reactos/drivers/filesystems/udfs/fastio.cpp

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////////////////////////////////////////////////////////////////////
// Copyright (C) Alexander Telyatnikov, Ivan Keliukh, Yegor Anchishkin, SKIF Software, 1999-2013. Kiev, Ukraine
// All rights reserved
// This file was released under the GPLv2 on June 2015.
////////////////////////////////////////////////////////////////////
/*************************************************************************
*
* File: Fastio.cpp
*
* Module: UDF File System Driver (Kernel mode execution only)
*
* Description:
* Contains code to handle the various "fast-io" calls.
*
*************************************************************************/
#include "udffs.h"
// define the file specific bug-check id
#define UDF_BUG_CHECK_ID UDF_FILE_FAST_IO
/*************************************************************************
*
* Function: UDFFastIoCheckIfPossible()
*
* Description:
* To fast-io or not to fast-io, that is the question ...
* This routine helps the I/O Manager determine whether the FSD wishes
* to permit fast-io on a specific file stream.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
BOOLEAN
NTAPI
UDFFastIoCheckIfPossible(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN ULONG LockKey,
IN BOOLEAN CheckForReadOperation,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)
{
BOOLEAN ReturnedStatus = FALSE;
PtrUDFFCB Fcb = NULL;
PtrUDFCCB Ccb = NULL;
LARGE_INTEGER IoLength;
// Obtain a pointer to the FCB and CCB for the file stream.
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
Fcb = Ccb->Fcb;
ASSERT(Fcb);
// Validate that this is a fast-IO request to a regular file.
// The UDF FSD for example, will not allow fast-IO requests
// to volume objects, or to directories.
if ((Fcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_VCB) ||
(Fcb->FCBFlags & UDF_FCB_DIRECTORY)) {
// This is not allowed.
IoStatus->Status = STATUS_INVALID_PARAMETER;
MmPrint((" UDFFastIoCheckIfPossible() TRUE, Failed\n"));
return FALSE;
}
/*
// back pressure for very smart and fast system cache ;)
if(Fcb->Vcb->VerifyCtx.ItemCount >= UDF_MAX_VERIFY_CACHE) {
AdPrint((" Verify queue overflow -> UDFFastIoCheckIfPossible() = FALSE\n"));
return FALSE;
}
*/
IoLength.QuadPart = Length;
// The FSD can determine the checks that it needs to perform.
// Typically, a FSD will check whether there exist any byte-range
// locks that would prevent a fast-IO operation from proceeding.
// ... (FSD specific checks go here).
if (CheckForReadOperation) {
// The following routine is exported by the FSRTL
// package and it returns TRUE if the read operation should be
// allowed to proceed based on the status of the current byte-range
// locks on the file stream. If we do not use the FSRTL package
// for byte-range locking support, then we must substitute our
// own checks over here.
ReturnedStatus = FsRtlFastCheckLockForRead(&(Fcb->NTRequiredFCB->FileLock),
FileOffset, &IoLength, LockKey, FileObject,
PsGetCurrentProcess());
} else {
// if(Fcb->Vcb->VCBFlags );
// This is a write request. Invoke the FSRTL byte-range lock package
// to see whether the write should be allowed to proceed.
