS_PD,
MR_EVT_ARGS_PD_ERR,
MR_EVT_ARGS_PD_LBA,
MR_EVT_ARGS_PD_LBA_LD,
MR_EVT_ARGS_PD_PROG,
MR_EVT_ARGS_PD_STATE,
MR_EVT_ARGS_PCI,
MR_EVT_ARGS_RATE,
MR_EVT_ARGS_STR,
MR_EVT_ARGS_TIME,
MR_EVT_ARGS_ECC,
MR_EVT_ARGS_LD_PROP,
MR_EVT_ARGS_PD_SPARE,
MR_EVT_ARGS_PD_INDEX,
MR_EVT_ARGS_DIAG_PASS,
MR_EVT_ARGS_DIAG_FAIL,
MR_EVT_ARGS_PD_LBA_LBA,
MR_EVT_ARGS_PORT_PHY,
MR_EVT_ARGS_PD_MISSING,
MR_EVT_ARGS_PD_ADDRESS,
MR_EVT_ARGS_BITMAP,
MR_EVT_ARGS_CONNECTOR,
MR_EVT_ARGS_PD_PD,
MR_EVT_ARGS_PD_FRU,
MR_EVT_ARGS_PD_PATHINFO,
MR_EVT_ARGS_PD_POWER_STATE,
MR_EVT_ARGS_GENERIC,
};
/*
* Thunderbolt (and later) Defines
*/
#define MRSAS_MAX_SZ_CHAIN_FRAME 1024
#define MFI_FUSION_ENABLE_INTERRUPT_MASK (0x00000009)
#define MRSAS_MPI2_RAID_DEFAULT_IO_FRAME_SIZE 256
#define MRSAS_MPI2_FUNCTION_PASSTHRU_IO_REQUEST 0xF0
#define MRSAS_MPI2_FUNCTION_LD_IO_REQUEST 0xF1
#define MRSAS_LOAD_BALANCE_FLAG 0x1
#define MRSAS_DCMD_MBOX_PEND_FLAG 0x1
#define HOST_DIAG_WRITE_ENABLE 0x80
#define HOST_DIAG_RESET_ADAPTER 0x4
#define MRSAS_TBOLT_MAX_RESET_TRIES 3
#define MRSAS_MAX_MFI_CMDS 32
/*
* Invader Defines
*/
#define MPI2_TYPE_CUDA 0x2
#define MPI25_SAS_DEVICE0_FLAGS_ENABLED_FAST_PATH 0x4000
#define MR_RL_FLAGS_GRANT_DESTINATION_CPU0 0x00
#define MR_RL_FLAGS_GRANT_DESTINATION_CPU1 0x10
#define MR_RL_FLAGS_GRANT_DESTINATION_CUDA 0x80
#define MR_RL_FLAGS_SEQ_NUM_ENABLE 0x8
/*
* T10 PI defines
*/
#define MR_PROT_INFO_TYPE_CONTROLLER 0x8
#define MRSAS_SCSI_VARIABLE_LENGTH_CMD 0x7f
#define MRSAS_SCSI_SERVICE_ACTION_READ32 0x9
#define MRSAS_SCSI_SERVICE_ACTION_WRITE32 0xB
#define MRSAS_SCSI_ADDL_CDB_LEN 0x18
#define MRSAS_RD_WR_PROTECT_CHECK_ALL 0x20
#define MRSAS_RD_WR_PROTECT_CHECK_NONE 0x60
#define MRSAS_SCSIBLOCKSIZE 512
/*
* Raid context flags
*/
#define MR_RAID_CTX_RAID_FLAGS_IO_SUB_TYPE_SHIFT 0x4
#define MR_RAID_CTX_RAID_FLAGS_IO_SUB_TYPE_MASK 0x30
typedef enum MR_RAID_FLAGS_IO_SUB_TYPE {
MR_RAID_FLAGS_IO_SUB_TYPE_NONE = 0,
MR_RAID_FLAGS_IO_SUB_TYPE_SYSTEM_PD = 1,
} MR_RAID_FLAGS_IO_SUB_TYPE;
/*
* Request descriptor types
*/
#define MRSAS_REQ_DESCRIPT_FLAGS_LD_IO 0x7
#define MRSAS_REQ_DESCRIPT_FLAGS_MFA 0x1
#define MRSAS_REQ_DESCRIPT_FLAGS_NO_LOCK 0x2
#define MRSAS_REQ_DESCRIPT_FLAGS_TYPE_SHIFT 1
#define MRSAS_FP_CMD_LEN 16
#define MRSAS_FUSION_IN_RESET 0
#define RAID_CTX_SPANARM_ARM_SHIFT (0)
#define RAID_CTX_SPANARM_ARM_MASK (0x1f)
#define RAID_CTX_SPANARM_SPAN_SHIFT (5)
#define RAID_CTX_SPANARM_SPAN_MASK (0xE0)
/*
* Define region lock types
*/
typedef enum _REGION_TYPE {
REGION_TYPE_UNUSED = 0,
REGION_TYPE_SHARED_READ = 1,
REGION_TYPE_SHARED_WRITE = 2,
REGION_TYPE_EXCLUSIVE = 3,
} REGION_TYPE;
/*
* SCSI-CAM Related Defines
*/
#define MRSAS_SCSI_MAX_LUNS 0
#define MRSAS_SCSI_INITIATOR_ID 255
#define MRSAS_SCSI_MAX_CMDS 8
#define MRSAS_SCSI_MAX_CDB_LEN 16
#define MRSAS_SCSI_SENSE_BUFFERSIZE 96
#define MRSAS_MAX_SGL 70
#define MRSAS_MAX_IO_SIZE (256 * 1024)
#define MRSAS_INTERNAL_CMDS 32
/* Request types */
#define MRSAS_REQ_TYPE_INTERNAL_CMD 0x0
#define MRSAS_REQ_TYPE_AEN_FETCH 0x1
#define MRSAS_REQ_TYPE_PASSTHRU 0x2
#define MRSAS_REQ_TYPE_GETSET_PARAM 0x3
#define MRSAS_REQ_TYPE_SCSI_IO 0x4
/* Request states */
#define MRSAS_REQ_STATE_FREE 0
#define MRSAS_REQ_STATE_BUSY 1
#define MRSAS_REQ_STATE_TRAN 2
#define MRSAS_REQ_STATE_COMPLETE 3
typedef enum _MR_SCSI_CMD_TYPE {
READ_WRITE_LDIO = 0,
NON_READ_WRITE_LDIO = 1,
READ_WRITE_SYSPDIO = 2,
NON_READ_WRITE_SYSPDIO = 3,
} MR_SCSI_CMD_TYPE;
enum mrsas_req_flags {
MRSAS_DIR_UNKNOWN = 0x1,
MRSAS_DIR_IN = 0x2,
MRSAS_DIR_OUT = 0x4,
MRSAS_DIR_NONE = 0x8,
};
/*
* Adapter Reset States
*/
enum {
MRSAS_HBA_OPERATIONAL = 0,
MRSAS_ADPRESET_SM_INFAULT = 1,
MRSAS_ADPRESET_SM_FW_RESET_SUCCESS = 2,
MRSAS_ADPRESET_SM_OPERATIONAL = 3,
MRSAS_HW_CRITICAL_ERROR = 4,
MRSAS_ADPRESET_INPROG_SIGN = 0xDEADDEAD,
};
/*
* MPT Command Structure
*/
struct mrsas_mpt_cmd {
MRSAS_RAID_SCSI_IO_REQUEST *io_request;
bus_addr_t io_request_phys_addr;
MPI2_SGE_IO_UNION *chain_frame;
