windows-nt/Source/XPSP1/NT/base/wmi/fchba/hbaapi/method.c

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2020-09-26 03:20:57 -05:00
//***************************************************************************
//
// method.c
//
// Module: Windows HBA API implmentation
//
// Purpose: Contains routines for doing things
//
// Copyright (c) 2001 Microsoft Corporation
//
//***************************************************************************
#include "hbaapip.h"
HBA_STATUS HBA_GetDiscoveredPortAttributesX(
HBA_HANDLE HbaHandle,
HBA_UINT32 PortIndex,
HBA_UINT32 DiscoveredPortIndex,
HBA_PORTATTRIBUTES *HbaPortAttributes,
BOOLEAN IsAnsi
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
PUCHAR Buffer;
ULONG DataLength;
GetDiscoveredPortAttributes_IN InData;
PGetDiscoveredPortAttributes_OUT OutData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAPortMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
DataLength = sizeof(GetDiscoveredPortAttributes_OUT);
Buffer = AllocMemory(DataLength);
if (Buffer != NULL)
{
InData.PortIndex = PortIndex;
InData.DiscoveredPortIndex = DiscoveredPortIndex;
OutData = (PGetDiscoveredPortAttributes_OUT)Buffer;
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
GetDiscoveredPortAttributes,
sizeof(GetDiscoveredPortAttributes_IN),
&InData,
&DataLength,
OutData);
if (Status == ERROR_SUCCESS)
{
//
// Copy port attribs from buffer into
//
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if (HbaStatus == HBA_STATUS_OK)
{
CopyPortAttributes(HbaPortAttributes,
(PUCHAR)&OutData->PortAttributes,
IsAnsi);
}
}
FreeMemory(Buffer);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_GetDiscoveredPortAttributes(
HBA_HANDLE HbaHandle,
HBA_UINT32 PortIndex,
HBA_UINT32 DiscoveredPortIndex,
HBA_PORTATTRIBUTES *HbaPortAttribute
)
{
return(HBA_GetDiscoveredPortAttributesX(HbaHandle,
PortIndex,
DiscoveredPortIndex,
HbaPortAttribute,
TRUE));
}
HBA_STATUS HBA_GetPortAttributesByWWNX(
HBA_HANDLE HbaHandle,
HBA_WWN PortWWN,
HBA_PORTATTRIBUTES *HbaPortAttributes,
BOOLEAN IsAnsi
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
PUCHAR Buffer;
ULONG DataLength;
PGetPortAttributesByWWN_IN InData;
PGetPortAttributesByWWN_OUT OutData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAPortMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
DataLength = sizeof(GetPortAttributesByWWN_OUT);
Buffer = (PUCHAR)AllocMemory(DataLength);
if (Buffer != NULL)
{
InData = (PGetPortAttributesByWWN_IN)&PortWWN;
OutData = (PGetPortAttributesByWWN_OUT)Buffer;
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
GetPortAttributesByWWN,
sizeof(GetPortAttributesByWWN_IN),
InData,
&DataLength,
OutData);
if (Status == ERROR_SUCCESS)
{
//
// Copy port attribs from buffer into
//
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if (HbaStatus == HBA_STATUS_OK)
{
CopyPortAttributes(HbaPortAttributes,
(PUCHAR)&OutData->PortAttributes,
IsAnsi);
}
}
FreeMemory(Buffer);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_GetPortAttributesByWWN(
