freebsd-nq/sys/dev/asr/i2odep.h
Mike Smith ef137fd32f Add the 'asr' driver, supplied by Mark Salyzyn of Adaptec (nee DPT).
This provides support for the Adaptec SCSI RAID controller family,
as well as the DPT SmartRAID V and VI families.

The driver will be maintained by Mark and Adaptec, and any changes
should be referred to the MAINTAINER.
2000-09-01 07:51:25 +00:00

1297 lines
54 KiB
C

/* $FreeBSD$ */
/****************************************************************************
*
* Copyright (c) 1996-2000 Distributed Processing Technology Corporation
* Copyright (c) 2000 Adaptec Corporation.
* All rights reserved.
*
* Copyright (c) 1998 I2O Special Interest Group (I2O SIG)
* All rights reserved
*
* Redistribution and use in source form, with or without modification, are
* permitted provided that redistributions of source code must retain the
* above copyright notice, this list of conditions and the following disclaimer.
*
* This software is provided `as is' by Distributed Processing Technology 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 Distributed Processing Technology 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
* interruptions) 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 driver software, even if advised
* of the possibility of such damage.
*
* This information is provided on an as-is basis without warranty of any
* kind, either express or implied, including but not limited to, implied
* warranties or merchantability and fitness for a particular purpose. I2O SIG
* does not warrant that this program will meet the user's requirements or
* that the operation of these programs will be uninterrupted or error-free.
* The I2O SIG disclaims all liability, including liability for infringement
* of any proprietary rights, relating to implementation of information in
* this specification. The I2O SIG does not warrant or represent that such
* implementations(s) will not infringe such rights. Acceptance and use of
* this program constitutes the user's understanding that he will have no
* recourse to I2O SIG for any actual or consequential damages including, but
* not limited to, loss profits arising out of use or inability to use this
* program.
*
* This information is provided for the purpose of recompilation of the
* driver code provided by Distributed Processing Technology only. It is
* NOT to be used for any other purpose.
*
* To develop other products based upon I2O definitions, it is necessary to
* become a "Registered Developer" of the I2O SIG. This can be done by calling
* 415-750-8352 in the US, or via http://www.i2osig.org.
*
**************************************************************************/
/*
* This template provides place holders for architecture and compiler
* dependencies. It should be filled in and renamed as i2odep.h.
* i2odep.h is included by i2otypes.h. <xxx> marks the places to fill.
*/
#ifndef __INCi2odeph
#define __INCi2odeph
#define I2ODEP_REV 1_5_4
/*
* Pragma macros. These are to assure appropriate alignment between
* host/IOP as defined by the I2O Specification. Each one of the shared
* header files includes these macros.
*/
#define PRAGMA_ALIGN_PUSH
#define PRAGMA_ALIGN_POP
#define PRAGMA_PACK_PUSH
#define PRAGMA_PACK_POP
/* Setup the basics */
typedef signed char S8;
typedef signed short S16;
typedef unsigned char U8;
typedef unsigned short U16;
typedef unsigned long U32;
typedef unsigned short S32;
/* Bitfields */
#if (defined(__BORLANDC__))
typedef U16 BF;
#else
typedef U32 BF;
#endif
/* VOID */
#ifndef __VOID
#if (defined(_DPT_ARC))
# define VOID void
#else
typedef void VOID;
#endif
#define __VOID
#endif
/* Boolean */
#ifndef __BOOL
#define __BOOL
typedef unsigned char BOOL;
#endif
#if (!defined(__FAR__))
# if (defined(__BORLANDC__))
# define __FAR__ far
# else
# define __FAR__
# endif
#endif
/* NULL */
#if (!defined(NULL))
# define NULL ((VOID __FAR__ *)0L)
#endif
#if (defined(__SPARC__) || defined(__linux__))
typedef char CHAR;
typedef char *pCHAR;
typedef char INT8;
typedef char *pINT8;
typedef unsigned char UINT8;
typedef unsigned char *pUINT8;
typedef short INT16;
typedef short *pINT16;
typedef unsigned short UINT16;
typedef unsigned short *pUINT16;
typedef long INT32;
typedef long *pINT32;
typedef unsigned long UINT32;
typedef unsigned long *pUINT32;
//typedef SCSI_REQUEST_BLOCK OS_REQUEST_T;
//typedef PSCSI_REQUEST_BLOCK pOS_REQUEST_T;
#define STATIC static
#ifndef __NEAR__
# if (defined(__BORLANDC__))
# define __NEAR__ near
# else
# define __NEAR__
# endif
#endif
#define pVOID void *
#define pBOOLEAN BOOLEAN *
#endif
/*
* Copyright (c) 1996-2000 Distributed Processing Technology Corporation
* Copyright (c) 2000 Adaptec Corporation.
* All rights reserved.
*/
/*
* Define some generalized portability macros
* These macros follow the following parameterization:
* _F_getXXX(pointer,primaryElement<,offset>,referredElement)
* _F_setXXX(pointer,primaryElement<,offset>,referredElement,newValue)
* These parameters are shortened to u, w, x, y and z to reduce clutter.
*/
#if (defined(__BORLANDC__))
# define I2O_TID_MASK ((U16)((1L<<I2O_TID_SZ)-1))
/* First 12 bits */
# define _F_getTID(w,x,y) (*((U16 __FAR__ *)(&((w)->x))) & I2O_TID_MASK)
# define _F_setTID(w,x,y,z) (*((U16 __FAR__ *)(&((w)->x)))\
&= 0xFFFF - I2O_TID_MASK);\
(*((U16 __FAR__ *)(&((w)->x)))\
|=(U16)(z)&I2O_TID_MASK)
/* Seconds 12 bits (optimized with the assumption of 12 & 12) */
# define _F_getTID1(w,x,y) ((*(U16 __FAR__ *)(((U8 __FAR__ *)(&((w)->x)))\
+ (I2O_TID_SZ/8)))\
>> (I2O_TID_SZ-((I2O_TID_SZ/8)*8)))
# define _F_setTID1(w,x,y,z) ((*((U16 __FAR__ *)(((U8 __FAR__ *)(&((w)->x)))\
+ (I2O_TID_SZ/8)))) &= (0xFFFF >> I2O_TID_SZ));\
((*((U16 __FAR__ *)(((U8 __FAR__ *)(&((w)->x)))\
+ (I2O_TID_SZ/8)))) |= (z)\
<< (I2O_TID_SZ-((I2O_TID_SZ/8)*8)))
/* Last 8 bits */
# define _F_getFunc(w,x,y) (*(((U8 __FAR__ *)(&((w)->x)))\
+ ((I2O_TID_SZ+I2O_TID_SZ)/8)))
# define _F_setFunc(w,x,y,z) (_F_getFunc(w,x,y) = (z))
# define I2O_SG_COUNT_MASK ((U32)((1L<<I2O_SG_COUNT_SZ)-1))
/* First 24 bits */
# define _F_getCount(w,x,y) (*((U32 __FAR__ *)(&((w)->x)))&I2O_SG_COUNT_MASK)
/*
* The following is less efficient because of compiler inefficiencies:
*