ReturnedStatus = FsRtlFastCheckLockForWrite(&(Fcb->NTRequiredFCB->FileLock),
FileOffset, &IoLength, LockKey, FileObject,
PsGetCurrentProcess());
}
MmPrint((" UDFFastIoCheckIfPossible() %s\n", ReturnedStatus ? "TRUE" : "FALSE"));
return(ReturnedStatus);
// return FALSE;
} // end UDFFastIoCheckIfPossible()
/*
*/
FAST_IO_POSSIBLE
NTAPI
UDFIsFastIoPossible(
IN PtrUDFFCB Fcb
)
{
if( !(Fcb->Vcb->VCBFlags & UDF_VCB_FLAGS_VOLUME_MOUNTED) /*||
!FsRtlOplockIsFastIoPossible(&(Fcb->Oplock))*/ ) {
UDFPrint((" FastIoIsNotPossible\n"));
return FastIoIsNotPossible;
}
/*
// back pressure for very smart and fast system cache ;)
if(Fcb->Vcb->VerifyCtx.ItemCount >= UDF_MAX_VERIFY_CACHE) {
AdPrint((" Verify queue overflow -> UDFIsFastIoPossible() = FastIoIsNotPossible\n"));
return FastIoIsNotPossible;
}
*/
if(FsRtlAreThereCurrentFileLocks(&(Fcb->NTRequiredFCB->FileLock)) ) {
UDFPrint((" FastIoIsQuestionable\n"));
return FastIoIsQuestionable;
}
UDFPrint((" FastIoIsPossible\n"));
return FastIoIsPossible;
} // end UDFIsFastIoPossible()
/*************************************************************************
*
* Function: UDFFastIoQueryBasicInfo()
*
* Description:
* Bypass the traditional IRP method to perform a query basic
* information operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
BOOLEAN
NTAPI
UDFFastIoQueryBasicInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_BASIC_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
LONG Length = sizeof(FILE_BASIC_INFORMATION);
PtrUDFFCB Fcb;
PtrUDFCCB Ccb;
PtrUDFNTRequiredFCB NtReqFcb = NULL;
BOOLEAN MainResourceAcquired = FALSE;
FsRtlEnterFileSystem();
UDFPrint(("UDFFastIo \n"));
// if the file is already opended we can satisfy this request
// immediately 'cause all the data we need must be cached
_SEH2_TRY {
_SEH2_TRY {
// Get the FCB and CCB pointers.
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
Fcb = Ccb->Fcb;
ASSERT(Fcb);
NtReqFcb = Fcb->NTRequiredFCB;
//Fcb->Vcb->VCBFlags |= UDF_VCB_SKIP_EJECT_CHECK;
if (!(Fcb->FCBFlags & UDF_FCB_PAGE_FILE)) {
// Acquire the MainResource shared.
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
if (!UDFAcquireResourceShared(&(NtReqFcb->MainResource), Wait)) {
try_return(RC = STATUS_CANT_WAIT);
}
MainResourceAcquired = TRUE;
}
ReturnedStatus =
((RC = UDFGetBasicInformation(FileObject, Fcb, Buffer, &Length)) == STATUS_SUCCESS);
} _SEH2_EXCEPT(UDFExceptionFilter(PtrIrpContext, _SEH2_GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
} _SEH2_END;
try_exit: NOTHING;
} _SEH2_FINALLY {
if (MainResourceAcquired) {
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
MainResourceAcquired = FALSE;
}
IoStatus->Status = RC;
if(ReturnedStatus) {
IoStatus->Information = sizeof(FILE_BASIC_INFORMATION);
} else {
IoStatus->Information = 0;
}
} _SEH2_END;
FsRtlExitFileSystem();
return(ReturnedStatus);
} // end UDFFastIoQueryBasicInfo()
/*************************************************************************
*
* Function: UDFFastIoQueryStdInfo()
*
* Description:
* Bypass the traditional IRP method to perform a query standard
* information operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
BOOLEAN
NTAPI
UDFFastIoQueryStdInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_STANDARD_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
LONG Length = sizeof(FILE_STANDARD_INFORMATION);
PtrUDFFCB Fcb;
PtrUDFCCB Ccb;
// PtrUDFNTRequiredFCB NtReqFcb = NULL;
// BOOLEAN MainResourceAcquired = FALSE;
FsRtlEnterFileSystem();
UDFPrint(("UDFFastIo \n"));
// if the file is already opended we can satisfy this request
// immediately 'cause all the data we need must be cached
_SEH2_TRY {
_SEH2_TRY {
// Get the FCB and CCB pointers.
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
Fcb = Ccb->Fcb;
ASSERT(Fcb);
// NtReqFcb = Fcb->NTRequiredFCB;
//Fcb->Vcb->VCBFlags |= UDF_VCB_SKIP_EJECT_CHECK;
/*
if (!(Fcb->FCBFlags & UDF_FCB_PAGE_FILE)) {
// Acquire the MainResource shared.