HBA_HANDLE HbaHandle,
HBA_WWN PortWWN,
HBA_PORTATTRIBUTES *HbaPortAttributes
)
{
return(HBA_GetPortAttributesByWWNX(HbaHandle,
PortWWN,
HbaPortAttributes,
TRUE));
}
HBA_STATUS HBA_API HBA_SendCTPassThru(
HBA_HANDLE HbaHandle,
void * pReqBuffer,
HBA_UINT32 ReqBufferSize,
void * pRspBuffer,
HBA_UINT32 RspBufferSize
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
PUCHAR Buffer;
ULONG DataLength, InDataLength, OutDataLength;
PSendCTPassThru_OUT OutData;
PSendCTPassThru_IN InData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAFc3MgmtMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
if (ReqBufferSize > RspBufferSize)
{
DataLength = ReqBufferSize;
} else {
DataLength = RspBufferSize;
}
DataLength += sizeof(SendCTPassThru_OUT);
Buffer = AllocMemory(DataLength);
if (Buffer != NULL)
{
InData = (PSendCTPassThru_IN)Buffer;
OutData = (PSendCTPassThru_OUT)Buffer;
InDataLength = sizeof(SendCTPassThru_IN) + ReqBufferSize - 1;
InData->RequestBufferCount = ReqBufferSize;
memcpy(InData->RequestBuffer,
pReqBuffer,
ReqBufferSize);
OutDataLength = sizeof(SendCTPassThru_OUT) + RspBufferSize - 1;
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
SendCTPassThru,
InDataLength,
InData,
&OutDataLength,
OutData);
if (Status == ERROR_SUCCESS)
{
if (OutData->ResponseBufferCount <= RspBufferSize)
{
RspBufferSize = OutData->ResponseBufferCount;
} else {
DebugPrint(("HBAAPI: Response size from SendCTPass is %d and is larger than %d\n",
OutData->ResponseBufferCount,
RspBufferSize));
}
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if ((HbaStatus == HBA_STATUS_OK) ||
(HbaStatus == HBA_STATUS_ERROR_MORE_DATA))
{
memcpy(pRspBuffer,
OutData->ResponseBuffer,
RspBufferSize);
}
}
FreeMemory(Buffer);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_SendRNID(
HBA_HANDLE HbaHandle,
HBA_WWN wwn,
HBA_WWNTYPE wwntype,
void * pRspBuffer,
HBA_UINT32 *RspBufferSize
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
PUCHAR Buffer;
ULONG DataLength;
SendRNID_IN InData;
PSendRNID_OUT OutData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAFc3MgmtMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
DataLength = sizeof(SendRNID_OUT) -1 + *RspBufferSize;
Buffer = AllocMemory(DataLength);
if (Buffer != NULL)
{
memcpy(InData.wwn,
&wwn.wwn,
sizeof(HBA_WWN));
InData.wwntype = (ULONG)wwntype;
OutData = (PSendRNID_OUT)Buffer;
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
SendRNID,
sizeof(SendRNID_IN),
&InData,
&DataLength,
OutData);
if (Status == ERROR_SUCCESS)
{
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if ((HbaStatus == HBA_STATUS_OK) ||
(HbaStatus == HBA_STATUS_ERROR_MORE_DATA))
{
if (OutData->ResponseBufferCount <= *RspBufferSize)
{
*RspBufferSize = OutData->ResponseBufferCount;
} else {
DebugPrint(("HBAAPI: Response size from SendRNID is %d and is larger than %d\n",
OutData->ResponseBufferCount,
*RspBufferSize));
}
memcpy(pRspBuffer,
OutData->ResponseBuffer,