bus_addr_t chain_frame_phys_addr;
u_int32_t sge_count;
u_int8_t *sense;
bus_addr_t sense_phys_addr;
u_int8_t retry_for_fw_reset;
MRSAS_REQUEST_DESCRIPTOR_UNION *request_desc;
u_int32_t sync_cmd_idx;
u_int32_t index;
u_int8_t flags;
u_int8_t pd_r1_lb;
u_int8_t load_balance;
bus_size_t length;
u_int32_t error_code;
bus_dmamap_t data_dmamap;
void *data;
union ccb *ccb_ptr;
struct callout cm_callout;
struct mrsas_softc *sc;
TAILQ_ENTRY(mrsas_mpt_cmd) next;
};
/*
* MFI Command Structure
*/
struct mrsas_mfi_cmd {
union mrsas_frame *frame;
bus_dmamap_t frame_dmamap;
void *frame_mem;
bus_addr_t frame_phys_addr;
u_int8_t *sense;
bus_dmamap_t sense_dmamap;
void *sense_mem;
bus_addr_t sense_phys_addr;
u_int32_t index;
u_int8_t sync_cmd;
u_int8_t cmd_status;
u_int8_t abort_aen;
u_int8_t retry_for_fw_reset;
struct mrsas_softc *sc;
union ccb *ccb_ptr;
union {
struct {
u_int16_t smid;
u_int16_t resvd;
} context;
u_int32_t frame_count;
} cmd_id;
TAILQ_ENTRY(mrsas_mfi_cmd) next;
};
/*
* define constants for device list query options
*/
enum MR_PD_QUERY_TYPE {
MR_PD_QUERY_TYPE_ALL = 0,
MR_PD_QUERY_TYPE_STATE = 1,
MR_PD_QUERY_TYPE_POWER_STATE = 2,
MR_PD_QUERY_TYPE_MEDIA_TYPE = 3,
MR_PD_QUERY_TYPE_SPEED = 4,
MR_PD_QUERY_TYPE_EXPOSED_TO_HOST = 5,
};
#define MR_EVT_CFG_CLEARED 0x0004
#define MR_EVT_LD_STATE_CHANGE 0x0051
#define MR_EVT_PD_INSERTED 0x005b
#define MR_EVT_PD_REMOVED 0x0070
#define MR_EVT_LD_CREATED 0x008a
#define MR_EVT_LD_DELETED 0x008b
#define MR_EVT_FOREIGN_CFG_IMPORTED 0x00db
#define MR_EVT_LD_OFFLINE 0x00fc
#define MR_EVT_CTRL_HOST_BUS_SCAN_REQUESTED 0x0152
enum MR_PD_STATE {
MR_PD_STATE_UNCONFIGURED_GOOD = 0x00,
MR_PD_STATE_UNCONFIGURED_BAD = 0x01,
MR_PD_STATE_HOT_SPARE = 0x02,
MR_PD_STATE_OFFLINE = 0x10,
MR_PD_STATE_FAILED = 0x11,
MR_PD_STATE_REBUILD = 0x14,
MR_PD_STATE_ONLINE = 0x18,
MR_PD_STATE_COPYBACK = 0x20,
MR_PD_STATE_SYSTEM = 0x40,
};
/*
* defines the physical drive address structure
*/
#pragma pack(1)
struct MR_PD_ADDRESS {
u_int16_t deviceId;
u_int16_t enclDeviceId;
union {
struct {
u_int8_t enclIndex;
u_int8_t slotNumber;
} mrPdAddress;
struct {
u_int8_t enclPosition;
u_int8_t enclConnectorIndex;
} mrEnclAddress;
} u1;
u_int8_t scsiDevType;
union {
u_int8_t connectedPortBitmap;
u_int8_t connectedPortNumbers;
} u2;
u_int64_t sasAddr[2];
};
#pragma pack()
/*
* defines the physical drive list structure
*/
#pragma pack(1)
struct MR_PD_LIST {
u_int32_t size;
u_int32_t count;
struct MR_PD_ADDRESS addr[1];
};
#pragma pack()
#pragma pack(1)
struct mrsas_pd_list {
u_int16_t tid;
u_int8_t driveType;
u_int8_t driveState;
};
#pragma pack()
/*
* defines the logical drive reference structure
*/
typedef union _MR_LD_REF {
struct {
u_int8_t targetId;
u_int8_t reserved;
u_int16_t seqNum;
} ld_context;
u_int32_t ref;
} MR_LD_REF;
/*
* defines the logical drive list structure
*/
#pragma pack(1)
struct MR_LD_LIST {
u_int32_t ldCount;
u_int32_t reserved;
struct {
MR_LD_REF ref;
u_int8_t state;
u_int8_t reserved[3];
u_int64_t size;
} ldList[MAX_LOGICAL_DRIVES_EXT];
};
#pragma pack()
/*
* SAS controller properties
*/
#pragma pack(1)
struct mrsas_ctrl_prop {
u_int16_t seq_num;
u_int16_t pred_fail_poll_interval;
u_int16_t intr_throttle_count;
u_int16_t intr_throttle_timeouts;
u_int8_t rebuild_rate;
u_int8_t patrol_read_rate;
u_int8_t bgi_rate;
u_int8_t cc_rate;
u_int8_t recon_rate;
u_int8_t cache_flush_interval;
u_int8_t spinup_drv_count;
u_int8_t spinup_delay;
u_int8_t cluster_enable;
u_int8_t coercion_mode;
u_int8_t alarm_enable;
u_int8_t disable_auto_rebuild;
u_int8_t disable_battery_warn;
u_int8_t ecc_bucket_size;
u_int16_t ecc_bucket_leak_rate;
u_int8_t restore_hotspare_on_insertion;
u_int8_t expose_encl_devices;
u_int8_t maintainPdFailHistory;
u_int8_t disallowHostRequestReordering;
u_int8_t abortCCOnError;
u_int8_t loadBalanceMode;
u_int8_t disableAutoDetectBackplane;
u_int8_t snapVDSpace;
/*
* Add properties that can be controlled by a bit in the following
* structure.