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
if (!UDFAcquireResourceShared(&(NtReqFcb->MainResource), Wait)) {
try_return(RC = STATUS_CANT_WAIT);
}
MainResourceAcquired = TRUE;
}
*/
ReturnedStatus =
((RC = UDFGetStandardInformation(Fcb, Buffer, &Length)) == STATUS_SUCCESS);
} _SEH2_EXCEPT(UDFExceptionFilter(PtrIrpContext, _SEH2_GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
} _SEH2_END;
//try_exit: NOTHING;
} _SEH2_FINALLY {
/*
if (MainResourceAcquired) {
UDFReleaseResource(&(NtReqFcb->MainResource));
MainResourceAcquired = FALSE;
}
*/
IoStatus->Status = RC;
if(ReturnedStatus) {
IoStatus->Information = sizeof(FILE_STANDARD_INFORMATION);
} else {
IoStatus->Information = 0;
}
} _SEH2_END;
FsRtlExitFileSystem();
return(ReturnedStatus);
} // end UDFFastIoQueryStdInfo()
/*************************************************************************
*
* Function: UDFFastIoAcqCreateSec()
*
* Description:
* Not really a fast-io operation. Used by the VMM to acquire FSD resources
* before processing a file map (create section object) request.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: None (we must be prepared to handle VMM initiated calls)
*
*************************************************************************/
VOID
NTAPI
UDFFastIoAcqCreateSec(
IN PFILE_OBJECT FileObject
)
{
PtrUDFNTRequiredFCB NtReqFcb = (PtrUDFNTRequiredFCB)(FileObject->FsContext);
MmPrint((" AcqForCreateSection()\n"));
// Acquire the MainResource exclusively for the file stream
if(!ExIsResourceAcquiredExclusiveLite(&(NtReqFcb->MainResource)) ||
!ExIsResourceAcquiredExclusiveLite(&(NtReqFcb->PagingIoResource)) ) {
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
} else {
MmPrint((" already acquired\n"));
}
UDFAcquireResourceExclusive(&(NtReqFcb->MainResource), TRUE);
// Although this is typically not required, the UDF FSD will
// also acquire the PagingIoResource exclusively at this time
// to conform with the resource acquisition described in the set
// file information routine. Once again though, we will probably
// not need to do this.
UDFAcquireResourceExclusive(&(NtReqFcb->PagingIoResource), TRUE);
NtReqFcb->AcqSectionCount++;
return;
} // end UDFFastIoAcqCreateSec()
/*************************************************************************
*
* Function: UDFFastIoRelCreateSec()
*
* Description:
* Not really a fast-io operation. Used by the VMM to release FSD resources
* after processing a file map (create section object) request.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: None
*
*************************************************************************/
VOID
NTAPI
UDFFastIoRelCreateSec(
IN PFILE_OBJECT FileObject)
{
PtrUDFNTRequiredFCB NtReqFcb = (PtrUDFNTRequiredFCB)(FileObject->FsContext);
MmPrint((" RelFromCreateSection()\n"));
NtReqFcb->AcqSectionCount--;
// Release the PagingIoResource for the file stream
UDFReleaseResource(&(NtReqFcb->PagingIoResource));
// Release the MainResource for the file stream
UDFReleaseResource(&(NtReqFcb->MainResource));
return;
} // end UDFFastIoRelCreateSec()
/*************************************************************************
*
* Function: UDFAcqLazyWrite()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to acquire FSD
* resources before performing a delayed write (write behind/lazy write)
* operation.
* NOTE: this function really must succeed since the Cache Manager will
* typically ignore failure and continue on ...
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE (Cache Manager does not tolerate FALSE well)
*
*************************************************************************/
BOOLEAN NTAPI UDFAcqLazyWrite(
IN PVOID Context,
IN BOOLEAN Wait)
{
// The context is whatever we passed to the Cache Manager when invoking
// the CcInitializeCacheMaps() function. In the case of the UDF FSD
// implementation, this context is a pointer to the NT_REQ_FCB structure.
PtrUDFNTRequiredFCB NtReqFcb = (PtrUDFNTRequiredFCB)Context;
MmPrint((" UDFAcqLazyWrite()\n"));
// Acquire the PagingIoResource in the NT_REQ_FCB exclusively. Then, set the
// lazy-writer thread id in the NT_REQ_FCB structure for identification
// when an actual write request is received by the FSD.
// Note: The lazy-writer typically always supplies WAIT set to TRUE.
if (!UDFAcquireResourceExclusive(&(NtReqFcb->PagingIoResource), Wait))
return FALSE;
// Now, set the lazy-writer thread id.