*RspBufferSize);
}
}
FreeMemory(Buffer);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
_inline void CopyScsiId(
PHBA_SCSIID HbaScsiId,
PHBAScsiID WmiScsiId,
BOOLEAN IsAnsi
)
{
PUCHAR p;
p = (PUCHAR)WmiScsiId->OSDeviceName;
CopyString(HbaScsiId->OSDeviceName,
&p,
256,
IsAnsi);
HbaScsiId->ScsiBusNumber = WmiScsiId->ScsiBusNumber;
HbaScsiId->ScsiTargetNumber = WmiScsiId->ScsiTargetNumber;
HbaScsiId->ScsiOSLun = WmiScsiId->ScsiOSLun;
}
_inline void CopyFcpId(
PHBA_FCPID HbaFcpId,
PHBAFCPID WmiFcpId
)
{
HbaFcpId->FcId = WmiFcpId->Fcid;
HbaFcpId->FcpLun = WmiFcpId->FcpLun;
memcpy(&HbaFcpId->NodeWWN,
&WmiFcpId->NodeWWN,
sizeof(HBA_WWN));
memcpy(&HbaFcpId->PortWWN,
&WmiFcpId->PortWWN,
sizeof(HBA_WWN));
}
HBA_STATUS HBA_GetFcpTargetMappingX (
HBA_HANDLE HbaHandle,
PHBA_FCPTARGETMAPPING Mapping,
BOOLEAN IsAnsi
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
ULONG DataLength;
PGetFcpTargetMapping_OUT OutData;
ULONG MapCount, ActualCount, i;
PHBA_FCPSCSIENTRY MapEntry;
PHBAFCPScsiEntry OutEntry;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&(MSFC_HBAFCPInfo_GUID),
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
Status = ExecuteMethod(Handle,
HandleData->InstanceName,
GetFcpTargetMapping,
0,
NULL,
&DataLength,
(PUCHAR *)&OutData);
if (Status == ERROR_SUCCESS)
{
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if (HbaStatus == HBA_STATUS_OK)
{
MapCount = Mapping->NumberOfEntries;
ActualCount = OutData->EntryCount;
Mapping->NumberOfEntries = ActualCount;
if (MapCount > ActualCount)
{
MapCount = ActualCount;
HbaStatus = HBA_STATUS_ERROR_MORE_DATA;
}
for (i = 0; i < MapCount; i++)
{
MapEntry = &Mapping->entry[i];
OutEntry = &OutData->Entry[i];
CopyScsiId(&MapEntry->ScsiId,
&OutEntry->ScsiId,
IsAnsi);
CopyFcpId(&MapEntry->FcpId,
&OutEntry->FCPId);
}
}
FreeMemory(OutData);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_GetFcpTargetMapping (
HBA_HANDLE HbaHandle,
PHBA_FCPTARGETMAPPING Mapping
)
{
return(HBA_GetFcpTargetMappingX(HbaHandle,
Mapping,
TRUE));
}
HBA_STATUS HBA_GetFcpPersistentBindingX (
HBA_HANDLE HbaHandle,
PHBA_FCPBINDING binding,
BOOLEAN IsAnsi
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
ULONG DataLength;
PGetFcpPersistentBinding_OUT OutData;
ULONG MapCount, ActualCount, i;
PHBA_FCPBINDINGENTRY MapEntry;
PHBAFCPBindingEntry OutEntry;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAFCPInfo_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
Status = ExecuteMethod(Handle,
HandleData->InstanceName,
GetFcpTargetMapping,
0,
NULL,
&DataLength,
(PUCHAR *)&OutData);
if (Status == ERROR_SUCCESS)
{
//
// Get the HBA status returned from the miniport.
// If the status is HBA_STATUS_OK then the miniport
// has successfully completed the operation and has
// returned results to us. If the status is not
// HBA_STATUS_OK then the miniport is returning an
// HBA api error which we will in turn return to
// the caller. In this case the additional results
// are not valid.