* # define _F_setCount(w,x,y,z) *((U16 __FAR__ *)(&((w)->x))) = (U16)(z);\
* ((U8 __FAR__ *)(&((w)->x)))[2]= (U8)((z)>>16L)
*
* so we will use the apparently more code intensive:
*/
# define _F_setCount(w,x,y,z) (*((U32 __FAR__ *)(&((w)->x)))\
&= 0xFFFFFFFFL - I2O_SG_COUNT_MASK);\
(*((U32 __FAR__ *)(&((w)->x)))\
|= (z) & I2O_SG_COUNT_MASK)
/* Last 8 bits */
# define _F_getFlags(w,x,y) (*(((U8 __FAR__ *)(&((w)->x)))\
+ (I2O_SG_COUNT_SZ/8)))
# define _F_setFlags(w,x,y,z) (_F_getFlags(w,x,y) = (z))
/* Other accesses that are simpler */
# define _F_get1bit(w,x,y,z) ((U8)((w)->z))
# define _F_set1bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get1bit1(w,x,y,z) ((U8)((w)->z))
# define _F_set1bit1(w,x,y,z,u) ((w)->z = (u))
# define _F_get4bit4(w,x,y,z) ((U8)((w)->z))
# define _F_set4bit4(w,x,y,z,u) ((w)->z = (u))
# define _F_get8bit(w,x,y,z) ((U8)((w)->z))
# define _F_set8bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get12bit(w,x,y,z) ((U16)((w)->z))
# define _F_set12bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get12bit4(w,x,y,z) ((U16)((w)->z))
# define _F_set12bit4(w,x,y,z,u) ((w)->z = (u))
# define _F_get16bit(w,x,y,z) ((U16)((w)->z))
# define _F_set16bit(w,x,y,z,u) ((w)->z = (u))
#elif (defined(_DPT_BIG_ENDIAN))
/* First 12 bits */
# define _F_getTID(w,x,y) getL12bit(w,x,0)
# define _F_setTID(w,x,y,z) setL12bit(w,x,0,z)
# define _F_getTID1(w,x,y) getL12bit1(w,x,0)
# define _F_setTID1(w,x,y,z) setL12bit1(w,x,0,z)
# define _F_getFunc(w,x,y) getL8bit(w,x,3)
# define _F_setFunc(w,x,y,z) setL8bit(w,x,3,z)
# define _F_getCount(w,x,y) getL24bit1(w,x,0)
# define _F_setCount(w,x,y,z) setL24bit1(w,x,0,z)
# define _F_getFlags(w,x,y) getL8bit(w,x,3)
# define _F_setFlags(w,x,y,z) setL8bit(w,x,3,z)
/* Other accesses that are simpler */
# define _F_get1bit(w,x,y,z) getL1bit(w,x,y)
# define _F_set1bit(w,x,y,z,u) setL1bit(w,x,y,u)
# define _F_get1bit1(w,x,y,z) getL1bit1(w,x,y)
# define _F_set1bit1(w,x,y,z,u) setL1bit1(w,x,y,u)
# define _F_get4bit4(w,x,y,z) getL4bit(w,x,y)
# define _F_set4bit4(w,x,y,z,u) setL4bit(w,x,y,u)
# define _F_get8bit(w,x,y,z) getL8bit(w,x,y)
# define _F_set8bit(w,x,y,z,u) setL8bit(w,x,y,u)
# define _F_get12bit(w,x,y,z) getL12bit(w,x,y)
# define _F_set12bit(w,x,y,z,u) setL12bit(w,x,y,z)
# define _F_get12bit4(w,x,y,z) getL12bit1(w,x,(y)-1)
# define _F_set12bit4(w,x,y,z,u) setL12bit1(w,x,(y)-1,u)
# define _F_get16bit(w,x,y,z) getL16bit(w,x,y)
# define _F_set16bit(w,x,y,z,u) setL16bit(w,x,y,u)
#else
# define _F_getTID(w,x,y) ((U16)((w)->y))
# define _F_setTID(w,x,y,z) ((w)->y = (z))
# define _F_getTID1(w,x,y) ((U16)((w)->y))
# define _F_setTID1(w,x,y,z) ((w)->y = (z))
# define _F_getFunc(w,x,y) ((U8)((w)->y))
# define _F_setFunc(w,x,y,z) ((w)->y = (z))
# define _F_getCount(w,x,y) ((U32)((w)->y))
# define _F_setCount(w,x,y,z) ((w)->y = (z))
# define _F_getFlags(w,x,y) ((U8)((w)->y))
# define _F_setFlags(w,x,y,z) ((w)->y = (z))
# define _F_get1bit(w,x,y,z) ((U8)((w)->z))
# define _F_set1bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get1bit1(w,x,y,z) ((U8)((w)->z))
# define _F_set1bit1(w,x,y,z,u) ((w)->z = (u))
# define _F_get4bit4(w,x,y,z) ((U8)((w)->z))
# define _F_set4bit4(w,x,y,z,u) ((w)->z = (u))
# define _F_get8bit(w,x,y,z) ((U8)((w)->z))
# define _F_set8bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get12bit(w,x,y,z) ((U16)((w)->z))
# define _F_set12bit(w,x,y,z,u) ((w)->z = (u))
# define _F_get12bit4(w,x,y,z) ((U16)((w)->z))
# define _F_set12bit4(w,x,y,z,u) ((w)->z = (u))
# define _F_get16bit(w,x,y,z) ((U16)((w)->z))
# define _F_set16bit(w,x,y,z,u) ((w)->z = (u))
#endif
/*
* Define some specific portability macros
* These macros follow the following parameterization:
* XXX_getYYY (pointer)
* XXX_setYYY (pointer, newValue)
* These parameters are shortened to x and y to reduce clutter.
*/
/*
* General SGE
*/
#define I2O_FLAGS_COUNT_getCount(x) _F_getCount(x,Count,Count)
#define I2O_FLAGS_COUNT_setCount(x,y) _F_setCount(x,Count,Count,y)
#define I2O_FLAGS_COUNT_getFlags(x) _F_getFlags(x,Count,Flags)
#define I2O_FLAGS_COUNT_setFlags(x,y) _F_setFlags(x,Count,Flags,y)
/*
* I2O_SGE_SIMPLE_ELEMENT
*/
#define I2O_SGE_SIMPLE_ELEMENT_getPhysicalAddress(x) \
getLU4((&(x)->PhysicalAddress),0)
#define I2O_SGE_SIMPLE_ELEMENT_setPhysicalAddress(x,y) \
setLU4((&(x)->PhysicalAddress),0,y)
/*
* I2O_SGE_LONG_TRANSACTION_ELEMENT
*/
#define I2O_SGE_LONG_TRANSACTION_ELEMENT_getLongElementLength(x)\
_F_getCount(x,LongElementLength,LongElementLength)
#define I2O_SGE_LONG_TRANSACTION_ELEMENT_setLongElementLength(x,y)\
_F_setCount(x,LongElementLength,LongElementLength,y)
#define I2O_SGE_LONG_TRANSACTION_ELEMENT_getFlags(x)\
_F_getFlags(x,LongElementLength,Flags)
#define I2O_SGE_LONG_TRANSACTION_ELEMENT_setFlags(x,y)\
_F_setFlags(x,LongElementLength,Flags,y)
/*
* I2O_SGE_LONG_TRANSPORT_ELEMENT
*/
#define I2O_SGE_LONG_TRANSPORT_ELEMENT_getLongElementLength(x)\
_F_getCount(x,LongElementLength,LongElementLength)
#define I2O_SGE_LONG_TRANSPORT_ELEMENT_setLongElementLength(x,y)\
_F_setCount(x,LongElementLength,LongElementLength,y)
#define I2O_SGE_LONG_TRANSPORT_ELEMENT_getFlags(x)\
_F_getFlags(x,LongElementLength,Flags)
#define I2O_SGE_LONG_TRANSPORT_ELEMENT_setFlags(x,y)\
_F_setFlags(x,LongElementLength,Flags,y)
/*
* I2O_EXEC_ADAPTER_ASSIGN_MESSAGE
*/
#define I2O_EXEC_ADAPTER_ASSIGN_MESSAGE_getDdmTID(x)\
_F_getTID(x,DdmTID,DdmTID)
#define I2O_EXEC_ADAPTER_ASSIGN_MESSAGE_setDdmTID(x,y)\
_F_setTID(x,DDdmTID,DdmTID,y)
#define I2O_EXEC_ADAPTER_ASSIGN_MESSAGE_getOperationFlags(x)\
_F_getFunc(x,DdmTID,OperationFlags)
#define I2O_EXEC_ADAPTER_ASSIGN_MESSAGE_setOperationFlags(x,y)\
_F_setFunc(x,DdmTID,OperationFlags,y)
/*
* I2O_EXEC_BIOS_INFO_SET_MESSAGE
*/
#define I2O_EXEC_BIOS_INFO_SET_MESSAGE_getDeviceTID(x)\
_F_getTID(x,DeviceTID,DeviceTID)
#define I2O_EXEC_BIOS_INFO_SET_MESSAGE_setDeviceTID(x,y)\
_F_setTID(x,DeviceTID,DeviceTID,y)
#define I2O_EXEC_BIOS_INFO_SET_MESSAGE_getBiosInfo(x)\
_F_getFunc(x,DeviceTID,BiosInfo)
#define I2O_EXEC_BIOS_INFO_SET_MESSAGE_setBiosInfo(x,y) \
_F_setFunc(x,DeviceTID,BiosInfo,y)
/*
* I2O_ALIAS_CONNECT_SETUP
*/
#define I2O_ALIAS_CONNECT_SETUP_getIOP1AliasForTargetDevice(x)\
_F_getTID(x,IOP1AliasForTargetDevice,IOP1AliasForTargetDevice)
#define I2O_ALIAS_CONNECT_SETUP_setIOP1AliasForTargetDevice(x,y)\
