lsiutil/source/inc/dmi_ioctl.h

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#ifndef _DMI_IOCTL_H_
#define _DMI_IOCTL_H_
/***************************************************************************
* *
* Copyright 1998 LSI Logic Corporation. All rights reserved. *
* *
* This file is confidential and a trade secret of LSI Logic. The *
* receipt of or possession of this file does not convey any rights to *
* reproduce or disclose its contents or to manufacture, use, or sell *
* anything it may describe, in whole, or in part, without the specific *
* written consent of LSI Logic Corporation. *
* *
***************************************************************************/
/* Name: DMI_IOCTL.H
* Title: Solaris O/S Character mode IOCTL definitions
* Programmer: Russell A. Johnson
* Creation Date: May 26, 1998
*
* Version History
* ---------------
*
* Date Who? Description
* -------- ---- -------------------------------------------------------
#BeginRevision
* 05/17/00 RAJ Added bus mode support for fibre channel devices.
* 12/19/99 RAJ Added new flags for scsi-3 options.
* 11/09/98 RAJ Changed copyright notice to LSI Logic.
#EndRevision
* Version 4.02.01
* 07/22/98 RAJ Added some more data to the DMI data structure. This
* includes the PCI bus number, device number, and function
* number. Also added a major version number for the data
* structure. That version number indicates major changes.
* When it changes then the entire data format may have
* changed. See the comments below for more details.
#EndRevision
* Version 4.00.04
* 05/26/98 RAJ Initial version.
#EndRevision
*
#BeginDescription
*
* This file contains the Solaris 2.6 character mode driver interface
* definitions needed in order to provide IOCTL's for our SCSI HBA driver.
*
#EndDescription
*
*-------------------------------------------------------------------------
*/
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
* HEADER FILE DEPENDANCIES
*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
*
* This file is dependent on the following files:
*
* SALIOS.H - type defintions UINT8, UINT16, UINT32, UINT64
*/
/* The following data is for our character mode ioctl interface. Per the
* Solaris standard mechanism, we define SYMIOCTL as a unique number in the
* upper 8 bits and a command value in the lower 8 bits.
*/
#define SYMIOCTL ('H' << 8)
#define SYMIOCTL_GET_DMI_DATA (SYMIOCTL | 1)
#define SYMIOCTL_GET_TIMERS (SYMIOCTL | 2)
#define SYMIOCTL_UPDATE_FLASH (SYMIOCTL | 3)
#define SYMIOCTL_RESET_ADAPTER (SYMIOCTL | 4)
#define SYMIOCTL_GET_PROPERTY (SYMIOCTL | 5)
#define SYMIOCTL_PASS_THRU (SYMIOCTL | 6)
#define SYMIOCTL_REG_ACCESS (SYMIOCTL | 7)
#define SYMIOCTL_EVENT_QUERY (SYMIOCTL | 8)
#define SYMIOCTL_EVENT_ENABLE (SYMIOCTL | 9)
#define SYMIOCTL_EVENT_REPORT (SYMIOCTL | 10)
#define SYMIOCTL_GET_PCI_INFO (SYMIOCTL | 11)
#define SYMIOCTL_BTDH_MAPPING (SYMIOCTL | 12)
#define SYMIOCTL_DIAG_ACTION (SYMIOCTL | 13)
#define SYMIOCTL_PASS_THRU_TIMEOUT (SYMIOCTL | 14)
/* The following are our ioctl() return status values. If everything went
* well, we return good status. If the buffer length sent to us is too short
* we return a status to tell the user.
*/
#define SYMIOCTL_STATUS_GOOD 0
#define SYMIOCTL_STATUS_LEN_TOO_SHORT 1
/* The data structures defined in this file are marked with a data structure
* length and data structure version. The length value is the first value in
* the structure and is used to make sure the buffer is large enough for
* communication between the driver and the application. The version number is
* a major version number. If the data structure changes and only has a new
* element appended, then the version number will remain the same but the
* length will increase. If the data structure changes in any other way, such
* as re-arranging all of its elements, then the version number will increase.
*
* The following macro defines the current version number of the data
* structure.
*/
#define SYMHI_DMI_DATA_VERSION 1
/* The following is the SYMIOCTL_GET_DMI_DATA data structure. This data
* structure is setup so that we hopefully are properly aligned for both 32-bit
* and 64-bit mode applications.