*/
struct {
u_int32_t copyBackDisabled:1;
u_int32_t SMARTerEnabled:1;
u_int32_t prCorrectUnconfiguredAreas:1;
u_int32_t useFdeOnly:1;
u_int32_t disableNCQ:1;
u_int32_t SSDSMARTerEnabled:1;
u_int32_t SSDPatrolReadEnabled:1;
u_int32_t enableSpinDownUnconfigured:1;
u_int32_t autoEnhancedImport:1;
u_int32_t enableSecretKeyControl:1;
u_int32_t disableOnlineCtrlReset:1;
u_int32_t allowBootWithPinnedCache:1;
u_int32_t disableSpinDownHS:1;
u_int32_t enableJBOD:1;
u_int32_t disableCacheBypass:1;
u_int32_t useDiskActivityForLocate:1;
u_int32_t enablePI:1;
u_int32_t preventPIImport:1;
u_int32_t useGlobalSparesForEmergency:1;
u_int32_t useUnconfGoodForEmergency:1;
u_int32_t useEmergencySparesforSMARTer:1;
u_int32_t forceSGPIOForQuadOnly:1;
u_int32_t enableConfigAutoBalance:1;
u_int32_t enableVirtualCache:1;
u_int32_t enableAutoLockRecovery:1;
u_int32_t disableImmediateIO:1;
u_int32_t disableT10RebuildAssist:1;
u_int32_t ignore64ldRestriction:1;
u_int32_t enableSwZone:1;
u_int32_t limitMaxRateSATA3G:1;
u_int32_t reserved:2;
} OnOffProperties;
u_int8_t autoSnapVDSpace;
u_int8_t viewSpace;
u_int16_t spinDownTime;
u_int8_t reserved[24];
};
#pragma pack()
/*
* SAS controller information
*/
struct mrsas_ctrl_info {
/*
* PCI device information
*/
struct {
u_int16_t vendor_id;
u_int16_t device_id;
u_int16_t sub_vendor_id;
u_int16_t sub_device_id;
u_int8_t reserved[24];
} __packed pci;
/*
* Host interface information
*/
struct {
u_int8_t PCIX:1;
u_int8_t PCIE:1;
u_int8_t iSCSI:1;
u_int8_t SAS_3G:1;
u_int8_t reserved_0:4;
u_int8_t reserved_1[6];
u_int8_t port_count;
u_int64_t port_addr[8];
} __packed host_interface;
/*
* Device (backend) interface information
*/
struct {
u_int8_t SPI:1;
u_int8_t SAS_3G:1;
u_int8_t SATA_1_5G:1;
u_int8_t SATA_3G:1;
u_int8_t reserved_0:4;
u_int8_t reserved_1[6];
u_int8_t port_count;
u_int64_t port_addr[8];
} __packed device_interface;
u_int32_t image_check_word;
u_int32_t image_component_count;
struct {
char name[8];
char version[32];
char build_date[16];
char built_time[16];
} __packed image_component[8];
u_int32_t pending_image_component_count;
struct {
char name[8];
char version[32];
char build_date[16];
char build_time[16];
} __packed pending_image_component[8];
u_int8_t max_arms;
u_int8_t max_spans;
u_int8_t max_arrays;
u_int8_t max_lds;
char product_name[80];
char serial_no[32];
/*
* Other physical/controller/operation information. Indicates the
* presence of the hardware
*/
struct {
u_int32_t bbu:1;
u_int32_t alarm:1;
u_int32_t nvram:1;
u_int32_t uart:1;
u_int32_t reserved:28;
} __packed hw_present;
u_int32_t current_fw_time;
/*
* Maximum data transfer sizes
*/
u_int16_t max_concurrent_cmds;
u_int16_t max_sge_count;
u_int32_t max_request_size;
/*
* Logical and physical device counts
*/
u_int16_t ld_present_count;
u_int16_t ld_degraded_count;
u_int16_t ld_offline_count;
u_int16_t pd_present_count;
u_int16_t pd_disk_present_count;
u_int16_t pd_disk_pred_failure_count;
u_int16_t pd_disk_failed_count;
/*
* Memory size information
*/
u_int16_t nvram_size;
u_int16_t memory_size;
u_int16_t flash_size;
/*
* Error counters
*/
u_int16_t mem_correctable_error_count;
u_int16_t mem_uncorrectable_error_count;
/*
* Cluster information
*/
u_int8_t cluster_permitted;
u_int8_t cluster_active;
/*
* Additional max data transfer sizes
*/
u_int16_t max_strips_per_io;
/*
* Controller capabilities structures
*/
struct {
u_int32_t raid_level_0:1;
u_int32_t raid_level_1:1;
u_int32_t raid_level_5:1;
u_int32_t raid_level_1E:1;
u_int32_t raid_level_6:1;
u_int32_t reserved:27;
} __packed raid_levels;
struct {
u_int32_t rbld_rate:1;
u_int32_t cc_rate:1;
u_int32_t bgi_rate:1;
u_int32_t recon_rate:1;
u_int32_t patrol_rate:1;
u_int32_t alarm_control:1;
u_int32_t cluster_supported:1;
u_int32_t bbu:1;
u_int32_t spanning_allowed:1;
u_int32_t dedicated_hotspares:1;
u_int32_t revertible_hotspares:1;
u_int32_t foreign_config_import:1;
u_int32_t self_diagnostic:1;
u_int32_t mixed_redundancy_arr:1;
u_int32_t global_hot_spares:1;
u_int32_t reserved:17;
} __packed adapter_operations;
struct {
u_int32_t read_policy:1;
u_int32_t write_policy:1;
u_int32_t io_policy:1;
u_int32_t access_policy:1;
u_int32_t disk_cache_policy:1;
u_int32_t reserved:27;
} __packed ld_operations;
struct {
u_int8_t min;
u_int8_t max;
u_int8_t reserved[2];
} __packed stripe_sz_ops;
struct {
u_int32_t force_online:1;
u_int32_t force_offline:1;
u_int32_t force_rebuild:1;
u_int32_t reserved:29;
} __packed pd_operations;
struct {
u_int32_t ctrl_supports_sas:1;
u_int32_t ctrl_supports_sata:1;