_F_setTID(x,IOP1AliasForTargetDevice,IOP1AliasForTargetDevice,y)
#define I2O_ALIAS_CONNECT_SETUP_getIOP2AliasForInitiatorDevice(x)\
_F_getTID1(x,IOP1AliasForTargetDevice,IOP2AliasForInitiatorDevice)
#define I2O_ALIAS_CONNECT_SETUP_setIOP2AliasForInitiatorDevice(x,y)\
_F_setTID1(x,IOP1AliasForTargetDevice,IOP2AliasForInitiatorDevice,y)
/*
* I2O_OBJECT_CONNECT_SETUP
*/
#define I2O_OBJECT_CONNECT_SETUP_getTargetDevice(x)\
_F_getTID(x,TargetDevice,TargetDevice)
#define I2O_OBJECT_CONNECT_SETUP_setTargetDevice(x,y)\
_F_setTID(x,TargetDevice,TargetDevice,y)
#define I2O_OBJECT_CONNECT_SETUP_getInitiatorDevice(x)\
_F_getTID1(x,TargetDevice,InitiatorDevice)
#define I2O_OBJECT_CONNECT_SETUP_setInitiatorDevice(x,y)\
_F_setTID1(x,TargetDevice,InitiatorDevice,y)
#define I2O_OBJECT_CONNECT_SETUP_getOperationFlags(x)\
_F_getFunc(x,TargetDevice,OperationFlags)
#define I2O_OBJECT_CONNECT_SETUP_setOperationFlags(x,y)\
_F_setFunc(x,TargetDevice,OperationFlags,y)
/*
* I2O_OBJECT_CONNECT_REPLY
*/
#define I2O_OBJECT_CONNECT_REPLY_getTargetDevice(x)\
_F_getTID(x,TargetDevice,TargetDevice)
#define I2O_OBJECT_CONNECT_REPLY_setTargetDevice(x,y)\
_F_setTID(x,TargetDevice,TargetDevice,y)
#define I2O_OBJECT_CONNECT_REPLY_getInitiatorDevice(x)\
_F_getTID1(x,TargetDevice,InitiatorDevice)
#define I2O_OBJECT_CONNECT_REPLY_setInitiatorDevice(x,y)\
_F_setTID1(x,TargetDevice,InitiatorDevice,y)
#define I2O_OBJECT_CONNECT_REPLY_getReplyStatusCode(x)\
_F_getFunc(x,TargetDevice,ReplyStatusCode)
#define I2O_OBJECT_CONNECT_REPLY_setReplyStatusCode(x,y)\
_F_setFunc(x,TargetDevice,ReplyStatusCode,y)
/*
* I2O_EXEC_DEVICE_ASSIGN_MESSAGE
*/
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_getDeviceTID(x)\
_F_getTID(x,Object.DeviceTID,Object.DeviceTID)
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_setDeviceTID(x,y)\
_F_setTID(x,Object.DeviceTID,Object.DeviceTID,y)
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_getIOP_ID(x)\
_F_getTID1(x,Object.DeviceTID,Object.IOP_ID)
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_setIOP_ID(x,y)\
_F_setTID1(x,Object.DeviceTID,Object.IOP_ID,y)
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_getOperationFlags(x)\
_F_getFunc(x,Object.DeviceTID,Object.OperationFlags)
#define I2O_EXEC_DEVICE_ASSIGN_MESSAGE_setOperationFlags(x,y)\
_F_setFunc(x,Object.DeviceTID,Object.OperationFlags,y)
/*
* I2O_EXEC_DEVICE_RELEASE_MESSAGE
*/
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_getDeviceTID(x)\
_F_getTID(x,Object.DeviceTID,Object.DeviceTID)
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_setDeviceTID(x,y)\
_F_setTID(x,Object.DeviceTID,Object.DeviceTID,y)
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_getIOP_ID(x)\
_F_getTID1(x,Object.DeviceTID,Object.IOP_ID)
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_setIOP_ID(x,y)\
_F_setTID1(x,Object.DeviceTID,Object.IOP_ID,y)
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_getOperationFlags(x)\
_F_getFunc(x,Object.DeviceTID,Object.OperationFlags)
#define I2O_EXEC_DEVICE_RELEASE_MESSAGE_setOperationFlags(x,y)\
_F_setFunc(x,Object.DeviceTID,Object.OperationFlags,y)
/*
* I2O_EXEC_IOP_RESET_MESSAGE
*/
#define I2O_EXEC_IOP_RESET_MESSAGE_getTargetAddress(x)\
_F_getTID(x,TargetAddress,TargetAddress)
#define I2O_EXEC_IOP_RESET_MESSAGE_setTargetAddress(x,y)\
_F_setTID(x,TargetAddress,TargetAddress,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getInitiatorAddress(x)\
_F_getTID1(x,TargetAddress,InitiatorAddress)
#define I2O_EXEC_IOP_RESET_MESSAGE_setInitiatorAddress(x,y)\
_F_setTID1(x,TargetAddress,InitiatorAddress,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getFunction(x)\
_F_getFunc(x,TargetAddress,Function)
#define I2O_EXEC_IOP_RESET_MESSAGE_setFunction(x,y)\
_F_setFunc(x,TargetAddress,Function,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getVersionOffset(x)\
getU1((&(x)->VersionOffset),0)
#define I2O_EXEC_IOP_RESET_MESSAGE_setVersionOffset(x,y)\
setU1((&(x)->VersionOffset),0,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getMsgFlags(x)\
getU1((&(x)->VersionOffset),1)
#define I2O_EXEC_IOP_RESET_MESSAGE_setMsgFlags(x,y)\
setU1((&(x)->VersionOffset),1,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getMessageSize(x)\
getLU2((&(x)->VersionOffset),2)
#define I2O_EXEC_IOP_RESET_MESSAGE_setMessageSize(x,y)\
setLU2((&(x)->VersionOffset),2,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getStatusWordLowAddress(x)\
getLU4((&(x)->StatusWordLowAddress),0)
#define I2O_EXEC_IOP_RESET_MESSAGE_setStatusWordLowAddress(x,y)\
setLU4((&(x)->StatusWordLowAddress),0,y)
#define I2O_EXEC_IOP_RESET_MESSAGE_getStatusWordHighAddress(x)\
getLU4((&(x)->StatusWordHighAddress),0)
#define I2O_EXEC_IOP_RESET_MESSAGE_setStatusWordHighAddress(x,y)\
setLU4((&(x)->StatusWordHighAddress),0,y)
/*
* I2O_EXEC_STATUS_GET_MESSAGE
*/
#define I2O_EXEC_STATUS_GET_MESSAGE_getVersionOffset(x)\
getU1((&(x)->VersionOffset),0)
#define I2O_EXEC_STATUS_GET_MESSAGE_setVersionOffset(x,y)\
setU1((&(x)->VersionOffset),0,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getMsgFlags(x)\
getU1((&(x)->VersionOffset),1)
#define I2O_EXEC_STATUS_GET_MESSAGE_setMsgFlags(x,y)\
setU1((&(x)->VersionOffset),1,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getMessageSize(x)\
getLU2((&(x)->VersionOffset),2)
#define I2O_EXEC_STATUS_GET_MESSAGE_setMessageSize(x,y)\
setLU2((&(x)->VersionOffset),2,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getReplyBufferAddressLow(x)\
getLU4((&(x)->ReplyBufferAddressLow),0)
#define I2O_EXEC_STATUS_GET_MESSAGE_setReplyBufferAddressLow(x,y)\
setLU4((&(x)->ReplyBufferAddressLow),0,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getReplyBufferAddressHigh(x)\
getLU4((&(x)->ReplyBufferAddressHigh),0)
#define I2O_EXEC_STATUS_GET_MESSAGE_setReplyBufferAddressHigh(x,y)\
setLU4((&(x)->ReplyBufferAddressHigh),0,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getReplyBufferLength(x)\
getLU4((&(x)->ReplyBufferLength),0)
#define I2O_EXEC_STATUS_GET_MESSAGE_setReplyBufferLength(x,y)\
setLU4((&(x)->ReplyBufferLength),0,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getTargetAddress(x)\
_F_getTID(x,TargetAddress,TargetAddress)
#define I2O_EXEC_STATUS_GET_MESSAGE_setTargetAddress(x,y)\
