windows-nt/Source/XPSP1/NT/base/hals/halia64/ia64/ixisa.h

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/*++ BUILD Version: 0001 // Increment this if a change has global effects
Copyright (c) 1991 Microsoft Corporation
Module Name:
ixisa.h
Abstract:
This header file defines the private Hardware Architecture Layer (HAL)
EISA/ISA specific interfaces, defines and structures.
Author:
Jeff Havens (jhavens) 20-Jun-91
Revision History:
--*/
#ifndef _IXISA_
#define _IXISA_
//
// The MAXIMUM_MAP_BUFFER_SIZE defines the maximum map buffers which the system
// will allocate for devices which require phyically contigous buffers.
//
#define MAXIMUM_ISA_MAP_BUFFER_SIZE 0x40000
#define MAXIMUM_MAP_BUFFER_SIZE MAXIMUM_ISA_MAP_BUFFER_SIZE
//
// MAXIMUM_PCI_MAP_BUFFER_SIZE defines the maximum map buffers which the system
// will allocate for 32-bit PCI devices on a 64-bit system.
//
#define MAXIMUM_PCI_MAP_BUFFER_SIZE (64 * 1024 * 1024)
//
// Define the initial buffer allocation size for a map buffers for systems with
// no memory which has a physical address greater than MAXIMUM_PHYSICAL_ADDRESS.
//
#define INITIAL_MAP_BUFFER_SMALL_SIZE 0x10000
//
// Define the initial buffer allocation size for a map buffers for systems with
// no memory which has a physical address greater than MAXIMUM_PHYSICAL_ADDRESS.
//
#define INITIAL_MAP_BUFFER_LARGE_SIZE 0x30000
//
// Define the incremental buffer allocation for a map buffers.
//
#define INCREMENT_MAP_BUFFER_SIZE 0x10000
//
// Define the maximum number of map registers that can be requested at one time
// if actual map registers are required for the transfer.
//
#define MAXIMUM_ISA_MAP_REGISTER 16
#define MAXIMUM_PCI_MAP_REGISTER 16
//
// Define the maximum physical address which can be handled by an Isa card
//
#define MAXIMUM_PHYSICAL_ADDRESS 0xffffffff
//
// Define the scatter/gather flag for the Map Register Base.
//
#define NO_SCATTER_GATHER 0x00000001
//
// Define the copy buffer flag for the index.
//
#define COPY_BUFFER 0XFFFFFFFF
//
// Define adapter object structure.
//
typedef struct _ADAPTER_OBJECT {
DMA_ADAPTER DmaHeader;
struct _ADAPTER_OBJECT *MasterAdapter;
ULONG MapRegistersPerChannel;
PVOID AdapterBaseVa;
PVOID MapRegisterBase;
ULONG NumberOfMapRegisters;
ULONG CommittedMapRegisters;
struct _WAIT_CONTEXT_BLOCK *CurrentWcb;
KDEVICE_QUEUE ChannelWaitQueue;
PKDEVICE_QUEUE RegisterWaitQueue;
LIST_ENTRY AdapterQueue;
KSPIN_LOCK SpinLock;
PRTL_BITMAP MapRegisters;
PUCHAR PagePort;
UCHAR ChannelNumber;
UCHAR AdapterNumber;
USHORT DmaPortAddress;
UCHAR AdapterMode;
BOOLEAN NeedsMapRegisters;
BOOLEAN MasterDevice;
BOOLEAN Width16Bits;
BOOLEAN ScatterGather;
BOOLEAN IgnoreCount;
BOOLEAN Dma32BitAddresses;
BOOLEAN Dma64BitAddresses;
} ADAPTER_OBJECT;
ULONG
HalGetDmaAlignment (
PVOID Conext
);
NTSTATUS
HalCalculateScatterGatherListSize(
IN PADAPTER_OBJECT AdapterObject,
IN OPTIONAL PMDL Mdl,
IN PVOID CurrentVa,
IN ULONG Length,
OUT PULONG ScatterGatherListSize,
OUT OPTIONAL PULONG pNumberOfMapRegisters
);
NTSTATUS
HalBuildScatterGatherList (
IN PADAPTER_OBJECT AdapterObject,
IN PDEVICE_OBJECT DeviceObject,
IN PMDL Mdl,
IN PVOID CurrentVa,
IN ULONG Length,
IN PDRIVER_LIST_CONTROL ExecutionRoutine,
IN PVOID Context,
IN BOOLEAN WriteToDevice,
IN PVOID ScatterGatherBuffer,
IN ULONG ScatterGatherBufferLength
);
NTSTATUS
HalBuildMdlFromScatterGatherList(
IN PADAPTER_OBJECT AdapaterObject,
IN PSCATTER_GATHER_LIST ScatterGather,
IN PMDL OriginalMdl,
OUT PMDL *TargetMdl
);
PHYSICAL_ADDRESS
__inline
HalpGetAdapterMaximumPhysicalAddress(
IN PADAPTER_OBJECT AdapterObject
)
/*++
Routine Description:
This routine determines and returns the maximum physical address that
can be accessed by the given adapter.
Arguments:
AdapterObject - Supplies a pointer to the adapter object used by this
device.
Return Value:
Returns the maximum physical address that can be accessed by this
device.
--*/
{
PHYSICAL_ADDRESS maximumAddress;
//
// Assume the device requires physical addresses 2GB.
//
maximumAddress.HighPart = 0;
maximumAddress.LowPart = MAXIMUM_PHYSICAL_ADDRESS - 1;
//
// IoMapTransfer() is sometimes called with a NULL adapter object. In
// this case, assume the adapter is 32 bit.
//
if (AdapterObject == NULL) {
return maximumAddress;
}
if (AdapterObject->MasterDevice) {
if (AdapterObject->Dma64BitAddresses) {
//
// This device is a master and can handle 64 bit addresses.
//
maximumAddress.QuadPart = (ULONGLONG)-1;
} else if(AdapterObject->Dma32BitAddresses) {
//
// This device is a master and can handle 32 bit addresses.
//
maximumAddress.LowPart = (ULONG)-1;
}
}
return maximumAddress;
}
#endif // _IXISA_