u_int32_t allow_mix_in_encl:1;
u_int32_t allow_mix_in_ld:1;
u_int32_t allow_sata_in_cluster:1;
u_int32_t reserved:27;
} __packed pd_mix_support;
/*
* Define ECC single-bit-error bucket information
*/
u_int8_t ecc_bucket_count;
u_int8_t reserved_2[11];
/*
* Include the controller properties (changeable items)
*/
struct mrsas_ctrl_prop properties;
/*
* Define FW pkg version (set in envt v'bles on OEM basis)
*/
char package_version[0x60];
u_int64_t deviceInterfacePortAddr2[8];
u_int8_t reserved3[128];
struct {
u_int16_t minPdRaidLevel_0:4;
u_int16_t maxPdRaidLevel_0:12;
u_int16_t minPdRaidLevel_1:4;
u_int16_t maxPdRaidLevel_1:12;
u_int16_t minPdRaidLevel_5:4;
u_int16_t maxPdRaidLevel_5:12;
u_int16_t minPdRaidLevel_1E:4;
u_int16_t maxPdRaidLevel_1E:12;
u_int16_t minPdRaidLevel_6:4;
u_int16_t maxPdRaidLevel_6:12;
u_int16_t minPdRaidLevel_10:4;
u_int16_t maxPdRaidLevel_10:12;
u_int16_t minPdRaidLevel_50:4;
u_int16_t maxPdRaidLevel_50:12;
u_int16_t minPdRaidLevel_60:4;
u_int16_t maxPdRaidLevel_60:12;
u_int16_t minPdRaidLevel_1E_RLQ0:4;
u_int16_t maxPdRaidLevel_1E_RLQ0:12;
u_int16_t minPdRaidLevel_1E0_RLQ0:4;
u_int16_t maxPdRaidLevel_1E0_RLQ0:12;
u_int16_t reserved[6];
} pdsForRaidLevels;
u_int16_t maxPds; /* 0x780 */
u_int16_t maxDedHSPs; /* 0x782 */
u_int16_t maxGlobalHSPs; /* 0x784 */
u_int16_t ddfSize; /* 0x786 */
u_int8_t maxLdsPerArray; /* 0x788 */
u_int8_t partitionsInDDF; /* 0x789 */
u_int8_t lockKeyBinding; /* 0x78a */
u_int8_t maxPITsPerLd; /* 0x78b */
u_int8_t maxViewsPerLd; /* 0x78c */
u_int8_t maxTargetId; /* 0x78d */
u_int16_t maxBvlVdSize; /* 0x78e */
u_int16_t maxConfigurableSSCSize; /* 0x790 */
u_int16_t currentSSCsize; /* 0x792 */
char expanderFwVersion[12]; /* 0x794 */
u_int16_t PFKTrialTimeRemaining;/* 0x7A0 */
u_int16_t cacheMemorySize; /* 0x7A2 */
struct { /* 0x7A4 */
u_int32_t supportPIcontroller:1;
u_int32_t supportLdPIType1:1;
u_int32_t supportLdPIType2:1;
u_int32_t supportLdPIType3:1;
u_int32_t supportLdBBMInfo:1;
u_int32_t supportShieldState:1;
u_int32_t blockSSDWriteCacheChange:1;
u_int32_t supportSuspendResumeBGops:1;
u_int32_t supportEmergencySpares:1;
u_int32_t supportSetLinkSpeed:1;
u_int32_t supportBootTimePFKChange:1;
u_int32_t supportJBOD:1;
u_int32_t disableOnlinePFKChange:1;
u_int32_t supportPerfTuning:1;
u_int32_t supportSSDPatrolRead:1;
u_int32_t realTimeScheduler:1;
u_int32_t supportResetNow:1;
u_int32_t supportEmulatedDrives:1;
u_int32_t headlessMode:1;
u_int32_t dedicatedHotSparesLimited:1;
u_int32_t supportUnevenSpans:1;
u_int32_t reserved:11;
} adapterOperations2;
u_int8_t driverVersion[32]; /* 0x7A8 */
u_int8_t maxDAPdCountSpinup60; /* 0x7C8 */
u_int8_t temperatureROC; /* 0x7C9 */
u_int8_t temperatureCtrl; /* 0x7CA */
u_int8_t reserved4; /* 0x7CB */
u_int16_t maxConfigurablePds; /* 0x7CC */
u_int8_t reserved5[2]; /* 0x7CD reserved */
struct {
u_int32_t peerIsPresent:1;
u_int32_t peerIsIncompatible:1;
u_int32_t hwIncompatible:1;
u_int32_t fwVersionMismatch:1;
u_int32_t ctrlPropIncompatible:1;
u_int32_t premiumFeatureMismatch:1;
u_int32_t reserved:26;
} cluster;
char clusterId[16]; /* 0x7D4 */
char reserved6[4]; /* 0x7E4 RESERVED FOR IOV */
struct { /* 0x7E8 */
u_int32_t supportPersonalityChange:2;
u_int32_t supportThermalPollInterval:1;
u_int32_t supportDisableImmediateIO:1;
u_int32_t supportT10RebuildAssist:1;
u_int32_t supportMaxExtLDs:1;
u_int32_t supportCrashDump:1;
u_int32_t supportSwZone:1;
u_int32_t supportDebugQueue:1;
u_int32_t supportNVCacheErase:1;
u_int32_t supportForceTo512e:1;
u_int32_t supportHOQRebuild:1;
u_int32_t supportAllowedOpsforDrvRemoval:1;
u_int32_t supportDrvActivityLEDSetting:1;
u_int32_t supportNVDRAM:1;
u_int32_t supportForceFlash:1;
u_int32_t supportDisableSESMonitoring:1;
u_int32_t supportCacheBypassModes:1;
u_int32_t supportSecurityonJBOD:1;
u_int32_t discardCacheDuringLDDelete:1;
u_int32_t reserved:12;
} adapterOperations3;
u_int8_t pad[0x800 - 0x7EC]; /* 0x7EC */
} __packed;
/*
* When SCSI mid-layer calls driver's reset routine, driver waits for
* MRSAS_RESET_WAIT_TIME seconds for all outstanding IO to complete. Note
* that the driver cannot _actually_ abort or reset pending commands. While
* it is waiting for the commands to complete, it prints a diagnostic message
* every MRSAS_RESET_NOTICE_INTERVAL seconds
*/
#define MRSAS_RESET_WAIT_TIME 180
#define MRSAS_INTERNAL_CMD_WAIT_TIME 180
#define MRSAS_IOC_INIT_WAIT_TIME 60
#define MRSAS_RESET_NOTICE_INTERVAL 5
#define MRSAS_IOCTL_CMD 0
#define MRSAS_DEFAULT_CMD_TIMEOUT 90
#define MRSAS_THROTTLE_QUEUE_DEPTH 16
/*
* MSI-x regsiters offset defines