_F_setTID(x,TargetAddress,TargetAddress,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getInitiatorAddress(x)\
_F_getTID1(x,TargetAddress,InitiatorAddress)
#define I2O_EXEC_STATUS_GET_MESSAGE_setInitiatorAddress(x,y)\
_F_setTID1(x,TargetAddress,InitiatorAddress,y)
#define I2O_EXEC_STATUS_GET_MESSAGE_getFunction(x)\
_F_getFunc(x,TargetAddress,Function)
#define I2O_EXEC_STATUS_GET_MESSAGE_setFunction(x,y)\
_F_setFunc(x,TargetAddress,Function,y)
/*
* I2O_MESSAGE_FRAME
*/
#define I2O_MESSAGE_FRAME_getVersionOffset(x)\
getU1((&((x)->VersionOffset)),0)
#define I2O_MESSAGE_FRAME_setVersionOffset(x,y)\
setU1(((&(x)->VersionOffset)),0,y)
#define I2O_MESSAGE_FRAME_getMsgFlags(x)\
getU1((&((x)->VersionOffset)),1)
#define I2O_MESSAGE_FRAME_setMsgFlags(x,y)\
setU1((&((x)->VersionOffset)),1,y)
#define I2O_MESSAGE_FRAME_getMessageSize(x)\
getLU2((&((x)->VersionOffset)),2)
#define I2O_MESSAGE_FRAME_setMessageSize(x,y)\
setLU2((&((x)->VersionOffset)),2,y)
#define I2O_MESSAGE_FRAME_getTargetAddress(x)\
_F_getTID(x,TargetAddress,TargetAddress)
#define I2O_MESSAGE_FRAME_setTargetAddress(x,y)\
_F_setTID(x,TargetAddress,TargetAddress,y)
#define I2O_MESSAGE_FRAME_getInitiatorAddress(x)\
_F_getTID1(x,TargetAddress,InitiatorAddress)
#define I2O_MESSAGE_FRAME_setInitiatorAddress(x,y)\
_F_setTID1(x,TargetAddress,InitiatorAddress,y)
#define I2O_MESSAGE_FRAME_getFunction(x)\
_F_getFunc(x,TargetAddress,Function)
#define I2O_MESSAGE_FRAME_setFunction(x,y)\
_F_setFunc(x,TargetAddress,Function,y)
/* 32 bit only for now */
#define I2O_MESSAGE_FRAME_getInitiatorContext(x)\
(x)->InitiatorContext
#define I2O_MESSAGE_FRAME_setInitiatorContext(x,y)\
((x)->InitiatorContext = (y))
/*
* We are spilling the 64 bit Context field into the Transaction
* context of the specific frames. Synchronous commands (resetIop
* et al) do not have this field, so beware. Also, Failed Reply frames
* can not contain the 64 bit context, the software must reference
* the PreservedMFA and pick up the 64 bit context from the incoming
* message frame. The software must make no reference to the
* TransactionContext field at all.
*/
#if defined(_MSC_VER) && _MSC_VER >= 800
#ifndef u_int64_t
#define u_int64_t unsigned __int64
#endif
#endif
#define I2O_MESSAGE_FRAME_getInitiatorContext64(x)\
(*((u_int64_t *)(&((x)->InitiatorContext))))
#define I2O_MESSAGE_FRAME_setInitiatorContext64(x,y)\
((*((u_int64_t *)(&((x)->InitiatorContext))))=(y))
/*
* I2O_EXEC_OUTBOUND_INIT_MESSAGE
*/
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_getHostPageFrameSize(x)\
getLU4((&(x)->HostPageFrameSize),0)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_setHostPageFrameSize(x,y)\
setLU4((&(x)->HostPageFrameSize),0,y)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_getInitCode(x)\
getU1((&(x)->InitCode),0)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_setInitCode(x,y)\
setU1((&(x)->InitCode),0,y)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_getreserved(x)\
getU1((&(x)->reserved),0)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_setreserved(x,y)\
setU1((&(x)->reserved),0,y)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_getOutboundMFrameSize(x)\
getLU2((&(x)->OutboundMFrameSize),0)
#define I2O_EXEC_OUTBOUND_INIT_MESSAGE_setOutboundMFrameSize(x,y)\
setLU2((&(x)->OutboundMFrameSize),0,y)
/*
* I2O_EXEC_SYS_TAB_SET_MESSAGE
*/
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_getIOP_ID(x)\
_F_get12bit(x,IOP_ID,IOP_ID)
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_setIOP_ID(x,y)\
_F_set12bit(x,IOP_ID,IOP_ID,y)
/* #define I2O_EXEC_SYS_TAB_SET_MESSAGE_getreserved1(x) */
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_getHostUnitID(x)\
_F_get16bit(x,IOP_ID,2,HostUnitID)
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_setHostUnitID(x,y)\
_F_set16bit(x,IOP_ID,2,HostUnitID,y)
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_getSegmentNumber(x)\
_F_get12bit(x,SegmentNumber,SegmentNumber)
#define I2O_EXEC_SYS_TAB_SET_MESSAGE_setSegmentNumber(x,y)\
_F_get12bit(x,SegmentNumber,SegmentNumber,y)
/* later
* I2O_EXEC_SYS_ENABLE_MESSAGE
*/
/*
* I2O_CLASS_ID
*/
#define I2O_CLASS_ID_getClass(x)\
_F_get12bit(x,Class,0,Class)
#define I2O_CLASS_ID_setClass(x,y)\
_F_set12bit(x,Class,0,Class,y)
#define I2O_CLASS_ID_getVersion(x)\
_F_get4bit4(x,Class,1,Version)
#define I2O_CLASS_ID_setVersion(x,y)\
_F_set4bit4(x,Class,1,Version,y)
#define I2O_CLASS_ID_getOrganizationID(x)\
_F_get16bit(x,Class,2,OrganizationID)
#define I2O_CLASS_ID_setOrganizationID(x,y)\
_F_set16bit(x,Class,2,OrganizationID,y)
/*
* I2O_SET_SYSTAB_HEADER
*/
#define I2O_SET_SYSTAB_HEADER_getNumberEntries(x)\
getU1((&((x)->NumberEntries)),0)
#define I2O_SET_SYSTAB_HEADER_setNumberEntries(x,y)\
setU1((&(x)->NumberEntries),0,y)
#define I2O_SET_SYSTAB_HEADER_getSysTabVersion(x)\
getU1((&((x)->SysTabVersion)),0)
#define I2O_SET_SYSTAB_HEADER_setSysTabVersion(x,y)\
setU1((&(x)->SysTabVersion),0,y)
/* U16 reserved */
/* U32 CurrentChangeIndicator */
/*
* I2O_IOP_ENTRY
*/
#define I2O_IOP_ENTRY_getOrganizationID(x)\
getLU2((&((x)->OrganizationID)),0)
#define I2O_IOP_ENTRY_setOrganizationID(x,y)\
setLU2((&((x)->OrganizationID)),0,y)
/* #define I2O_IOP_ENTRY_getreserved U16; */
#define I2O_IOP_ENTRY_getIOP_ID(x)\
_F_get12bit(x,IOP_ID,0,IOP_ID)
#define I2O_IOP_ENTRY_setIOP_ID(x,y)\
_F_set12bit(x,IOP_ID,0,IOP_ID,y)
/* BF reserved3:I2O_RESERVED_4BITS; */
/* BF reserved1:I2O_RESERVED_16BITS; */
#define I2O_IOP_ENTRY_getSegmentNumber(x)\
_F_get12bit(x,SegmentNumber,0,SegmentNumber)
#define I2O_IOP_ENTRY_setSegmentNumber(x,y)\
_F_set12bit(x,SegmentNumber,0,SegmentNumber,y)
#define I2O_IOP_ENTRY_getI2oVersion(x)\
_F_get4bit4(x,SegmentNumber,1,I2oVersion)
#define I2O_IOP_ENTRY_setI2oVersion(x,y)\
_F_set4bit4(x,SegmentNumber,1,I2oVersion,y)
#define I2O_IOP_ENTRY_getIopState(x)\
_F_get8bit(x,SegmentNumber,2,IopState)
#define I2O_IOP_ENTRY_setIopState(x,y)\
_F_set8bit(x,SegmentNumber,2,IopState,y)
#define I2O_IOP_ENTRY_getMessengerType(x)\
_F_get8bit(x,SegmentNumber,3,MessengerType)
#define I2O_IOP_ENTRY_setMessengerType(x,y)\
_F_set8bit(x,SegmentNumber,3,MessengerType,y)
#define I2O_IOP_ENTRY_getInboundMessageFrameSize(x)\
getLU2((&((x)->InboundMessageFrameSize)),0)