//
HbaStatus = OutData->HBAStatus;
if (HbaStatus == HBA_STATUS_OK)
{
MapCount = binding->NumberOfEntries;
ActualCount = OutData->EntryCount;
binding->NumberOfEntries = ActualCount;
if (MapCount > ActualCount)
{
MapCount = ActualCount;
HbaStatus = HBA_STATUS_ERROR_MORE_DATA;
}
for (i = 0; i < MapCount; i++)
{
MapEntry = &binding->entry[i];
OutEntry = &OutData->Entry[i];
MapEntry->type = OutEntry->Type;
CopyScsiId(&MapEntry->ScsiId,
&OutEntry->ScsiId,
IsAnsi);
CopyFcpId(&MapEntry->FcpId,
&OutEntry->FCPId);
}
}
FreeMemory(OutData);
}
WmiCloseBlock(Handle);
}
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_GetFcpPersistentBinding (
HBA_HANDLE handle,
PHBA_FCPBINDING binding
)
{
return(HBA_GetFcpPersistentBindingX(handle,
binding,
TRUE));
}
void HBA_API HBA_ResetStatistics(
HBA_HANDLE HbaHandle,
HBA_UINT32 PortIndex
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
PWCHAR InstanceName;
ULONG DataLength;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_FibrePortHBAMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
InstanceName = CreatePortInstanceNameW(HandleData->InstanceName,
PortIndex);
if (InstanceName != NULL)
{
DataLength = 0;
Status = WmiExecuteMethodW(Handle,
InstanceName,
ResetStatistics,
0,
NULL,
&DataLength,
NULL);
#if DBG
if (Status != ERROR_SUCCESS)
{
DebugPrint(("HBAAPI: ResetStatistics method failed %d\n",
Status));
}
#endif
FreeMemory(InstanceName);
}
WmiCloseBlock(Handle);
}
}
}
HBA_STATUS HBA_API HBA_SetRNIDMgmtInfo(
HBA_HANDLE HbaHandle,
HBA_MGMTINFO *HbaMgmtInfo
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
ULONG DataLength;
SetFC3MgmtInfo_IN InData;
SetFC3MgmtInfo_OUT OutData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAFc3MgmtMethods_GUID,
GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
//
// We have got our Management info, so copy them
// over to the input buffer
//
memcpy(InData.MgmtInfo.wwn,
&HbaMgmtInfo->wwn,
sizeof(HBA_WWN));
InData.MgmtInfo.unittype = HbaMgmtInfo->unittype;
InData.MgmtInfo.PortId = HbaMgmtInfo->PortId;
InData.MgmtInfo.NumberOfAttachedNodes = HbaMgmtInfo->NumberOfAttachedNodes;
InData.MgmtInfo.IPVersion = HbaMgmtInfo->IPVersion;
InData.MgmtInfo.UDPPort = HbaMgmtInfo->UDPPort;
memcpy(InData.MgmtInfo.IPAddress,
HbaMgmtInfo->IPAddress,
16);
InData.MgmtInfo.reserved = HbaMgmtInfo->reserved;
InData.MgmtInfo.TopologyDiscoveryFlags = HbaMgmtInfo->TopologyDiscoveryFlags;
DataLength = sizeof(SetFC3MgmtInfo_OUT);
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
SetFC3MgmtInfo,
sizeof(SetFC3MgmtInfo_IN),
&InData,
&DataLength,
&OutData);
if (Status == ERROR_SUCCESS)
{
//
// Get the HBA status returned from the miniport.
// If the miniport returns HBA_STATUS_OK then all
// data is filled in the data block. If any other
// HBA status is returned then the miniport is
// reporting an error and we want to return that
// HBA error code to the caller
//
HbaStatus = OutData.HBAStatus;
}
WmiCloseBlock(Handle);
}
} else {
HbaStatus = HBA_STATUS_ERROR_INVALID_HANDLE;
}
return(HbaStatus);
}
HBA_STATUS HBA_API HBA_GetRNIDMgmtInfo(
HBA_HANDLE HbaHandle,
HBA_MGMTINFO *HbaMgmtInfo
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
HBA_STATUS HbaStatus = HBA_STATUS_ERROR;
ULONG DataLength;
GetFC3MgmtInfo_OUT OutData;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAFc3MgmtMethods_GUID,
GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
DataLength = sizeof(GetFC3MgmtInfo_OUT);
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
GetFC3MgmtInfo,
0,
NULL,
&DataLength,
&OutData);
if (Status == ERROR_SUCCESS)
{
//
// Get the HBA status returned from the miniport.