*/
#define MPI2_SUP_REPLY_POST_HOST_INDEX_OFFSET (0x0000030C)
#define MPI2_REPLY_POST_HOST_INDEX_OFFSET (0x0000006C)
#define MR_MAX_REPLY_QUEUES_OFFSET (0x0000001F)
#define MR_MAX_REPLY_QUEUES_EXT_OFFSET (0x003FC000)
#define MR_MAX_REPLY_QUEUES_EXT_OFFSET_SHIFT 14
#define MR_MAX_MSIX_REG_ARRAY 16
/*
* FW reports the maximum of number of commands that it can accept (maximum
* commands that can be outstanding) at any time. The driver must report a
* lower number to the mid layer because it can issue a few internal commands
* itself (E.g, AEN, abort cmd, IOCTLs etc). The number of commands it needs
* is shown below
*/
#define MRSAS_INT_CMDS 32
#define MRSAS_SKINNY_INT_CMDS 5
#define MRSAS_MAX_MSIX_QUEUES 128
/*
* FW can accept both 32 and 64 bit SGLs. We want to allocate 32/64 bit SGLs
* based on the size of bus_addr_t
*/
#define IS_DMA64 (sizeof(bus_addr_t) == 8)
#define MFI_XSCALE_OMR0_CHANGE_INTERRUPT 0x00000001
#define MFI_INTR_FLAG_REPLY_MESSAGE 0x00000001
#define MFI_INTR_FLAG_FIRMWARE_STATE_CHANGE 0x00000002
#define MFI_G2_OUTBOUND_DOORBELL_CHANGE_INTERRUPT 0x00000004
#define MFI_OB_INTR_STATUS_MASK 0x00000002
#define MFI_POLL_TIMEOUT_SECS 60
#define MFI_REPLY_1078_MESSAGE_INTERRUPT 0x80000000
#define MFI_REPLY_GEN2_MESSAGE_INTERRUPT 0x00000001
#define MFI_GEN2_ENABLE_INTERRUPT_MASK 0x00000001
#define MFI_REPLY_SKINNY_MESSAGE_INTERRUPT 0x40000000
#define MFI_SKINNY_ENABLE_INTERRUPT_MASK (0x00000001)
#define MFI_1068_PCSR_OFFSET 0x84
#define MFI_1068_FW_HANDSHAKE_OFFSET 0x64
#define MFI_1068_FW_READY 0xDDDD0000
typedef union _MFI_CAPABILITIES {
struct {
u_int32_t support_fp_remote_lun:1;
u_int32_t support_additional_msix:1;
u_int32_t support_fastpath_wb:1;
u_int32_t support_max_255lds:1;
u_int32_t support_ndrive_r1_lb:1;
u_int32_t support_core_affinity:1;
u_int32_t security_protocol_cmds_fw:1;
u_int32_t reserved:25;
} mfi_capabilities;
u_int32_t reg;
} MFI_CAPABILITIES;
#pragma pack(1)
struct mrsas_sge32 {
u_int32_t phys_addr;
u_int32_t length;
};
#pragma pack()
#pragma pack(1)
struct mrsas_sge64 {
u_int64_t phys_addr;
u_int32_t length;
};
#pragma pack()
#pragma pack()
union mrsas_sgl {
struct mrsas_sge32 sge32[1];
struct mrsas_sge64 sge64[1];
};
#pragma pack()
#pragma pack(1)
struct mrsas_header {
u_int8_t cmd; /* 00e */
u_int8_t sense_len; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t scsi_status; /* 03h */
u_int8_t target_id; /* 04h */
u_int8_t lun; /* 05h */
u_int8_t cdb_len; /* 06h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t data_xferlen; /* 14h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_init_frame {
u_int8_t cmd; /* 00h */
u_int8_t reserved_0; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t reserved_1; /* 03h */
MFI_CAPABILITIES driver_operations; /* 04h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t reserved_3; /* 12h */
u_int32_t data_xfer_len; /* 14h */
u_int32_t queue_info_new_phys_addr_lo; /* 18h */
u_int32_t queue_info_new_phys_addr_hi; /* 1Ch */
u_int32_t queue_info_old_phys_addr_lo; /* 20h */
u_int32_t queue_info_old_phys_addr_hi; /* 24h */
u_int32_t driver_ver_lo; /* 28h */
u_int32_t driver_ver_hi; /* 2Ch */
u_int32_t reserved_4[4]; /* 30h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_io_frame {
u_int8_t cmd; /* 00h */
u_int8_t sense_len; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t scsi_status; /* 03h */
u_int8_t target_id; /* 04h */
u_int8_t access_byte; /* 05h */
u_int8_t reserved_0; /* 06h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t lba_count; /* 14h */
u_int32_t sense_buf_phys_addr_lo; /* 18h */
u_int32_t sense_buf_phys_addr_hi; /* 1Ch */
u_int32_t start_lba_lo; /* 20h */
u_int32_t start_lba_hi; /* 24h */
union mrsas_sgl sgl; /* 28h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_pthru_frame {
u_int8_t cmd; /* 00h */
u_int8_t sense_len; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t scsi_status; /* 03h */
u_int8_t target_id; /* 04h */
u_int8_t lun; /* 05h */
u_int8_t cdb_len; /* 06h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t data_xfer_len; /* 14h */
u_int32_t sense_buf_phys_addr_lo; /* 18h */
u_int32_t sense_buf_phys_addr_hi; /* 1Ch */
u_int8_t cdb[16]; /* 20h */
union mrsas_sgl sgl; /* 30h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_dcmd_frame {
u_int8_t cmd; /* 00h */
u_int8_t reserved_0; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t reserved_1[4]; /* 03h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t data_xfer_len; /* 14h */
u_int32_t opcode; /* 18h */
union { /* 1Ch */
u_int8_t b[12];