ASSERT(!(NtReqFcb->LazyWriterThreadID));
2018-08-20 17:02:00 +00:00
NtReqFcb->LazyWriterThreadID = HandleToUlong(PsGetCurrentThreadId());
ASSERT(IoGetTopLevelIrp() == NULL);
IoSetTopLevelIrp((PIRP)FSRTL_CACHE_TOP_LEVEL_IRP);
// If our FSD needs to perform some special preparations in anticipation
// of receving a lazy-writer request, do so now.
return TRUE;
} // end UDFAcqLazyWrite()
/*************************************************************************
*
* Function: UDFRelLazyWrite()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to release FSD
* resources after performing a delayed write (write behind/lazy write)
* operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: None
*
*************************************************************************/
VOID
NTAPI
UDFRelLazyWrite(
IN PVOID Context)
{
// The context is whatever we passed to the Cache Manager when invoking
// the CcInitializeCacheMaps() function. In the case of the UDF FSD
// implementation, this context is a pointer to the NT_REQ_FCB structure.
PtrUDFNTRequiredFCB NtReqFcb = (PtrUDFNTRequiredFCB)Context;
MmPrint((" UDFRelLazyWrite()\n"));
// Remove the current thread-id from the NT_REQ_FCB
// and release the MainResource.
2018-08-20 17:02:00 +00:00
ASSERT((NtReqFcb->LazyWriterThreadID) == HandleToUlong(PsGetCurrentThreadId()));
NtReqFcb->LazyWriterThreadID = 0;
// Release the acquired resource.
UDFReleaseResource(&(NtReqFcb->PagingIoResource));
IoSetTopLevelIrp( NULL );
return;
} // end UDFRelLazyWrite()
/*************************************************************************
*
* Function: UDFAcqReadAhead()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to acquire FSD
* resources before performing a read-ahead operation.
* NOTE: this function really must succeed since the Cache Manager will
* typically ignore failure and continue on ...
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE (Cache Manager does not tolerate FALSE well)
*
*************************************************************************/
BOOLEAN
NTAPI
UDFAcqReadAhead(
IN PVOID Context,
IN BOOLEAN Wait
)
{
// The context is whatever we passed to the Cache Manager when invoking
// the CcInitializeCacheMaps() function. In the case of the UDF FSD
// implementation, this context is a pointer to the NT_REQ_FCB structure.
#define NtReqFcb ((PtrUDFNTRequiredFCB)Context)
MmPrint((" AcqForReadAhead()\n"));
// Acquire the MainResource in the NT_REQ_FCB shared.
// Note: The read-ahead thread typically always supplies WAIT set to TRUE.
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
if (!UDFAcquireResourceShared(&(NtReqFcb->MainResource), Wait))
return FALSE;
ASSERT(IoGetTopLevelIrp() == NULL);
IoSetTopLevelIrp((PIRP)FSRTL_CACHE_TOP_LEVEL_IRP);
return TRUE;
#undef NtReqFcb
} // end UDFAcqReadAhead()
/*************************************************************************
*
* Function: UDFRelReadAhead()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to release FSD
* resources after performing a read-ahead operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: None
*
*************************************************************************/
VOID
NTAPI
UDFRelReadAhead(
IN PVOID Context)
{
// The context is whatever we passed to the Cache Manager when invoking
// the CcInitializeCacheMaps() function. In the case of the UDF FSD
// implementation, this context is a pointer to the NT_REQ_FCB structure.
#define NtReqFcb ((PtrUDFNTRequiredFCB)Context)
MmPrint((" RelFromReadAhead()\n"));
// Release the acquired resource.
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
// Of course, the FSD should undo whatever else seems appropriate at this
// time.
IoSetTopLevelIrp( NULL );
return;
#undef NtReqFcb
} // end UDFRelReadAhead()
/* the remaining are only valid under NT Version 4.0 and later */
#if(_WIN32_WINNT >= 0x0400)
/*************************************************************************
*
* Function: UDFFastIoQueryNetInfo()
*
* Description:
* Get information requested by a redirector across the network. This call
* will originate from the LAN Manager server.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
BOOLEAN
NTAPI
UDFFastIoQueryNetInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_NETWORK_OPEN_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
LONG Length = sizeof(FILE_NETWORK_OPEN_INFORMATION);
PtrUDFFCB Fcb;
PtrUDFCCB Ccb;
PtrUDFNTRequiredFCB NtReqFcb = NULL;
BOOLEAN MainResourceAcquired = FALSE;
FsRtlEnterFileSystem();
UDFPrint(("UDFFastIo \n"));
// if the file is already opended we can satisfy this request
// immediately 'cause all the data we need must be cached
_SEH2_TRY {
_SEH2_TRY {
// Get the FCB and CCB pointers.