#define I2O_IOP_ENTRY_setInboundMessageFrameSize(x,y)\
setLU2((&((x)->InboundMessageFrameSize)),0,y)
#define I2O_IOP_ENTRY_getreserved2(x)\
getLU2((&((x)->reserved2)),0)
#define I2O_IOP_ENTRY_setreserved2(x,y)\
setLU2((&((x)->reserved2)),0,y)
#define I2O_IOP_ENTRY_getLastChanged(x)\
getLU4((&((x)->LastChanged)),0)
#define I2O_IOP_ENTRY_setLastChanged(x,y)\
setLU4((&((x)->LastChanged)),0,y)
#define I2O_IOP_ENTRY_getIopCapabilities(x)\
getLU4((&((x)->IopCapabilities)),0)
#define I2O_IOP_ENTRY_setIopCapabilities(x,y)\
setLU4((&((x)->IopCapabilities)),0,y)
/* might want to declare I2O_MESSENGER_INFO struct */
#define I2O_IOP_ENTRY_getInboundMessagePortAddressLow(x)\
getLU4((&((x)->MessengerInfo.InboundMessagePortAddressLow)),0)
#define I2O_IOP_ENTRY_setInboundMessagePortAddressLow(x,y)\
setLU4((&((x)->MessengerInfo.InboundMessagePortAddressLow)),0,y)
#define I2O_IOP_ENTRY_getInboundMessagePortAddressHigh(x)\
getLU4((&((x)->MessengerInfo.InboundMessagePortAddressHigh)),0)
#define I2O_IOP_ENTRY_setInboundMessagePortAddressHigh(x,y)\
setLU4((&((x)->MessengerInfo.InboundMessagePortAddressHigh)),0,y)
/*
* I2O_HRT
*/
#define I2O_HRT_getNumberEntries(x)\
getLU2((&((x)->NumberEntries)),0)
#define I2O_HRT_setNumberEntries(x,y)\
setLU2((&(x)->NumberEntries),0,y)
#define I2O_HRT_getEntryLength(x)\
getU1((&(x)->EntryLength),0)
#define I2O_HRT_setEntryLength(x,y)\
setU1((&(x)->EntryLength),0,y)
#define I2O_HRT_getHRTVersion(x)\
getU1((&(x)->HRTVersion),0)
#define I2O_HRT_setHRTVersion(x,y)\
setU1((&(x)->HRTVersion),0,y)
#define I2O_HRT_getCurrentChangeIndicator(x)\
getLU4((&(x)->CurrentChangeIndicator),0)
#define I2O_HRT_setCurrentChangeIndicator(x,y)\
setLU4((&(x)->CurrentChangeIndicator),0,y)
#define I2O_HRT_getHRTEntryPtr(x,y)\
((&((x)->HRTEntry[0+y])))
/*
* I2O_HRT_ENTRY
*/
#define I2O_HRT_ENTRY_getAdapterID(x)\
getLU4((&((x)->AdapterID)),0)
#define I2O_HRT_ENTRY_setAdapterID(x,y)\
setLU4((&(x)->AdapterID),0,y)
#define I2O_HRT_ENTRY_getControllingTID(x)\
_F_get12bit(x,ControllingTID,ControllingTID)
#define I2O_HRT_ENTRY_setControllingTID(x,y)\
_F_set12bit(x,ControllingTID,ControllingTID,y)
#define I2O_HRT_ENTRY_getAdapterState(x)\
_F_get4bit4(x,ControllingTID,1,AdapterState)
#define I2O_HRT_ENTRY_setIAdapterState(x,y)\
_F_set4bit4(x,ControllingTID,1,AdapterState,y)
#define I2O_HRT_ENTRY_getBusNumber(x)\
_F_get8bit(x,ControllingTID,2,BusNumber)
#define I2O_HRT_ENTRY_setBusNumber(x,y)\
_F_set8bit(x,ControllingTID,2,BusNumber,y)
#define I2O_HRT_ENTRY_getBusType(x)\
_F_get8bit(x,ControllingTID,3,BusType)
#define I2O_HRT_ENTRY_setBusType(x,y)\
_F_set8bit(x,ControllingTID,3,BusType,y)
#define I2O_HRT_ENTRY_getPCIBusPtr(x,y)\
(&((x)->uBus.PCIBus))
/*
* I2O_LCT
*/
#define I2O_LCT_getTableSize(x)\
_F_get16bit(x,TableSize,0,TableSize)
#define I2O_LCT_setTableSize(x,y)\
_F_set16bit(x,TableSize,0,TableSize,y)
#define I2O_LCT_getBootDeviceTID(x)\
_F_get12bit(x,TableSize,2,BootDeviceTID)
#define I2O_LCT_setBootDeviceTID(x,y)\
_F_set12bit(x,TableSize,2,BootDeviceTID,y)
#define I2O_LCT_getLctVer(x)\
_F_get4bit4(x,TableSize,3,LctVer)
#define I2O_LCT_setLctVer(x,y)\
_F_set4bit4(x,TableSize,3,LctVer,y)
#define I2O_LCT_getIopFlags(x)\
getLU4((&(x)->IopFlags),0)
#define I2O_LCT_setIopFlags(x,y)\
setLU4((&(x)->IopFlags),0,y)
#define I2O_LCT_getCurrentChangeIndicator(x)\
getLU4((&(x)->CurrentChangeIndicator),0)
#define I2O_LCT_setCurrentChangeIndicator(x,y)\
setLU4((&(x)->CurrentChangeIndicator),0,y)
#define I2O_LCT_getLCTEntryPtr(x,y)\
(&((x)->LCTEntry[0+y]))
/*
* I2O_LCT_ENTRY
*/
#define I2O_LCT_ENTRY_getTableEntrySize(x)\
_F_get16bit(x,TableEntrySize,0,TableEntrySize)
#define I2O_LCT_ENTRY_setTableEntrySize(x,y)\
_F_set16bit(x,TableEntrySize,0,TableEntrySize,y)
#define I2O_LCT_ENTRY_getLocalTID(x)\
_F_get12bit(x,TableEntrySize,2,LocalTID)
#define I2O_LCT_ENTRY_setLocalTID(x,y)\
_F_set12bit(x,TableEntrySize,2,LocalTID,y)
/* BF 4 reserved:I2O_4BIT_VERSION_SZ; */
#define I2O_LCT_ENTRY_getChangeIndicator(x)\
getLU4((&(x)->ChangeIndicator),0)
#define I2O_LCT_ENTRY_setChangeIndicator(x,y)\
setLU4((&(x)->ChangeIndicator),0,y)
#define I2O_LCT_ENTRY_getDeviceFlags(x)\
getLU4((&(x)->DeviceFlags),0)
#define I2O_LCT_ENTRY_setDeviceFlags(x,y)\
setLU4((&(x)->DeviceFlags),0,y)
#define I2O_LCT_ENTRY_getClassIDPtr(x)\
(&((x)->ClassID))
#define I2O_LCT_ENTRY_getSubClassInfo(x)\
getLU4((&(x)->SubClassInfo),0)
#define I2O_LCT_ENTRY_setSubClassInfo(x,y)\
setLU4((&(x)->SubClassInfo),0,y)
#define I2O_LCT_ENTRY_getUserTID(x)\
_F_getTID(x,UserTID,UserTID)
#define I2O_LCT_ENTRY_setUserTID(x,y)\
_F_setTID(x,UserTID,UserTID,y)
#define I2O_LCT_ENTRY_getParentTID(x)\
_F_getTID1(x,UserTID,ParentTID)
#define I2O_LCT_ENTRY_setParentTID(x,y)\
_F_getTID1(x,UserTID,ParentTID,y)
#define I2O_LCT_ENTRY_getBiosInfo(x)\
_F_getFunc(x,UserTID,BiosInfo)
#define I2O_LCT_ENTRY_setBiosInfo(x,y)\
_F_setFunc(x,UserTID,BiosInfo,y)
/* 2 ulong U8 8 IdentityTag[I2O_IDENTITY_TAG_SZ]; */
#define I2O_LCT_ENTRY_getEventCapabilities(x)\
getLU4((&(x)->EventCapabilities),0)
#define I2O_LCT_ENTRY_setEventCapabilities(x,y)\
setLU4((&(x)->EventCapabilities),0,y)
/*
* I2O_PARAM_OPERATIONS_LIST_HEADER
*/
#define I2O_PARAM_OPERATIONS_LIST_HEADER_getOperationCount(x)\
getLU2((&(x)->OperationCount),0)
#define I2O_PARAM_OPERATIONS_LIST_HEADER_setOperationCount(x,y)\
setLU2((&(x)->OperationCount),0,y)
#define I2O_PARAM_OPERATIONS_LIST_HEADER_getReserved(x)\
getLU2((&(x)->Reserved),0)
#define I2O_PARAM_OPERATIONS_LIST_HEADER_setReserved(x,y)\
setLU2((&(x)->Reserved),0,y)
/*
* I2O_PARAM_OPERATION_ALL_TEMPLATE
*/
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_getOperation(x)\
getLU2((&(x)->Operation),0)
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_setOperation(x,y)\
setLU2((&(x)->Operation),0,y)
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_getGroupNumber(x)\
getLU2((&(x)->GroupNumber),0)
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_setGroupNumber(x,y)\
setLU2((&(x)->GroupNumber),0,y)
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_getFieldCount(x)\
getLU2((&(x)->FieldCount),0)
#define I2O_PARAM_OPERATION_ALL_TEMPLATE_setFieldCount(x,y)\
setLU2((&(x)->FieldCount),0,y)
/*
* I2O_PARAM_RESULTS_LIST_HEADER
*/
#define I2O_PARAM_RESULTS_LIST_HEADER_getResultCount(x)\