u_int16_t s[6];
u_int32_t w[3];
} mbox;
union mrsas_sgl sgl; /* 28h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_abort_frame {
u_int8_t cmd; /* 00h */
u_int8_t reserved_0; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t reserved_1; /* 03h */
MFI_CAPABILITIES driver_operations; /* 04h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t reserved_3; /* 12h */
u_int32_t reserved_4; /* 14h */
u_int32_t abort_context; /* 18h */
u_int32_t pad_1; /* 1Ch */
u_int32_t abort_mfi_phys_addr_lo; /* 20h */
u_int32_t abort_mfi_phys_addr_hi; /* 24h */
u_int32_t reserved_5[6]; /* 28h */
};
#pragma pack()
#pragma pack(1)
struct mrsas_smp_frame {
u_int8_t cmd; /* 00h */
u_int8_t reserved_1; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t connection_status; /* 03h */
u_int8_t reserved_2[3]; /* 04h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t data_xfer_len; /* 14h */
u_int64_t sas_addr; /* 18h */
union {
struct mrsas_sge32 sge32[2]; /* [0]: resp [1]: req */
struct mrsas_sge64 sge64[2]; /* [0]: resp [1]: req */
} sgl;
};
#pragma pack()
#pragma pack(1)
struct mrsas_stp_frame {
u_int8_t cmd; /* 00h */
u_int8_t reserved_1; /* 01h */
u_int8_t cmd_status; /* 02h */
u_int8_t reserved_2; /* 03h */
u_int8_t target_id; /* 04h */
u_int8_t reserved_3[2]; /* 05h */
u_int8_t sge_count; /* 07h */
u_int32_t context; /* 08h */
u_int32_t pad_0; /* 0Ch */
u_int16_t flags; /* 10h */
u_int16_t timeout; /* 12h */
u_int32_t data_xfer_len; /* 14h */
u_int16_t fis[10]; /* 18h */
u_int32_t stp_flags;
union {
struct mrsas_sge32 sge32[2]; /* [0]: resp [1]: data */
struct mrsas_sge64 sge64[2]; /* [0]: resp [1]: data */
} sgl;
};
#pragma pack()
union mrsas_frame {
struct mrsas_header hdr;
struct mrsas_init_frame init;
struct mrsas_io_frame io;
struct mrsas_pthru_frame pthru;
struct mrsas_dcmd_frame dcmd;
struct mrsas_abort_frame abort;
struct mrsas_smp_frame smp;
struct mrsas_stp_frame stp;
u_int8_t raw_bytes[64];
};
#pragma pack(1)
union mrsas_evt_class_locale {
struct {
u_int16_t locale;
u_int8_t reserved;
int8_t class;
} __packed members;
u_int32_t word;
} __packed;
#pragma pack()
#pragma pack(1)
struct mrsas_evt_log_info {
u_int32_t newest_seq_num;
u_int32_t oldest_seq_num;
u_int32_t clear_seq_num;
u_int32_t shutdown_seq_num;
u_int32_t boot_seq_num;
} __packed;
#pragma pack()
struct mrsas_progress {
u_int16_t progress;
u_int16_t elapsed_seconds;
} __packed;
struct mrsas_evtarg_ld {
u_int16_t target_id;
u_int8_t ld_index;
u_int8_t reserved;
} __packed;
struct mrsas_evtarg_pd {
u_int16_t device_id;
u_int8_t encl_index;
u_int8_t slot_number;
} __packed;
struct mrsas_evt_detail {
u_int32_t seq_num;
u_int32_t time_stamp;
u_int32_t code;
union mrsas_evt_class_locale cl;
u_int8_t arg_type;
u_int8_t reserved1[15];
union {
struct {
struct mrsas_evtarg_pd pd;
u_int8_t cdb_length;
u_int8_t sense_length;
u_int8_t reserved[2];
u_int8_t cdb[16];
u_int8_t sense[64];
} __packed cdbSense;
struct mrsas_evtarg_ld ld;
struct {
struct mrsas_evtarg_ld ld;
u_int64_t count;
} __packed ld_count;
struct {
u_int64_t lba;
struct mrsas_evtarg_ld ld;
} __packed ld_lba;
struct {
struct mrsas_evtarg_ld ld;
u_int32_t prevOwner;
u_int32_t newOwner;
} __packed ld_owner;
struct {
u_int64_t ld_lba;
u_int64_t pd_lba;
struct mrsas_evtarg_ld ld;
struct mrsas_evtarg_pd pd;
} __packed ld_lba_pd_lba;
struct {
struct mrsas_evtarg_ld ld;
struct mrsas_progress prog;
} __packed ld_prog;
struct {
struct mrsas_evtarg_ld ld;
u_int32_t prev_state;
u_int32_t new_state;
} __packed ld_state;
struct {
u_int64_t strip;
struct mrsas_evtarg_ld ld;
} __packed ld_strip;
struct mrsas_evtarg_pd pd;
struct {
struct mrsas_evtarg_pd pd;
u_int32_t err;
} __packed pd_err;
struct {
u_int64_t lba;
struct mrsas_evtarg_pd pd;
} __packed pd_lba;
struct {
u_int64_t lba;
struct mrsas_evtarg_pd pd;
struct mrsas_evtarg_ld ld;
} __packed pd_lba_ld;
struct {
struct mrsas_evtarg_pd pd;
struct mrsas_progress prog;
} __packed pd_prog;
struct {
struct mrsas_evtarg_pd pd;
u_int32_t prevState;
u_int32_t newState;
} __packed pd_state;
struct {
u_int16_t vendorId;
u_int16_t deviceId;
u_int16_t subVendorId;
u_int16_t subDeviceId;
} __packed pci;
u_int32_t rate;
char str[96];
struct {
u_int32_t rtc;
u_int32_t elapsedSeconds;
} __packed time;
struct {
u_int32_t ecar;
u_int32_t elog;
char str[64];
} __packed ecc;
u_int8_t b[96];
u_int16_t s[48];
u_int32_t w[24];
u_int64_t d[12];
} args;
char description[128];
} __packed;
struct mrsas_irq_context {
struct mrsas_softc *sc;
uint32_t MSIxIndex;
};
/* Controller management info added to support Linux Emulator */