*
* StructureLength - This value is the amount of data the caller has allocated
* for the structure when they first call us. After we have filled in the
* structure, this indicates the length our data structure is.
*
* MajorVersion - This value is used by the driver to tell the application what
* version of the data structure is being provided. It only changes if the
* data ordering of the data below is changed.
*
* MinSyncPeriodNs - This is the minimum period in nano-seconds (ns) that we
* will negotiate for on this adapter. The smaller value the faster
* synchronous speed except if this value is zero then asynchronous transfers
* is all we support.
*
* MaxWidth - This value indicates the maximum width this bus can be used as.
* If the PciDeviceId indicates a width capability of 16 devices and this is
* set to 8 devices then the PCI Subsystem ID value has limited our use of this
* adapter to 8 devices. This value also indicates the number of valid
* elements in the DevSpeed[] and DevWidth[] array's.
*
* HostScsiId - This is the host adapter SCSI ID being used by this adapter.
*
* PciBusNumber - The number of the PCI bus this adapter is on. If for some
* reason the driver is unable to determine the bus number, device number, or
* function number, these values will be set to 0xFF.
*
* PciDeviceNumber - The PCI device number for this device.
*
* PciFunctionNumber - The PCI function number for this device.
*
* PciDeviceId - This is the PCI device ID from PCI configuration space for
* this adapter.
*
* PciRevision - This is the PCI revision value from PCI configuration space
* for this adapter.
*
* HwBusMode - This value indicates the mode the bus is currently in. See the
* SYM_HW_BUS_MODE_xx macros.
*
* DevSpeed - This array is indexed by the target ID and indicates the
* currently negotiated synchronous speed in nano-seconds (ns). A value of
* zero ns indicates asynchronous mode.
*
* DevWidth - This array is indexed by the target ID and indicates the
* currently negotiated width in bits. A value of 8 indicates narrow mode, a
* value of 16 indicates wide.
*
* DriverVersion - This is an ascii null-terminated string indicating the
* version of this driver.
*
* DevFlags - This array is indexed by the target ID and indicates the
* currently negotiated options such as DT and async protection capabilities.
*/
#pragma pack(1)
typedef struct _SYMHI_DMI_DATA
{ /* Offset */
UINT32 StructureLength; /* 0x00..0x03 */
UINT32 Reserved1; /* 0x04..0x07 */
UINT32 MajorVersion; /* 0x08..0x0B */
UINT16 MinSyncPeriodNs; /* 0x0C..0x0D */
UINT8 MaxWidth; /* 0x0E */
UINT8 HostScsiId; /* 0x0F */
UINT8 PciBusNumber; /* 0x10 */
UINT8 PciDeviceNumber; /* 0x11 */
UINT8 PciFunctionNumber; /* 0x12 */
UINT8 Reserved2; /* 0x13 */
UINT16 PciDeviceId; /* 0x14..0x15 */
UINT8 PciRevision; /* 0x16 */
UINT8 HwBusMode; /* 0x17 */
UINT8 Reserved3[8]; /* 0x18..0x1F */
#if defined TARGET_MPTx
/* MPI adapters can have many more devices per SCSI bus than non-MPI
* adapters.
*/
UINT16 DevSpeed[256]; /* 0x20..0x21F */
UINT8 DevWidth[256]; /* 0x220..0x31F */
UINT32 DevFlags[256]; /* 0x320..0x71F */
char DriverVersion[80]; /* 0x720..0x76F */
#elif defined TARGET_HIHW || defined TARGET_SRHW
UINT16 DevSpeed[16]; /* 0x20..0x3F */
UINT8 DevWidth[16]; /* 0x40..0x4F */
char DriverVersion[80]; /* 0x50..0x9F */
UINT32 DevFlags[16]; /* 0xA0..0xDF */
#else
#error "Unknown hardware type"
#endif /* defined TARGET_xxx */
} SYMHI_DMI_DATA, * PTR_SYMHI_DMI_DATA;
#pragma pack()
/* The following are definitions for the value of HwBusMode in the
* SYMHI_DMI_DATA data structure.