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
Fcb = Ccb->Fcb;
ASSERT(Fcb);
NtReqFcb = Fcb->NTRequiredFCB;
//Fcb->Vcb->VCBFlags |= UDF_VCB_SKIP_EJECT_CHECK;
if (!(Fcb->FCBFlags & UDF_FCB_PAGE_FILE)) {
// Acquire the MainResource shared.
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
if (!UDFAcquireResourceShared(&(NtReqFcb->MainResource), Wait)) {
try_return(RC = STATUS_CANT_WAIT);
}
MainResourceAcquired = TRUE;
}
ReturnedStatus =
((RC = UDFGetNetworkInformation(Fcb, Buffer, &Length)) == STATUS_SUCCESS);
} _SEH2_EXCEPT(UDFExceptionFilter(PtrIrpContext, _SEH2_GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
} _SEH2_END;
try_exit: NOTHING;
} _SEH2_FINALLY {
if (MainResourceAcquired) {
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
MainResourceAcquired = FALSE;
}
IoStatus->Status = RC;
if(ReturnedStatus) {
IoStatus->Information = sizeof(FILE_NETWORK_OPEN_INFORMATION);
} else {
IoStatus->Information = 0;
}
} _SEH2_END;
FsRtlExitFileSystem();
return(ReturnedStatus);
} // end UDFFastIoQueryNetInfo()
/*************************************************************************
*
* Function: UDFFastIoMdlRead()
*
* Description:
* Bypass the traditional IRP method to perform a MDL read operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
/*BOOLEAN UDFFastIoMdlRead(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
OUT PMDL* MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
FsRtlEnterFileSystem();
_SEH2_TRY {
_SEH2_TRY {
// See description in UDFFastIoRead() before filling-in the
// stub here.
NOTHING;
} __except (UDFExceptionFilter(PtrIrpContext, GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
}
//try_exit: NOTHING;
} _SEH2_FINALLY {
}
FsRtlExitFileSystem();
return(ReturnedStatus);
}*/
/*************************************************************************
*
* Function: UDFFastIoMdlReadComplete()
*
* Description:
* Bypass the traditional IRP method to inform the NT Cache Manager and the
* FSD that the caller no longer requires the data locked in the system cache
* or the MDL to stay around anymore ..
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
/*BOOLEAN UDFFastIoMdlReadComplete(
IN PFILE_OBJECT FileObject,
OUT PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
FsRtlEnterFileSystem();
_SEH2_TRY {
_SEH2_TRY {
// See description in UDFFastIoRead() before filling-in the
// stub here.
NOTHING;
} __except (UDFExceptionFilter(PtrIrpContext, GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
}
//try_exit: NOTHING;
} _SEH2_FINALLY {
}
FsRtlExitFileSystem();
return(ReturnedStatus);
}*/
/*************************************************************************
*
* Function: UDFFastIoPrepareMdlWrite()
*
* Description:
* Bypass the traditional IRP method to prepare for a MDL write operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
/*BOOLEAN
UDFFastIoPrepareMdlWrite(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
FsRtlEnterFileSystem();
_SEH2_TRY {
_SEH2_TRY {
// See description in UDFFastIoRead() before filling-in the
// stub here.
NOTHING;
} __except (UDFExceptionFilter(PtrIrpContext, GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
}
//try_exit: NOTHING;
} _SEH2_FINALLY {
}
FsRtlExitFileSystem();
return(ReturnedStatus);
}*/
/*************************************************************************
*
* Function: UDFFastIoMdlWriteComplete()
*
* Description:
* Bypass the traditional IRP method to inform the NT Cache Manager and the
* FSD that the caller has updated the contents of the MDL. This data can
* now be asynchronously written out to secondary storage by the Cache Mgr.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: TRUE/FALSE
*
*************************************************************************/
/*BOOLEAN UDFFastIoMdlWriteComplete(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
OUT PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject)
{
BOOLEAN ReturnedStatus = FALSE; // fast i/o failed/not allowed
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
FsRtlEnterFileSystem();
_SEH2_TRY {
_SEH2_TRY {
// See description in UDFFastIoRead() before filling-in the
// stub here.
