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/*- **************************************************************************** * * 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. * * $FreeBSD: release/9.1.0/sys/dev/asr/i2odep.h 155278 2006-02-04 08:01:49Z scottl $ * **************************************************************************/ /* * 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 u_int32_t U32; typedef int32_t 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) #if 0 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; #endif /* * 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 */