*
* SYM_HW_BUS_MODE_UNKNOWN - The bus mode is not known yet
* SYM_HW_BUS_MODE_SINGLE - The bus is in single ended mode
* SYM_HW_BUS_MODE_HVD - The bus is in high voltage differential mode
* SYM_HW_BUS_MODE_LVD - The bus is in low voltage differential mode
* SYM_HW_BUS_MODE_FC - The bus is a fibre channel bus
*/
#define SYM_HW_BUS_MODE_UNKNOWN (0x00)
#define SYM_HW_BUS_MODE_SINGLE (0x01)
#define SYM_HW_BUS_MODE_HVD (0x02)
#define SYM_HW_BUS_MODE_LVD (0x03)
#define SYM_HW_BUS_MODE_FC (0x04)
/* The following are definitions for the DevFlags[] array. Each bit is set
* only when the feature is currently in use for the given device.
*
* SYM_DEV_DT - Set when Dual Transfers (ie. dual edge clock in use) enabled
* SYM_DEV_ASYNC_PROT - Set when asynchronous phase protection is enabled
*/
#define SYM_DEV_DT (0x00000001)
#define SYM_DEV_ASYNC_PROT (0x00000002)
#pragma pack(1)
typedef struct _SYM_UPDATE_FLASH
{
UINT64 PtrBuffer;
UINT32 ImageChecksum;
UINT32 ImageOffset;
UINT32 ImageSize;
UINT32 ImageType;
} SYM_UPDATE_FLASH, * PTR_SYM_UPDATE_FLASH;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_GET_PROPERTY
{
UINT64 PtrName;
UINT64 PtrBuffer;
UINT32 NameLen;
UINT32 BufferLen;
UINT32 PropertyLen;
} SYM_GET_PROPERTY, * PTR_SYM_GET_PROPERTY;
#pragma pack()
#define SYM_PASS_THRU_NONE 0
#define SYM_PASS_THRU_READ 1
#define SYM_PASS_THRU_WRITE 2
#define SYM_PASS_THRU_BOTH 3
#pragma pack(1)
typedef struct _SYM_PASS_THRU
{
UINT64 PtrRequest;
UINT64 PtrReply;
UINT64 PtrData;
UINT32 RequestSize;
UINT32 ReplySize;
UINT32 DataSize;
UINT32 DataDirection;
UINT64 PtrDataOut;
UINT32 DataOutSize;
} SYM_PASS_THRU, * PTR_SYM_PASS_THRU;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_PASS_THRU_TIMEOUT
{
UINT64 PtrRequest;
UINT64 PtrReply;
UINT64 PtrData;
UINT32 RequestSize;
UINT32 ReplySize;
UINT32 DataSize;
UINT32 DataDirection;
UINT64 PtrDataOut;
UINT32 DataOutSize;
UINT32 Timeout;
} SYM_PASS_THRU_TIMEOUT, * PTR_SYM_PASS_THRU_TIMEOUT;
#pragma pack()
#define REG_IO_READ 1
#define REG_IO_WRITE 2
#define REG_MEM_READ 3
#define REG_MEM_WRITE 4
#pragma pack(1)
typedef struct _SYM_REG_ACCESS
{
UINT32 Command;
UINT32 RegOffset;
UINT32 RegData;
} SYM_REG_ACCESS, * PTR_SYM_REG_ACCESS;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_EVENT_QUERY
{
UINT32 Entries;
UINT32 Types;
} SYM_EVENT_QUERY, * PTR_SYM_EVENT_QUERY;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_EVENT_ENABLE
{
UINT32 Types;
} SYM_EVENT_ENABLE, * PTR_SYM_EVENT_ENABLE;
#pragma pack()
#if defined TARGET_MPT2
#define EVENT_ENTRY_NUM 48
#else
#define EVENT_ENTRY_NUM 2
#endif
#pragma pack(1)
typedef struct _SYM_EVENT_ENTRY
{
UINT32 Type;
UINT32 Number;
UINT32 Data[EVENT_ENTRY_NUM];
} SYM_EVENT_ENTRY, * PTR_SYM_EVENT_ENTRY;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_EVENT_REPORT
{
UINT32 Size;