#define MAX_MGMT_ADAPTERS 1024
struct mrsas_mgmt_info {
u_int16_t count;
struct mrsas_softc *sc_ptr[MAX_MGMT_ADAPTERS];
int max_index;
};
#define PCI_TYPE0_ADDRESSES 6
#define PCI_TYPE1_ADDRESSES 2
#define PCI_TYPE2_ADDRESSES 5
typedef struct _MRSAS_DRV_PCI_COMMON_HEADER {
u_int16_t vendorID;
//(ro)
u_int16_t deviceID;
//(ro)
u_int16_t command;
//Device control
u_int16_t status;
u_int8_t revisionID;
//(ro)
u_int8_t progIf;
//(ro)
u_int8_t subClass;
//(ro)
u_int8_t baseClass;
//(ro)
u_int8_t cacheLineSize;
//(ro +)
u_int8_t latencyTimer;
//(ro +)
u_int8_t headerType;
//(ro)
u_int8_t bist;
//Built in self test
union {
struct _MRSAS_DRV_PCI_HEADER_TYPE_0 {
u_int32_t baseAddresses[PCI_TYPE0_ADDRESSES];
u_int32_t cis;
u_int16_t subVendorID;
u_int16_t subSystemID;
u_int32_t romBaseAddress;
u_int8_t capabilitiesPtr;
u_int8_t reserved1[3];
u_int32_t reserved2;
u_int8_t interruptLine;
u_int8_t interruptPin;
//(ro)
u_int8_t minimumGrant;
//(ro)
u_int8_t maximumLatency;
//(ro)
} type0;
/*
* PCI to PCI Bridge
*/
struct _MRSAS_DRV_PCI_HEADER_TYPE_1 {
u_int32_t baseAddresses[PCI_TYPE1_ADDRESSES];
u_int8_t primaryBus;
u_int8_t secondaryBus;
u_int8_t subordinateBus;
u_int8_t secondaryLatency;
u_int8_t ioBase;
u_int8_t ioLimit;
u_int16_t secondaryStatus;
u_int16_t memoryBase;
u_int16_t memoryLimit;
u_int16_t prefetchBase;
u_int16_t prefetchLimit;
u_int32_t prefetchBaseUpper32;
u_int32_t prefetchLimitUpper32;
u_int16_t ioBaseUpper16;
u_int16_t ioLimitUpper16;
u_int8_t capabilitiesPtr;
u_int8_t reserved1[3];
u_int32_t romBaseAddress;
u_int8_t interruptLine;
u_int8_t interruptPin;
u_int16_t bridgeControl;
} type1;
/*
* PCI to CARDBUS Bridge
*/
struct _MRSAS_DRV_PCI_HEADER_TYPE_2 {
u_int32_t socketRegistersBaseAddress;
u_int8_t capabilitiesPtr;
u_int8_t reserved;
u_int16_t secondaryStatus;
u_int8_t primaryBus;
u_int8_t secondaryBus;
u_int8_t subordinateBus;
u_int8_t secondaryLatency;
struct {
u_int32_t base;
u_int32_t limit;
} range [PCI_TYPE2_ADDRESSES - 1];
u_int8_t interruptLine;
u_int8_t interruptPin;
u_int16_t bridgeControl;
} type2;
} u;
} MRSAS_DRV_PCI_COMMON_HEADER, *PMRSAS_DRV_PCI_COMMON_HEADER;
#define MRSAS_DRV_PCI_COMMON_HEADER_SIZE sizeof(MRSAS_DRV_PCI_COMMON_HEADER) //64 bytes
typedef struct _MRSAS_DRV_PCI_LINK_CAPABILITY {
union {
struct {
u_int32_t linkSpeed:4;
u_int32_t linkWidth:6;
u_int32_t aspmSupport:2;
u_int32_t losExitLatency:3;
u_int32_t l1ExitLatency:3;
u_int32_t rsvdp:6;
u_int32_t portNumber:8;
} bits;
u_int32_t asUlong;
} u;
} MRSAS_DRV_PCI_LINK_CAPABILITY, *PMRSAS_DRV_PCI_LINK_CAPABILITY;
#define MRSAS_DRV_PCI_LINK_CAPABILITY_SIZE sizeof(MRSAS_DRV_PCI_LINK_CAPABILITY)
typedef struct _MRSAS_DRV_PCI_LINK_STATUS_CAPABILITY {
union {
struct {
u_int16_t linkSpeed:4;
u_int16_t negotiatedLinkWidth:6;
u_int16_t linkTrainingError:1;
u_int16_t linkTraning:1;
u_int16_t slotClockConfig:1;
u_int16_t rsvdZ:3;
} bits;
u_int16_t asUshort;
} u;
u_int16_t reserved;
} MRSAS_DRV_PCI_LINK_STATUS_CAPABILITY, *PMRSAS_DRV_PCI_LINK_STATUS_CAPABILITY;
#define MRSAS_DRV_PCI_LINK_STATUS_CAPABILITY_SIZE sizeof(MRSAS_DRV_PCI_LINK_STATUS_CAPABILITY)
typedef struct _MRSAS_DRV_PCI_CAPABILITIES {
MRSAS_DRV_PCI_LINK_CAPABILITY linkCapability;
MRSAS_DRV_PCI_LINK_STATUS_CAPABILITY linkStatusCapability;
} MRSAS_DRV_PCI_CAPABILITIES, *PMRSAS_DRV_PCI_CAPABILITIES;
#define MRSAS_DRV_PCI_CAPABILITIES_SIZE sizeof(MRSAS_DRV_PCI_CAPABILITIES)
/* PCI information */
typedef struct _MRSAS_DRV_PCI_INFORMATION {
u_int32_t busNumber;
u_int8_t deviceNumber;
u_int8_t functionNumber;
u_int8_t interruptVector;
u_int8_t reserved1;
MRSAS_DRV_PCI_COMMON_HEADER pciHeaderInfo;
MRSAS_DRV_PCI_CAPABILITIES capability;
u_int32_t domainID;
u_int8_t reserved2[28];
} MRSAS_DRV_PCI_INFORMATION, *PMRSAS_DRV_PCI_INFORMATION;
/*******************************************************************
* per-instance data
********************************************************************/
struct mrsas_softc {
device_t mrsas_dev;
struct cdev *mrsas_cdev;
uint16_t device_id;
struct resource *reg_res;
int reg_res_id;
bus_space_tag_t bus_tag;
bus_space_handle_t bus_handle;
bus_dma_tag_t mrsas_parent_tag;
bus_dma_tag_t verbuf_tag;
bus_dmamap_t verbuf_dmamap;
void *verbuf_mem;
bus_addr_t verbuf_phys_addr;
bus_dma_tag_t sense_tag;
bus_dmamap_t sense_dmamap;
void *sense_mem;
bus_addr_t sense_phys_addr;
bus_dma_tag_t io_request_tag;
bus_dmamap_t io_request_dmamap;
void *io_request_mem;
bus_addr_t io_request_phys_addr;
bus_dma_tag_t chain_frame_tag;
bus_dmamap_t chain_frame_dmamap;
void *chain_frame_mem;