getLU2((&(x)->ResultCount),0)
#define I2O_PARAM_RESULTS_LIST_HEADER_setResultCount(x,y)\
setLU2((&(x)->ResultCount),0,y)
#define I2O_PARAM_RESULTS_LIST_HEADER_getReserved(x)\
getLU2((&(x)->Reserved),0)
#define I2O_PARAM_RESULTS_LIST_HEADER_setReserved(x,y)\
setLU2((&(x)->Reserved),0,y)
/* later
* I2O_HBA_ADAPTER_RESET_MESSAGE
*/
/* LATER
* I2O_SCSI_DEVICE_RESET_MESSAGE
*/
/* LATER
* I2O_HBA_BUS_RESET_MESSAGE
*/
/*
* I2O_EXEC_LCT_NOTIFY_MESSAGE
*/
/* I2O_MESSAGE_FRAME StdMessageFrame; */
/* I2O_TRANSACTION_CONTEXT TransactionContext; */
#define I2O_EXEC_LCT_NOTIFY_MESSAGE_getClassIdentifier(x)\
getLU4((&(x)->ClassIdentifier),0)
#define I2O_EXEC_LCT_NOTIFY_MESSAGE_setClassIdentifier(x,y)\
setLU4((&(x)->ClassIdentifier),0,y)
#define I2O_EXEC_LCT_NOTIFY_MESSAGE_getLastReportedChangeIndicator(x)\
getLU4((&(x)->LastReportedChangeIndicator),0)
#define I2O_EXEC_LCT_NOTIFY_MESSAGE_setLastReportedChangeIndicator(x,y)\
setLU4((&(x)->LastReportedChangeIndicator),0,y)
/* I2O_SG_ELEMENT SGL; */
/*
* I2O_UTIL_PARAMS_GET_MESSAGE
*/
/* I2O_MESSAGE_FRAME StdMessageFrame; */
/* I2O_TRANSACTION_CONTEXT TransactionContext; */
#define I2O_UTIL_PARAMS_GET_MESSAGE_getOperationFlags(x)\
getLU4((&(x)->OperationFlags),0)
#define I2O_UTIL_PARAMS_GET_MESSAGE_setOperationFlags(x,y)\
setLU4((&(x)->OperationFlags),0,y)
/* I2O_SG_ELEMENT SGL; */
/*
* I2O_SCSI_SCB_ABORT_MESSAGE
*/
#define I2O_SCSI_SCB_ABORT_MESSAGE_getStdMessageFramePtr(x)\
(&((x)->StdMessageFrame))
#define I2O_SCSI_SCB_ABORT_MESSAGE_getTransactionContext(x)\
(x)->TransactionContext
#define I2O_SCSI_SCB_ABORT_MESSAGE_setTransactionContext(x,y)\
((x)->TransactionContext = (y))
#define I2O_SCSI_SCB_ABORT_MESSAGE_getTransactionContextToAbort(x)\
(x)->TransactionContextToAbort
#define I2O_SCSI_SCB_ABORT_MESSAGE_setTransactionContextToAbort(x,y)\
((x)->TransactionContextToAbort = (y))
/*
* I2O_DPT_DEVICE_INFO_SCALAR
*/
#define I2O_DPT_DEVICE_INFO_SCALAR_getDeviceType(x)\
getU1((&(x)->DeviceType),0)
#define I2O_DPT_DEVICE_INFO_SCALAR_setDeviceType(x,y)\
setU1((&(x)->DeviceType),0,y)
#define I2O_DPT_DEVICE_INFO_SCALAR_getFlags(x)\
getU1((&(x)->Flags),0)
#define I2O_DPT_DEVICE_INFO_SCALAR_setFlags(x,y)\
setU1((&(x)->Flags),0,y)
#define I2O_DPT_DEVICE_INFO_SCALAR_getBus(x)\
getLU2((&(x)->Bus),0)
#define I2O_DPT_DEVICE_INFO_SCALAR_setBus(x,y)\
setLU2((&(x)->Bus),0,y)
#define I2O_DPT_DEVICE_INFO_SCALAR_getIdentifier(x)\
getLU4((&(x)->Identifier),0)
#define I2O_DPT_DEVICE_INFO_SCALAR_setIdentifier(x,y)\
setLU4((&(x)->Identifier),0,y)
/* U8 LunInfo[8]; // SCSI-2 8-bit scalar LUN goes into offset 1 */
#define I2O_DPT_DEVICE_INFO_SCALAR_getLunInfo(x)\
getU1((&(x)->LunInfo[0]),1)
#define I2O_DPT_DEVICE_INFO_SCALAR_setLunInfo(x,y)\
setU1((&(x)->LunInfo[0]),1,y)
/*
* I2O_DPT_EXEC_IOP_BUFFERS_SCALAR
*/
#define I2O_DPT_EXEC_IOP_BUFFERS_SCALAR_getSerialOutputOffset(x)\
getLU4((&(x)->SerialOutputOffset),0)
#define I2O_DPT_EXEC_IOP_BUFFERS_SCALAR_getSerialOutputSizet(x)\
getLU4((&(x)->SerialOutputSize),0)
#define I2O_DPT_EXEC_IOP_BUFFERS_SCALAR_getSerialHeaderSize(x)\
getLU4((&(x)->SerialHeaderSize),0)
#define I2O_DPT_EXEC_IOP_BUFFERS_SCALAR_getSerialFlagsSupported(x)\
getLU4((&(x)->SerialFlagsSupported),0)
/*
* I2O_PRIVATE_MESSAGE_FRAME
*/
/* typedef struct _I2O_PRIVATE_MESSAGE_FRAME { */
/* I2O_MESSAGE_FRAME StdMessageFrame; */
/* I2O_TRANSACTION_CONTEXT TransactionContext; */
/* U16 XFunctionCode; */
/* U16 OrganizationID; */
/* PrivatePayload[]; */
/* } I2O_PRIVATE_MESSAGE_FRAME, *PI2O_PRIVATE_MESSAGE_FRAME; */
#define I2O_PRIVATE_MESSAGE_FRAME_getTransactionContext(x) \
(x)->TransactionContext
#define I2O_PRIVATE_MESSAGE_FRAME_setTransactionContext(x,y) \
((x)->TransactionContext = (y))
#define I2O_PRIVATE_MESSAGE_FRAME_getXFunctionCode(x) \
getLU2((&(x)->XFunctionCode),0)
#define I2O_PRIVATE_MESSAGE_FRAME_setXFunctionCode(x,y) \
setLU2((&(x)->XFunctionCode),0,y)
#define I2O_PRIVATE_MESSAGE_FRAME_getOrganizationID(x) \
getLU2((&(x)->OrganizationID),0)
#define I2O_PRIVATE_MESSAGE_FRAME_setOrganizationID(x,y) \
setLU2((&(x)->OrganizationID),0,y)
/* typedef struct _PRIVATE_SCSI_SCB_EXECUTE_MESSAGE {
* I2O_PRIVATE_MESSAGE_FRAME PRIVATE_SCSI_SCB_EXECUTE_MESSAGE;
* BF TID:16; // Upper four bits currently are zero
* // Command is interpreted by the host
* BF Interpret:1;
* // if TRUE, deal with Physical Firmware Array information
* BF Physical:1;
* BF Reserved1:14;
* U8 CDBLength;
* U8 Reserved;
* I2O_SCB_FLAGS SCBFlags;
* U8 CDB[ I2O_SCSI_CDB_LENGTH=16 ];
* U32 ByteCount;
* I2O_SG_ELEMENT SGL;
* } PRIVATE_SCSI_SCB_EXECUTE_MESSAGE, * PPRIVATE_SCSI_SCB_EXECUTE_MESSAGE;
*/
/*
* PRIVATE_SCSI_SCB_EXECUTE_MESSAGE
*/
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getPRIVATE_SCSI_SCB_EXECUTE_MESSAGEPtr(x)\
(&((x)->PRIVATE_SCSI_SCB_EXECUTE_MESSAGE))
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getCDBLength(x)\
getU1((&(x)->CDBLength),0)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setCDBLength(x,y)\
setU1((&(x)->CDBLength),0,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getReserved(x)\
getU1((&(x)->Reserved),0)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setReserved(x,y)\
setU1((&(x)->Reserved),0,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getSCBFlags(x)\
getLU2((&(x)->SCBFlags),0)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setSCBFlags(x,y)\
setLU2((&(x)->SCBFlags),0,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getByteCount(x)\
getLU4((&((x)->ByteCount)),0)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setByteCount(x,y)\
setLU4((&((x)->ByteCount)),0,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getTID(x)\
_F_get16bit(x,TID,0,TID)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setTID(x,y)\
_F_set16bit(x,TID,0,TID,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getInterpret(x)\
_F_get1bit(x,TID,2,Interpret)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setInterpret(x,y)\
_F_set1bit(x,TID,2,Interpret,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getPhysical(x)\
_F_get1bit1(x,TID,2,Physical)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_setPhysical(x,y)\
_F_set1bit1(x,TID,2,Physical,y)
#define PRIVATE_SCSI_SCB_EXECUTE_MESSAGE_getCDBPtr(x)\
(&((x)->CDB[0]))
/*