SYM_EVENT_ENTRY Events[1];
} SYM_EVENT_REPORT, * PTR_SYM_EVENT_REPORT;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_PCI_INFO
{
UINT32 BusNumber;
UINT8 DeviceNumber;
UINT8 FunctionNumber;
UINT16 InterruptVector;
UINT8 PciHeader[256];
} SYM_PCI_INFO, * PTR_SYM_PCI_INFO;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_BTDH_MAPPING
{
UINT16 TargetID;
UINT16 Bus;
UINT16 DevHandle;
UINT16 Reserved;
} SYM_BTDH_MAPPING, * PTR_SYM_BTDH_MAPPING;
#pragma pack()
#pragma pack(1)
typedef struct _SYM_DIAG_ACTION
{
UINT32 Action;
UINT32 Length;
UINT64 PtrDiagAction;
UINT32 ReturnCode;
} SYM_DIAG_ACTION, * PTR_SYM_DIAG_ACTION;
#pragma pack()
#define FW_DIAGNOSTIC_BUFFER_COUNT (3)
#define FW_DIAGNOSTIC_UID_NOT_FOUND (0xFF)
#define MPI_FW_DIAG_NEW (0x806E6577)
#define MPI_FW_DIAG_TYPE_REGISTER (0x00000001)
#define MPI_FW_DIAG_TYPE_UNREGISTER (0x00000002)
#define MPI_FW_DIAG_TYPE_QUERY (0x00000003)
#define MPI_FW_DIAG_TYPE_READ_BUFFER (0x00000004)
#define MPI_FW_DIAG_TYPE_RELEASE (0x00000005)
#define MPI_FW_DIAG_INVALID_UID (0x00000000)
#define MPI_FW_DIAG_ERROR_SUCCESS (0x00000000)
#define MPI_FW_DIAG_ERROR_FAILURE (0x00000001)
#define MPI_FW_DIAG_ERROR_INVALID_PARAMETER (0x00000002)
#define MPI_FW_DIAG_ERROR_POST_FAILED (0x00000010)
#define MPI_FW_DIAG_ERROR_INVALID_UID (0x00000011)
#define MPI_FW_DIAG_ERROR_RELEASE_FAILED (0x00000012)
#define MPI_FW_DIAG_ERROR_NO_BUFFER (0x00000013)
#define MPI_FW_DIAG_ERROR_ALREADY_RELEASED (0x00000014)
#pragma pack(1)
typedef struct _MPI_FW_DIAG_REGISTER
{
UINT8 TraceLevel;
UINT8 BufferType;
UINT16 Flags;
UINT32 ExtendedType;
UINT32 ProductSpecific[4];
UINT32 RequestedBufferSize;
UINT32 UniqueId;
} MPI_FW_DIAG_REGISTER, * PTR_MPI_FW_DIAG_REGISTER;
#pragma pack()
#pragma pack(1)
typedef struct _MPI_FW_DIAG_UNREGISTER
{
UINT32 UniqueId;
} MPI_FW_DIAG_UNREGISTER, * PTR_MPI_FW_DIAG_UNREGISTER;
#pragma pack()
#define MPI_FW_DIAG_FLAG_APP_OWNED (0x0001)
#define MPI_FW_DIAG_FLAG_BUFFER_VALID (0x0002)
#define MPI_FW_DIAG_FLAG_FW_BUFFER_ACCESS (0x0004)
#pragma pack(1)
typedef struct _MPI_FW_DIAG_QUERY
{
UINT8 TraceLevel;
UINT8 BufferType;
UINT16 Flags;
UINT32 ExtendedType;
UINT32 ProductSpecific[4];
UINT32 TotalBufferSize;
UINT32 DriverAddedBufferSize;
UINT32 UniqueId;
} MPI_FW_DIAG_QUERY, * PTR_MPI_FW_DIAG_QUERY;
#pragma pack()
#pragma pack(1)
typedef struct _MPI_FW_DIAG_RELEASE
{
UINT32 UniqueId;
} MPI_FW_DIAG_RELEASE, * PTR_MPI_FW_DIAG_RELEASE;
#pragma pack()
#define MPI_FW_DIAG_FLAG_REREGISTER (0x0001)
#define MPI_FW_DIAG_FLAG_FORCE_RELEASE (0x0002)
#pragma pack(1)
typedef struct _MPI_FW_DIAG_READ_BUFFER
{
UINT8 Status;
UINT8 Reserved;
UINT16 Flags;
UINT32 StartingOffset;
UINT32 BytesToRead;
UINT32 UniqueId;
UINT32 DataBuffer[1];
} MPI_FW_DIAG_READ_BUFFER, * PTR_MPI_FW_DIAG_READ_BUFFER;
#pragma pack()
#endif