NOTHING;
} __except (UDFExceptionFilter(PtrIrpContext, GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, NULL);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
}
//try_exit: NOTHING;
} _SEH2_FINALLY {
}
FsRtlExitFileSystem();
return(ReturnedStatus);
}*/
/*************************************************************************
*
* Function: UDFFastIoAcqModWrite()
*
* Description:
* Not really a fast-io operation. Used by the VMM to acquire FSD resources
* before initiating a write operation via the Modified Page/Block Writer.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: STATUS_SUCCESS/Error (__try not to return an error, will 'ya ? :-)
*
*************************************************************************/
NTSTATUS
NTAPI
UDFFastIoAcqModWrite(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER EndingOffset,
OUT PERESOURCE *ResourceToRelease,
IN PDEVICE_OBJECT DeviceObject)
{
NTSTATUS RC = STATUS_SUCCESS;
FsRtlEnterFileSystem();
MmPrint((" AcqModW %I64x\n", EndingOffset->QuadPart));
#define NtReqFcb ((PtrUDFNTRequiredFCB)(FileObject->FsContext))
// We must determine which resource(s) we would like to
// acquire at this time. We know that a write is imminent;
// we will probably therefore acquire appropriate resources
// exclusively.
// We must first get the FCB and CCB pointers from the file object
// that is passed in to this function (as an argument). Note that
// the ending offset (when examined in conjunction with current valid data
// length) may help us in determining the appropriate resource(s) to acquire.
// For example, if the ending offset is beyond current valid data length,
// We may decide to acquire *both* the MainResource and the PagingIoResource
// exclusively; otherwise, we may decide simply to acquire the PagingIoResource.
// Consult the text for more information on synchronization in FSDs.
// One final note; the VMM expects that we will return a pointer to
// the resource that we acquired (single return value). This pointer
// will be returned back to we in the release call (below).
if(UDFAcquireResourceShared(&(NtReqFcb->PagingIoResource), FALSE)) {
if(EndingOffset->QuadPart <= NtReqFcb->CommonFCBHeader.ValidDataLength.QuadPart) {
UDFReleaseResource(&(NtReqFcb->PagingIoResource));
RC = STATUS_CANT_WAIT;
} else {
NtReqFcb->AcqFlushCount++;
(*ResourceToRelease) = &(NtReqFcb->PagingIoResource);
MmPrint((" AcqModW OK\n"));
}
} else {
RC = STATUS_CANT_WAIT;
}
#undef NtReqFcb
FsRtlExitFileSystem();
return RC;
} // end UDFFastIoAcqModWrite()
/*************************************************************************
*
* Function: UDFFastIoRelModWrite()
*
* Description:
* Not really a fast-io operation. Used by the VMM to release FSD resources
* after processing a modified page/block write operation.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: STATUS_SUCCESS/Error (an error returned here is really not expected!)
*
*************************************************************************/
NTSTATUS
NTAPI
UDFFastIoRelModWrite(
IN PFILE_OBJECT FileObject,
IN PERESOURCE ResourceToRelease,
IN PDEVICE_OBJECT DeviceObject)
{
FsRtlEnterFileSystem();
MmPrint((" RelModW\n"));
#define NtReqFcb ((PtrUDFNTRequiredFCB)(FileObject->FsContext))
// The MPW has complete the write for modified pages and therefore
// wants us to release pre-acquired resource(s).
// We must undo here whatever it is that we did in the
// UDFFastIoAcqModWrite() call above.
NtReqFcb->AcqFlushCount--;
ASSERT(ResourceToRelease == &(NtReqFcb->PagingIoResource));
UDFReleaseResource(ResourceToRelease);
#undef NtReqFcb
FsRtlExitFileSystem();
return(STATUS_SUCCESS);
} // end UDFFastIoRelModWrite()
/*************************************************************************
*
* Function: UDFFastIoAcqCcFlush()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to acquire FSD
* resources before performing a CcFlush() operation on a specific file
* stream.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: STATUS_SUCCESS/Error
*
*************************************************************************/
NTSTATUS
NTAPI
UDFFastIoAcqCcFlush(
IN PFILE_OBJECT FileObject,
IN PDEVICE_OBJECT DeviceObject)
{
// NTSTATUS RC = STATUS_SUCCESS;
FsRtlEnterFileSystem();
MmPrint((" AcqCcFlush\n"));
// Acquire appropriate resources that will allow correct synchronization
// with a flush call (and avoid deadlock).