* PRIVATE_FLASH_REGION_MESSAGE
*/
#define PRIVATE_FLASH_REGION_MESSAGE_getFlashRegion(x) \
getLU4((&((x)->FlashRegion)),0)
#define PRIVATE_FLASH_REGION_MESSAGE_setFlashRegion(x,y) \
setLU4((&((x)->FlashRegion)),0,y)
#define PRIVATE_FLASH_REGION_MESSAGE_getRegionOffset(x) \
getLU4((&((x)->RegionOffset)),0)
#define PRIVATE_FLASH_REGION_MESSAGE_setRegionOffset(x,y) \
setLU4((&((x)->RegionOffset)),0,y)
#define PRIVATE_FLASH_REGION_MESSAGE_getByteCount(x) \
getLU4((&((x)->ByteCount)),0)
#define PRIVATE_FLASH_REGION_MESSAGE_setByteCount(x,y) \
setLU4((&((x)->ByteCount)),0,y)
/*
* I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR
*/
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getSCSIType(x)\
getU1((&(x)->SCSIType),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setSCSIType(x,y)\
setU1((&(x)->SCSIType),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getProtectionManagement(x)\
getU1((&(x)->ProtectionManagement),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setProtectionManagement(x,y)\
setU1((&(x)->ProtectionManagement),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getSettings(x)\
getU1((&(x)->Settings),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setSettings(x,y)\
setU1((&(x)->Settings),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getReserved1(x)\
getU1((&(x)->Reserved1),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setReserved1(x,y)\
setU1((&(x)->Reserved1),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getInitiatorID(x)\
getLU4((&(x)->InitiatorID),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setInitiatorID(x,y)\
setLU4((&(x)->InitiatorID),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getScanLun0Only(x)\
getLU4((&(x)->ScanLun0Only),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setScanLun0Only(x,y)\
setLU4((&(x)->ScanLun0Only),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getDisableDevice(x)\
getLU2((&(x)->DisableDevice),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setDisableDevice(x,y)\
setLU2((&(x)->DisableDevice),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getMaxOffset(x)\
getU1((&(x)->MaxOffset),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setMaxOffset(x,y)\
setU1((&(x)->MaxOffset),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getMaxDataWidth(x)\
getU1((&(x)->MaxDataWidth),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setMaxDataWidth(x,y)\
setU1((&(x)->MaxDataWidth),0,y)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_getMaxSyncRate(x)\
getLU4((&(x)->MaxSyncRate),0)
#define I2O_HBA_SCSI_CONTROLLER_INFO_SCALAR_setMaxSyncRate(x,y)\
setLU4((&(x)->MaxSyncRate),0,y)
/*
* I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME
*/
#define I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME_getStdReplyFramePtr(x)\
(&((x)->StdReplyFrame))
#define I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME_getTransferCount(x)\
getLU4((&(x)->TransferCount),0)
#define I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME_setTransferCount(x,y)\
setLU4((&(x)->TransferCount),0,y)
#define I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME_getAutoSenseTransferCount(x)\
getLU4((&(x)->AutoSenseTransferCount),0)
#define I2O_SCSI_ERROR_REPLY_MESSAGE_FRAME_setAutoSenseTransferCount(x,y)\
setLU4((&(x)->AutoSenseTransferCount),0,y)
/*
* I2O_SINGLE_REPLY_MESSAGE_FRAME
*/
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_getStdMessageFramePtr(x)\
(&((x)->StdMessageFrame))
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_getTransactionContext(x)\
(x)->TransactionContext
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_setTransactionContext(x,y)\
((x)->TransactionContext = (y))
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_getDetailedStatusCode(x)\
getLU2((&((x)->DetailedStatusCode)),0)
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_setDetailedStatusCode(x,y)\
setLU2((&((x)->DetailedStatusCode)),0,y)
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_getreserved(x)\
getU1((&((x)->reserved)),0)
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_setreserved(x,y)\
setU1((&((x)->reserved)),0,y)
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_getReqStatus(x)\
getU1((&((x)->ReqStatus)),0)
#define I2O_SINGLE_REPLY_MESSAGE_FRAME_setReqStatus(x,y)\
setU1((&((x)->ReqStatus)),0,y)
/*
* I2O_SCSI_SCB_EXECUTE_MESSAGE
*/
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getStdMessageFramePtr(x)\
(&((x)->StdMessageFrame))
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getTransactionContext(x)\
(x)->TransactionContext
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_setTransactionContext(x,y)\
((x)->TransactionContext = (y))
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getCDBLength(x)\
getU1((&((x)->CDBLength)),0)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_setCDBLength(x,y)\
setU1((&((x)->CDBLength)),0,y)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getReserved(x)\
getU1((&((x)->Reserved)),0)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_setReserved(x,y)\
setU1((&((x)->Reserved)),0,y)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getSCBFlags(x)\
getLU2((&((x)->SCBFlags)),0)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_setSCBFlags(x,y)\
setLU2((&((x)->SCBFlags)),0,y)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_getByteCount(x)\
getLU2((&((x)->ByteCount)),0)
#define I2O_SCSI_SCB_EXECUTE_MESSAGE_setByteCount(x,y)\
setLU2((&((x)->ByteCount)),0,y)
/* define for these */
/* U8 CDB[16]; */
/* I2O_SG_ELEMENT SGL; */
/*
* I2O_FAILURE_REPLY_MESSAGE_FRAME
*/
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getStdMessageFramePtr(x)\
(&((x)->StdMessageFrame))
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getTransactionContext(x)\
(x)->TransactionContext
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setTransactionContext(x,y)\
((x)->TransactionContext = (y))
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getLowestVersion(x)\
getU1((&((x)->LowestVersion)),0)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setLowestVersion(x,y)\
setU1((&((x)->LowestVersion)),0,y)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getHighestVersion(x)\
