NT4/private/ntos/nthals/halr98b/mips/j4flshio.c

/*++

Copyright (c) 1991-1994  Microsoft Corporation

Module Name:

    j4flshio.c

Abstract:


    This module implements the system dependent kernel function to flush
    the data cache for I/O transfers on a MIPS R4000 Jazz, Fision, Fusion,
    or Duo system.

Environment:

    Kernel mode only.

Revision History:

--*/

#include "halp.h"

VOID
HalFlushIoBuffers (
    IN PMDL Mdl,
    IN BOOLEAN ReadOperation,
    IN BOOLEAN DmaOperation
    )

/*++

Routine Description:

    This function flushes the I/O buffer specified by the memory descriptor
    list from the data cache on the current processor.

Arguments:

    Mdl - Supplies a pointer to a memory descriptor list that describes the
        I/O buffer location.

    ReadOperation - Supplies a boolean value that determines whether the I/O
        operation is a read into memory.

    DmaOperation - Supplies a boolean value that determines whether the I/O
        operation is a DMA operation.

Return Value:

    None.

--*/

{

    ULONG CacheSegment;
    ULONG Length;
    ULONG Offset;
    KIRQL OldIrql;
    PULONG PageFrame;
    ULONG Source;

    //	
    //	R98 I/O Cache Supported So Nothing to Do Dma Operation!!.
    //
    if (DmaOperation == TRUE){
	return;
    }


    //
    // The Jazz R4000 uses a write back data cache and, therefore, must be
    // flushed on reads and writes.
    //
    // If the length of the I/O operation is greater than the size of the
    // data cache, then sweep the entire data cache. Otherwise, flush or
    // purge individual pages from the data cache as appropriate.
    //

    Offset = Mdl->ByteOffset & PCR->DcacheAlignment;
    Length = (Mdl->ByteCount +
                        PCR->DcacheAlignment + Offset) & ~PCR->DcacheAlignment;

    if ((Length > PCR->FirstLevelDcacheSize) &&
        (Length > PCR->SecondLevelDcacheSize)) {

        //
        // If the I/O operation is a DMA operation, or the I/O operation is
        // not a DMA operation and the I/O operation is a page read operation,
        // then sweep (index/writeback/invalidate) the entire data cache.
        //

        if ((DmaOperation != FALSE) ||
            ((DmaOperation == FALSE) &&
            (ReadOperation != FALSE) &&
            ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0))) {
            HalSweepDcache();
        }

        //
        // If the I/O operation is a page read, then sweep (index/invalidate)
        // the entire instruction cache.
        //

        if ((ReadOperation != FALSE) &&
            ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0)) {
            HalSweepIcache();
        }

    } else {

        //
        // Flush or purge the specified pages from the data cache and
        // instruction caches as appropriate.
        //
        // Compute the number of pages to flush and the starting MDL page
        // frame address.
        //

        Offset = Mdl->ByteOffset & ~PCR->DcacheAlignment;
        PageFrame = (PULONG)(Mdl + 1);
        Source = ((ULONG)(Mdl->StartVa) & 0xfffff000) | Offset;

        //
        // Flush or purge the specified page segments from the data and
        // instruction caches as appropriate.
        //

        do {
            if (Length >= (PAGE_SIZE - Offset)) {
                CacheSegment = PAGE_SIZE - Offset;

            } else {
                CacheSegment = Length;
            }

            if (ReadOperation == FALSE) {

                //
                // The I/O operation is a write and the data only needs to
                // to be copied back into memory if the operation is also
                // a DMA operation.
                //

                if (DmaOperation != FALSE) {
                    HalFlushDcachePage((PVOID)Source, *PageFrame, CacheSegment);
                }

            } else {

                //
                // If the I/O operation is a DMA operation, then purge the
                // data cache. Otherwise, is the I/O operation is a page read
                // operation, then flush the data cache.
                //

                if (DmaOperation != FALSE) {
                    HalPurgeDcachePage((PVOID)Source, *PageFrame, CacheSegment);

                } else if ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0) {
                    HalFlushDcachePage((PVOID)Source, *PageFrame, CacheSegment);
                }

                //
                // If the I/O operation is a page read, then the instruction
                // cache must be purged.
                //

                if ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0) {
                    HalPurgeIcachePage((PVOID)Source, *PageFrame, CacheSegment);
                }
            }

            PageFrame += 1;
            Length -= CacheSegment;
            Offset = 0;
            Source += CacheSegment;
        } while(Length != 0);
    }

    return;
}

ULONG
HalGetDmaAlignmentRequirement (
    VOID
    )

/*++

Routine Description:

    This function returns the alignment requirements for DMA transfers on
    host system.

Arguments:

    None.

Return Value:

    The DMA alignment requirement is returned as the fucntion value.