#define NtReqFcb ((PtrUDFNTRequiredFCB)(FileObject->FsContext))
// UDFAcquireResourceExclusive(&(NtReqFcb->MainResource), TRUE);
UDFAcquireResourceExclusive(&(NtReqFcb->PagingIoResource), TRUE);
// ASSERT(!(NtReqFcb->AcqFlushCount));
NtReqFcb->AcqFlushCount++;
#undef NtReqFcb
FsRtlExitFileSystem();
return(STATUS_SUCCESS);
} // end UDFFastIoAcqCcFlush()
/*************************************************************************
*
* Function: UDFFastIoRelCcFlush()
*
* Description:
* Not really a fast-io operation. Used by the NT Cache Mgr to acquire FSD
* resources before performing a CcFlush() operation on a specific file
* stream.
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: STATUS_SUCCESS/Error
*
*************************************************************************/
NTSTATUS
NTAPI
UDFFastIoRelCcFlush(
IN PFILE_OBJECT FileObject,
IN PDEVICE_OBJECT DeviceObject
)
{
// NTSTATUS RC = STATUS_SUCCESS;
FsRtlEnterFileSystem();
MmPrint((" RelCcFlush\n"));
#define NtReqFcb ((PtrUDFNTRequiredFCB)(FileObject->FsContext))
// Release resources acquired in UDFFastIoAcqCcFlush() above.
NtReqFcb->AcqFlushCount--;
UDFReleaseResource(&(NtReqFcb->PagingIoResource));
// UDFReleaseResource(&(NtReqFcb->MainResource));
#undef NtReqFcb
FsRtlExitFileSystem();
return(STATUS_SUCCESS);
} // end UDFFastIoRelCcFlush()
/*BOOLEAN
UDFFastIoDeviceControl (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
IN PVOID InputBuffer OPTIONAL,
IN ULONG InputBufferLength,
OUT PVOID OutputBuffer OPTIONAL,
IN ULONG OutputBufferLength,
IN ULONG IoControlCode,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)
{
switch(IoControlCode) {
case FSCTL_ALLOW_EXTENDED_DASD_IO: {
IoStatus->Information = 0;
IoStatus->Status = STATUS_SUCCESS;
break;
}
case FSCTL_IS_VOLUME_MOUNTED: {
PtrUDFFCB Fcb;
PtrUDFCCB Ccb;
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
Fcb = Ccb->Fcb;
if(Fcb &&
!(Fcb->Vcb->VCBFlags & UDF_VCB_FLAGS_RAW_DISK) &&
!(Fcb->Vcb->VCBFlags & UDF_VCB_FLAGS_VOLUME_LOCKED) ) {
return FALSE;
}
IoStatus->Information = 0;
IoStatus->Status = STATUS_SUCCESS;
break;
}
default:
return FALSE;
}
return TRUE;
}*/
#endif //_WIN32_WINNT >= 0x0400
BOOLEAN
NTAPI
UDFFastIoCopyWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN ULONG LockKey,
IN PVOID Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)
{
PtrUDFFCB Fcb = NULL;
PtrUDFCCB Ccb = NULL;
// Obtain a pointer to the FCB and CCB for the file stream.
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
Fcb = Ccb->Fcb;
ASSERT(Fcb);
// back pressure for very smart and fast system cache ;)
if(Fcb->Vcb->VerifyCtx.QueuedCount ||
Fcb->Vcb->VerifyCtx.ItemCount >= UDF_MAX_VERIFY_CACHE) {
AdPrint((" Verify queue overflow -> UDFFastIoCopyWrite() = FALSE\n"));
return FALSE;
}
if(Fcb->NTRequiredFCB->SectionObject.DataSectionObject &&
Length >= 0x10000 &&
FileOffset->LowPart &&
!(FileOffset->LowPart & 0x00ffffff)) {
MmPrint((" no FastIo 16Mb\n"));
return FALSE;
}
return FsRtlCopyWrite(FileObject, FileOffset, Length, Wait, LockKey, Buffer, IoStatus, DeviceObject);
} // end UDFFastIoCopyWrite()