getU1((&((x)->HighestVersion)),0)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setHighestVersion(x,y)\
setU1((&((x)->HighestVersion)),0,y)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getAgeLimit(x)\
getLU4((&((x)->AgeLimit)),0)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setAgeLimit(x,y)\
setLU4((&((x)->AgeLimit)),0,y)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getSeverity(x)\
_F_get8bit(x,Severity,0,Severity)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setSeverity(x,y)\
_F_set8bit(x,Severity,0,Severity,y)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getFailureCode(x)\
_F_get8bit(x,Severity,1,FailureCode)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setFailureCode(x,y)\
_F_get8bit(x,Severity,1,FailureCode,y)
/*
* #define I2O_FAILURE_REPLY_MESSAGE_FRAME_getFailingHostUnitID(x)\
* _F_get16bit(x,reserved,1,FailingHostUnitID)
* #define I2O_FAILURE_REPLY_MESSAGE_FRAME_setFailingHostUnitID(x,y)\
* _F_set16bit(x,reserved,1,FailingHostUnitID,y)
*/
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_getPreservedMFA(x)\
getLU4((&((x)->PreservedMFA)),0)
#define I2O_FAILURE_REPLY_MESSAGE_FRAME_setPreservedMFA(x,y)\
setLU4((&((x)->PreservedMFA)),0,y)
/*
* I2O_EXEC_STATUS_GET_REPLY
*/
#define I2O_EXEC_STATUS_GET_REPLY_getOrganizationID(x)\
getLU2((&(x)->OrganizationID),0)
#define I2O_EXEC_STATUS_GET_REPLY_setOrganizationID(x,y)\
setLU2((&(x)->OrganizationID),0,y)
/* #define I2O_EXEC_STATUS_GET_REPLY_getreserved; */
#define I2O_EXEC_STATUS_GET_REPLY_getIOP_ID(x)\
_F_get12bit(x,IOP_ID,0,IOP_ID)
#define I2O_EXEC_STATUS_GET_REPLY_setIOP_ID(x,y)\
_F_set12bit(x,IOP_ID,0,IOP_ID,y)
/* #define I2O_EXEC_STATUS_GET_REPLY_getreserved1(x) */
#define I2O_EXEC_STATUS_GET_REPLY_getHostUnitID(x)\
_F_get16bit(x,IOP_ID,2,HostUnitID)
#define I2O_EXEC_STATUS_GET_REPLY_setHostUnitID(x,y)\
_F_set16bit(x,IOP_ID,2,HostUnitID,y)
#define I2O_EXEC_STATUS_GET_REPLY_getSegmentNumber(x)\
_F_get12bit(x,SegmentNumber,0,SegmentNumber)
#define I2O_EXEC_STATUS_GET_REPLY_setSegmentNumber(x,y)\
_F_set12bit(x,SegmentNumber,0,SegmentNumber,y)
#define I2O_EXEC_STATUS_GET_REPLY_getI2oVersion(x)\
_F_get4bit4(x,SegmentNumber,1,I2oVersion)
#define I2O_EXEC_STATUS_GET_REPLY_setI2oVersion(x,y)\
_F_set4bit4(x,SegmentNumber,1,I2oVersion,y)
#define I2O_EXEC_STATUS_GET_REPLY_getIopState(x)\
_F_get8bit(x,SegmentNumver,2,IopState)
#define I2O_EXEC_STATUS_GET_REPLY_setIopState(x,y)\
_F_set8bit(x,SegmentNumver,2,IopState,y)
#define I2O_EXEC_STATUS_GET_REPLY_getMessengerType(x)\
_F_get8bit(x,SegmentNumber,3,MessengerType)
#define I2O_EXEC_STATUS_GET_REPLY_setMessengerType(x,y)\
_F_get8bit(x,SegmentNumber,3,MessengerType,y)
#define I2O_EXEC_STATUS_GET_REPLY_getInboundMFrameSize(x)\
getLU2((&(x)->InboundMFrameSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setInboundMFrameSize(x,y)\
setLU2((&(x)->InboundMFrameSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getInitCode(x)\
getU1((&(x)->InitCode),0)
#define I2O_EXEC_STATUS_GET_REPLY_setInitCode(x,y)\
setU1((&(x)->InitCode),0,y)
/* #define I2O_EXEC_STATUS_GET_REPLY_getreserved2(x) */
#define I2O_EXEC_STATUS_GET_REPLY_getMaxInboundMFrames(x)\
getLU4((&(x)->MaxInboundMFrames),0)
#define I2O_EXEC_STATUS_GET_REPLY_setMaxInboundMFrames(x,y)\
setLU4((&(x)->MaxInboundMFrames),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getCurrentInboundMFrames(x)\
getLU4((&(x)->CurrentInboundMFrames),0)
#define I2O_EXEC_STATUS_GET_REPLY_setCurrentInboundMFrames(x,y)\
setLU4((&(x)->CurrentInboundMFrames),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getMaxOutboundMFrames(x)\
getLU4((&(x)->MaxOutboundMFrames),0)
#define I2O_EXEC_STATUS_GET_REPLY_setMaxOutboundMFrames(x,y)\
setLU4((&(x)->MaxOutboundMFrames),0,y)
/* #define I2O_EXEC_STATUS_GET_REPLY_getProductIDString(x) */
#define I2O_EXEC_STATUS_GET_REPLY_getExpectedLCTSize(x)\
getLU4((&(x)->ExpectedLCTSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setExpectedLCTSize(x,y)\
setLU4((&(x)->ExpectedLCTSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getIopCapabilities(x)\
getLU4((&(x)->IopCapabilities),0)
#define I2O_EXEC_STATUS_GET_REPLY_setIopCapabilities(x,y)\
setLU4((&(x)->IopCapabilities),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getDesiredPrivateMemSize(x)\
getLU4((&(x)->DesiredPrivateMemSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setDesiredPrivateMemSize(x,y)\
setLU4((&(x)->DesiredPrivateMemSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getCurrentPrivateMemSize(x)\
getLU4((&(x)->CurrentPrivateMemSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setCurrentPrivateMemSize(x,y)\
setLU4((&(x)->CurrentPrivateMemSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getCurrentPrivateMemBase(x)\
getLU4((&(x)->CurrentPrivateMemBase),0)
#define I2O_EXEC_STATUS_GET_REPLY_setCurrentPrivateMemBase(x,y)\
setLU4((&(x)->CurrentPrivateMemBase),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getDesiredPrivateIOSize(x)\
getLU4((&(x)->DesiredPrivateIOSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setDesiredPrivateIOSize(x,y)\
setLU4((&(x)->DesiredPrivateIOSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getCurrentPrivateIOSize(x)\
getLU4((&(x)->CurrentPrivateIOSize),0)
#define I2O_EXEC_STATUS_GET_REPLY_setCurrentPrivateIOSize(x,y)\
setLU4((&(x)->CurrentPrivateIOSize),0,y)
#define I2O_EXEC_STATUS_GET_REPLY_getCurrentPrivateIOBase(x)\
getLU4((&(x)->CurrentPrivateIOBase),0)
#define I2O_EXEC_STATUS_GET_REPLY_setCurrentPrivateIOBase(x,y)\
setLU4((&(x)->CurrentPrivateIOBase),0,y)
/* #define I2O_EXEC_STATUS_GET_REPLY_getreserved3(x) */
#define I2O_EXEC_STATUS_GET_REPLY_getSyncByte(x)\
getU1((&(x)->SyncByte),0)
#define I2O_EXEC_STATUS_GET_REPLY_setSyncByte(x,y)\
setU1((&(x)->SyncByte),0,y)
/*
* I2O_HBA_BUS_QUIESCE_MESSAGE
*/
#define I2O_HBA_BUS_QUIESCE_MESSAGE_getStdMessageFramePtr(x)\
(&((x)->StdMessageFrame))
#define I2O_HBA_BUS_QUIESCE_MESSAGE_getTransactionContext(x)\
getBU4((&((x)->TransactionContext)),0)
#define I2O_HBA_BUS_QUIESCE_MESSAGE_setTransactionContext(x,y)\
setBU4((&((x)->TransactionContext)),0,y)
#define I2O_HBA_BUS_QUIESCE_MESSAGE_getFlags(x)\
getLU4((&(x)->Flags),0)
#define I2O_HBA_BUS_QUIESCE_MESSAGE_setFlags(x,y)\
setLU4((&(x)->Flags),0,y)
#endif /* __INCi2odeph */