--*/

{

    return PCR->DcacheFillSize;
}
First commit 2001-01-01 00:00:00 +01:00			`/*++`

			`Copyright (c) 1991-1994 Microsoft Corporation`

			`Module Name:`

			`j4flshio.c`

			`Abstract:`


			`This module implements the system dependent kernel function to flush`
			`the data cache for I/O transfers on a MIPS R4000 Jazz, Fision, Fusion,`
			`or Duo system.`

			`Environment:`

			`Kernel mode only.`

			`Revision History:`

			`--*/`

			`#include "halp.h"`

			`VOID`
			`HalFlushIoBuffers (`
			`IN PMDL Mdl,`
			`IN BOOLEAN ReadOperation,`
			`IN BOOLEAN DmaOperation`
			`)`

			`/*++`

			`Routine Description:`

			`This function flushes the I/O buffer specified by the memory descriptor`
			`list from the data cache on the current processor.`

			`Arguments:`

			`Mdl - Supplies a pointer to a memory descriptor list that describes the`
			`I/O buffer location.`

			`ReadOperation - Supplies a boolean value that determines whether the I/O`
			`operation is a read into memory.`

			`DmaOperation - Supplies a boolean value that determines whether the I/O`
			`operation is a DMA operation.`

			`Return Value:`

			`None.`

			`--*/`

			`{`

			`ULONG CacheSegment;`
			`ULONG Length;`
			`ULONG Offset;`
			`KIRQL OldIrql;`
			`PULONG PageFrame;`
			`ULONG Source;`

			`//`
			`// R98 I/O Cache Supported So Nothing to Do Dma Operation!!.`
			`//`
			`if (DmaOperation == TRUE){`
			`return;`
			`}`


			`//`
			`// The Jazz R4000 uses a write back data cache and, therefore, must be`
			`// flushed on reads and writes.`
			`//`
			`// If the length of the I/O operation is greater than the size of the`
			`// data cache, then sweep the entire data cache. Otherwise, flush or`
			`// purge individual pages from the data cache as appropriate.`
			`//`

			`Offset = Mdl->ByteOffset & PCR->DcacheAlignment;`
			`Length = (Mdl->ByteCount +`
			`PCR->DcacheAlignment + Offset) & ~PCR->DcacheAlignment;`

			`if ((Length > PCR->FirstLevelDcacheSize) &&`
			`(Length > PCR->SecondLevelDcacheSize)) {`

			`//`
			`// If the I/O operation is a DMA operation, or the I/O operation is`
			`// not a DMA operation and the I/O operation is a page read operation,`
			`// then sweep (index/writeback/invalidate) the entire data cache.`
			`//`

			`if ((DmaOperation != FALSE) \|\|`
			`((DmaOperation == FALSE) &&`
			`(ReadOperation != FALSE) &&`
			`((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0))) {`
			`HalSweepDcache();`
			`}`

			`//`
			`// If the I/O operation is a page read, then sweep (index/invalidate)`
			`// the entire instruction cache.`
			`//`

			`if ((ReadOperation != FALSE) &&`
			`((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0)) {`
			`HalSweepIcache();`
			`}`

			`} else {`

			`//`
			`// Flush or purge the specified pages from the data cache and`
			`// instruction caches as appropriate.`
			`//`
			`// Compute the number of pages to flush and the starting MDL page`
			`// frame address.`
			`//`

			`Offset = Mdl->ByteOffset & ~PCR->DcacheAlignment;`
			`PageFrame = (PULONG)(Mdl + 1);`
			`Source = ((ULONG)(Mdl->StartVa) & 0xfffff000) \| Offset;`

			`//`
			`// Flush or purge the specified page segments from the data and`
			`// instruction caches as appropriate.`
			`//`

			`do {`
			`if (Length >= (PAGE_SIZE - Offset)) {`
			`CacheSegment = PAGE_SIZE - Offset;`

			`} else {`
			`CacheSegment = Length;`
			`}`

			`if (ReadOperation == FALSE) {`

			`//`
			`// The I/O operation is a write and the data only needs to`
			`// to be copied back into memory if the operation is also`
			`// a DMA operation.`
			`//`

			`if (DmaOperation != FALSE) {`
			`HalFlushDcachePage((PVOID)Source, *PageFrame, CacheSegment);`
			`}`

			`} else {`

			`//`
			`// If the I/O operation is a DMA operation, then purge the`
			`// data cache. Otherwise, is the I/O operation is a page read`
			`// operation, then flush the data cache.`
			`//`

			`if (DmaOperation != FALSE) {`
			`HalPurgeDcachePage((PVOID)Source, *PageFrame, CacheSegment);`

			`} else if ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0) {`
			`HalFlushDcachePage((PVOID)Source, *PageFrame, CacheSegment);`
			`}`

			`//`
			`// If the I/O operation is a page read, then the instruction`
			`// cache must be purged.`
			`//`

			`if ((Mdl->MdlFlags & MDL_IO_PAGE_READ) != 0) {`
			`HalPurgeIcachePage((PVOID)Source, *PageFrame, CacheSegment);`
			`}`
			`}`

			`PageFrame += 1;`
			`Length -= CacheSegment;`
			`Offset = 0;`
			`Source += CacheSegment;`
			`} while(Length != 0);`
			`}`

			`return;`
			`}`

			`ULONG`
			`HalGetDmaAlignmentRequirement (`
			`VOID`
			`)`

			`/*++`

			`Routine Description:`

			`This function returns the alignment requirements for DMA transfers on`
			`host system.`

			`Arguments:`

			`None.`

			`Return Value:`

			`The DMA alignment requirement is returned as the fucntion value.`

			`--*/`

			`{`

			`return PCR->DcacheFillSize;`
			`}`