bus_addr_t chain_frame_phys_addr;
bus_dma_tag_t reply_desc_tag;
bus_dmamap_t reply_desc_dmamap;
void *reply_desc_mem;
bus_addr_t reply_desc_phys_addr;
bus_dma_tag_t ioc_init_tag;
bus_dmamap_t ioc_init_dmamap;
void *ioc_init_mem;
bus_addr_t ioc_init_phys_mem;
bus_dma_tag_t data_tag;
struct cam_sim *sim_0;
struct cam_sim *sim_1;
struct cam_path *path_0;
struct cam_path *path_1;
struct mtx sim_lock;
struct mtx pci_lock;
struct mtx io_lock;
struct mtx ioctl_lock;
struct mtx mpt_cmd_pool_lock;
struct mtx mfi_cmd_pool_lock;
struct mtx raidmap_lock;
struct mtx aen_lock;
struct selinfo mrsas_select;
uint32_t mrsas_aen_triggered;
uint32_t mrsas_poll_waiting;
struct sema ioctl_count_sema;
uint32_t max_fw_cmds;
uint32_t max_num_sge;
struct resource *mrsas_irq[MAX_MSIX_COUNT];
void *intr_handle[MAX_MSIX_COUNT];
int irq_id[MAX_MSIX_COUNT];
struct mrsas_irq_context irq_context[MAX_MSIX_COUNT];
int msix_vectors;
int msix_enable;
uint32_t msix_reg_offset[16];
uint8_t mask_interrupts;
struct mrsas_mpt_cmd **mpt_cmd_list;
struct mrsas_mfi_cmd **mfi_cmd_list;
TAILQ_HEAD(, mrsas_mpt_cmd) mrsas_mpt_cmd_list_head;
TAILQ_HEAD(, mrsas_mfi_cmd) mrsas_mfi_cmd_list_head;
bus_addr_t req_frames_desc_phys;
u_int8_t *req_frames_desc;
u_int8_t *req_desc;
bus_addr_t io_request_frames_phys;
u_int8_t *io_request_frames;
bus_addr_t reply_frames_desc_phys;
u_int16_t last_reply_idx[MAX_MSIX_COUNT];
u_int32_t reply_q_depth;
u_int32_t request_alloc_sz;
u_int32_t reply_alloc_sz;
u_int32_t io_frames_alloc_sz;
u_int32_t chain_frames_alloc_sz;
u_int16_t max_sge_in_main_msg;
u_int16_t max_sge_in_chain;
u_int8_t chain_offset_io_request;
u_int8_t chain_offset_mfi_pthru;
u_int32_t map_sz;
u_int64_t map_id;
struct mrsas_mfi_cmd *map_update_cmd;
struct mrsas_mfi_cmd *aen_cmd;
u_int8_t fast_path_io;
void *chan;
void *ocr_chan;
u_int8_t adprecovery;
u_int8_t remove_in_progress;
u_int8_t ocr_thread_active;
u_int8_t do_timedout_reset;
u_int32_t reset_in_progress;
u_int32_t reset_count;
bus_dma_tag_t raidmap_tag[2];
bus_dmamap_t raidmap_dmamap[2];
void *raidmap_mem[2];
bus_addr_t raidmap_phys_addr[2];
bus_dma_tag_t mficmd_frame_tag;
bus_dma_tag_t mficmd_sense_tag;
bus_dma_tag_t evt_detail_tag;
bus_dmamap_t evt_detail_dmamap;
struct mrsas_evt_detail *evt_detail_mem;
bus_addr_t evt_detail_phys_addr;
struct mrsas_ctrl_info *ctrl_info;
bus_dma_tag_t ctlr_info_tag;
bus_dmamap_t ctlr_info_dmamap;
void *ctlr_info_mem;
bus_addr_t ctlr_info_phys_addr;
u_int32_t max_sectors_per_req;
u_int32_t disableOnlineCtrlReset;
mrsas_atomic_t fw_outstanding;
u_int32_t mrsas_debug;
u_int32_t mrsas_io_timeout;
u_int32_t mrsas_fw_fault_check_delay;
u_int32_t io_cmds_highwater;
u_int8_t UnevenSpanSupport;
struct sysctl_ctx_list sysctl_ctx;
struct sysctl_oid *sysctl_tree;
struct proc *ocr_thread;
u_int32_t last_seq_num;
bus_dma_tag_t el_info_tag;
bus_dmamap_t el_info_dmamap;
void *el_info_mem;
bus_addr_t el_info_phys_addr;
struct mrsas_pd_list pd_list[MRSAS_MAX_PD];
struct mrsas_pd_list local_pd_list[MRSAS_MAX_PD];
u_int8_t ld_ids[MRSAS_MAX_LD_IDS];
struct taskqueue *ev_tq;
struct task ev_task;
u_int32_t CurLdCount;
u_int64_t reset_flags;
int lb_pending_cmds;
LD_LOAD_BALANCE_INFO load_balance_info[MAX_LOGICAL_DRIVES_EXT];
LD_SPAN_INFO log_to_span[MAX_LOGICAL_DRIVES_EXT];
u_int8_t secure_jbod_support;
u_int8_t max256vdSupport;
u_int16_t fw_supported_vd_count;
u_int16_t fw_supported_pd_count;
u_int16_t drv_supported_vd_count;
u_int16_t drv_supported_pd_count;
u_int32_t max_map_sz;
u_int32_t current_map_sz;
u_int32_t old_map_sz;
u_int32_t new_map_sz;
u_int32_t drv_map_sz;
/* Non dma-able memory. Driver local copy. */
MR_DRV_RAID_MAP_ALL *ld_drv_map[2];
};
/* Compatibility shims for different OS versions */
#if __FreeBSD_version >= 800001
#define mrsas_kproc_create(func, farg, proc_ptr, flags, stackpgs, fmtstr, arg) \
kproc_create(func, farg, proc_ptr, flags, stackpgs, fmtstr, arg)
#define mrsas_kproc_exit(arg) kproc_exit(arg)
#else
#define mrsas_kproc_create(func, farg, proc_ptr, flags, stackpgs, fmtstr, arg) \
kthread_create(func, farg, proc_ptr, flags, stackpgs, fmtstr, arg)
#define mrsas_kproc_exit(arg) kthread_exit(arg)
#endif
static __inline void
mrsas_clear_bit(int b, volatile void *p)
{
atomic_clear_int(((volatile int *)p) + (b >> 5), 1 << (b & 0x1f));
}
static __inline void
mrsas_set_bit(int b, volatile void *p)
{
atomic_set_int(((volatile int *)p) + (b >> 5), 1 << (b & 0x1f));
}
static __inline int
mrsas_test_bit(int b, volatile void *p)
{
return ((volatile int *)p)[b >> 5] & (1 << (b & 0x1f));
}
#endif /* MRSAS_H */