// If the miniport returns HBA_STATUS_OK then all
// data is filled in the data block. If any other
// HBA status is returned then the miniport is
// reporting an error and we want to return that
// HBA error code to the caller
//
HbaStatus = OutData.HBAStatus;
if (HbaStatus == HBA_STATUS_OK)
{
//
// We have got our Management info, so copy them
// over to the output buffer
//
memcpy(&HbaMgmtInfo->wwn,
OutData.MgmtInfo.wwn,
sizeof(HBA_WWN));
HbaMgmtInfo->unittype = OutData.MgmtInfo.unittype;
HbaMgmtInfo->PortId = OutData.MgmtInfo.PortId;
HbaMgmtInfo->NumberOfAttachedNodes = OutData.MgmtInfo.NumberOfAttachedNodes;
HbaMgmtInfo->IPVersion = OutData.MgmtInfo.IPVersion;
HbaMgmtInfo->UDPPort = OutData.MgmtInfo.UDPPort;
memcpy(HbaMgmtInfo->IPAddress,
OutData.MgmtInfo.IPAddress,
16);
HbaMgmtInfo->reserved = OutData.MgmtInfo.reserved;
HbaMgmtInfo->TopologyDiscoveryFlags = OutData.MgmtInfo.TopologyDiscoveryFlags;
}
}
WmiCloseBlock(Handle);
}
} else {
HbaStatus = HBA_STATUS_ERROR_INVALID_HANDLE;
}
return(HbaStatus);
}
void HBA_API HBA_RefreshInformation(
HBA_HANDLE HbaHandle
)
{
HANDLE Handle;
PADAPTER_HANDLE HandleData;
ULONG Status;
ULONG DataLength;
HandleData = GetDataByHandle(HbaHandle);
if (HandleData != NULL)
{
Status = WmiOpenBlock((LPGUID)&MSFC_HBAPortMethods_GUID,
GENERIC_READ | GENERIC_EXECUTE,
&Handle);
if (Status == ERROR_SUCCESS)
{
DataLength = 0;
Status = WmiExecuteMethodW(Handle,
HandleData->InstanceName,
RefreshInformation,
0,
NULL,
&DataLength,
NULL);
#if DBG
if (Status != ERROR_SUCCESS)
{
DebugPrint(("HBAAPI: RefreshInformation method failed %d\n",
Status));
}
#endif
WmiCloseBlock(Handle);
}
}
}
//
// Not implemented yet
//
HBA_STATUS HBA_API HBA_GetEventBuffer(
HBA_HANDLE handle,
PHBA_EVENTINFO EventBuffer,
HBA_UINT32 *EventCount
)
{
return(HBA_STATUS_ERROR_NOT_SUPPORTED);
}
//
// SCSI apis are not supported by design
//
HBA_STATUS HBA_API HBA_SendScsiInquiry (
HBA_HANDLE handle,
HBA_WWN PortWWN,
HBA_UINT64 fcLUN,
HBA_UINT8 EVPD,
HBA_UINT32 PageCode,
void * pRspBuffer,
HBA_UINT32 RspBufferSize,
void * pSenseBuffer,
HBA_UINT32 SenseBufferSize)
{
return(HBA_STATUS_ERROR_NOT_SUPPORTED);
}
HBA_STATUS HBA_API HBA_SendReportLUNs (
HBA_HANDLE handle,
HBA_WWN portWWN,
void * pRspBuffer,
HBA_UINT32 RspBufferSize,
void * pSenseBuffer,
HBA_UINT32 SenseBufferSize
)
{
return(HBA_STATUS_ERROR_NOT_SUPPORTED);
}
HBA_STATUS HBA_API HBA_SendReadCapacity (
HBA_HANDLE handle,
HBA_WWN portWWN,
HBA_UINT64 fcLUN,
void * pRspBuffer,
HBA_UINT32 RspBufferSize,
void * pSenseBuffer,
HBA_UINT32 SenseBufferSize
)
{
return(HBA_STATUS_ERROR_NOT_SUPPORTED);
}