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reactos/drivers/filesystems/udfs/close.cpp
Doug Lyons a91f5e8e4d
[UDFS] Fix crash on boot in release builds with UDFS removable media inserted (#4061) CORE-17598 
Changes to specific files and their effects are as follows:
create.cpp - Allows booting past second stage with UDFS media inserted without BSOD
close.cpp - Allows shutdown without hang
dircntrl.cpp - Allows New Hardware Wizard not to hang on initial third phase install
2021-10-25 22:21:43 +02:00

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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: Close.cpp
*
* Module: UDF File System Driver (Kernel mode execution only)
*
* Description:
* Contains code to handle the "Close" dispatch entry point.
*
*************************************************************************/
#include "udffs.h"
// define the file specific bug-check id
#define UDF_BUG_CHECK_ID UDF_FILE_CLOSE
typedef BOOLEAN (*PCHECK_TREE_ITEM) (IN PUDF_FILE_INFO FileInfo);
#define TREE_ITEM_LIST_GRAN 32
NTSTATUS
UDFBuildTreeItemsList(
IN PVCB Vcb,
IN PUDF_FILE_INFO FileInfo,
IN PCHECK_TREE_ITEM CheckItemProc,
IN PUDF_DATALOC_INFO** PassedList,
IN PULONG PassedListSize,
IN PUDF_DATALOC_INFO** FoundList,
IN PULONG FoundListSize);
// callbacks, can't be __fastcall
BOOLEAN
UDFIsInDelayedCloseQueue(
PUDF_FILE_INFO FileInfo);
BOOLEAN
UDFIsLastClose(
PUDF_FILE_INFO FileInfo);
/*************************************************************************
*
* Function: UDFClose()
*
* Description:
* The I/O Manager will invoke this routine to handle a close
* request
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL (invocation at higher IRQL will cause execution
* to be deferred to a worker thread context)
*
* Return Value: STATUS_SUCCESS
*
*************************************************************************/
NTSTATUS
NTAPI
UDFClose(
PDEVICE_OBJECT DeviceObject, // the logical volume device object
PIRP Irp // I/O Request Packet
)
{
NTSTATUS RC = STATUS_SUCCESS;
PtrUDFIrpContext PtrIrpContext = NULL;
BOOLEAN AreWeTopLevel = FALSE;
AdPrint(("UDFClose: \n"));
FsRtlEnterFileSystem();
ASSERT(DeviceObject);
ASSERT(Irp);
// If we were called with our file system device object instead of a
// volume device object, just complete this request with STATUS_SUCCESS
if (UDFIsFSDevObj(DeviceObject)) {
// this is a close of the FSD itself
Irp->IoStatus.Status = RC;
Irp->IoStatus.Information = 0;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
FsRtlExitFileSystem();
return(RC);
}
// set the top level context
AreWeTopLevel = UDFIsIrpTopLevel(Irp);
_SEH2_TRY {
// get an IRP context structure and issue the request
PtrIrpContext = UDFAllocateIrpContext(Irp, DeviceObject);
ASSERT(PtrIrpContext);
RC = UDFCommonClose(PtrIrpContext, Irp);
} _SEH2_EXCEPT(UDFExceptionFilter(PtrIrpContext, _SEH2_GetExceptionInformation())) {
RC = UDFExceptionHandler(PtrIrpContext, Irp);
UDFLogEvent(UDF_ERROR_INTERNAL_ERROR, RC);
} _SEH2_END;
if (AreWeTopLevel) {
IoSetTopLevelIrp(NULL);
}
FsRtlExitFileSystem();
return(RC);
}
/*************************************************************************
*
* Function: UDFCommonClose()
*
* Description:
* The actual work is performed here. This routine may be invoked in one'
* of the two possible contexts:
* (a) in the context of a system worker thread
* (b) in the context of the original caller
*
* Expected Interrupt Level (for execution) :
*
* IRQL_PASSIVE_LEVEL
*
* Return Value: must be STATUS_SUCCESS
*
*************************************************************************/
NTSTATUS
UDFCommonClose(
PtrUDFIrpContext PtrIrpContext,
PIRP Irp
)
{
NTSTATUS RC = STATUS_SUCCESS;
PIO_STACK_LOCATION IrpSp = NULL;
PFILE_OBJECT FileObject = NULL;
PtrUDFFCB Fcb = NULL;
PtrUDFCCB Ccb = NULL;
PVCB Vcb = NULL;
// PERESOURCE PtrResourceAcquired = NULL;
BOOLEAN AcquiredVcb = FALSE;
BOOLEAN AcquiredGD = FALSE;
PUDF_FILE_INFO fi;
ULONG i = 0;
// ULONG clean_stat = 0;
// BOOLEAN CompleteIrp = TRUE;
BOOLEAN PostRequest = FALSE;
#ifdef UDF_DBG
UNICODE_STRING CurName;
PDIR_INDEX_HDR DirNdx;
#endif
AdPrint(("UDFCommonClose: \n"));
_SEH2_TRY {
if (Irp) {
// If this is the first (IOManager) request
// First, get a pointer to the current I/O stack location
IrpSp = IoGetCurrentIrpStackLocation(Irp);
ASSERT(IrpSp);
FileObject = IrpSp->FileObject;
ASSERT(FileObject);
// Get the FCB and CCB pointers
Ccb = (PtrUDFCCB)(FileObject->FsContext2);
ASSERT(Ccb);
if(Ccb->CCBFlags & UDF_CCB_READ_ONLY) {
PtrIrpContext->IrpContextFlags |= UDF_IRP_CONTEXT_READ_ONLY;
}
Fcb = Ccb->Fcb;
} else {
// If this is a queued call (for our dispatch)
// Get saved Fcb address
Fcb = PtrIrpContext->Fcb;
i = PtrIrpContext->TreeLength;
}
ASSERT(Fcb);
Vcb = (PVCB)(PtrIrpContext->TargetDeviceObject->DeviceExtension);
ASSERT(Vcb);
ASSERT(Vcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_VCB);
// Vcb->VCBFlags |= UDF_VCB_SKIP_EJECT_CHECK;
// Steps we shall take at this point are:
// (a) Acquire the VCB shared
// (b) Acquire the FCB's CCB list exclusively
// (c) Delete the CCB structure (free memory)
// (d) If this is the last close, release the FCB structure
// (unless we keep these around for "delayed close" functionality.
// Note that it is often the case that the close dispatch entry point is invoked
// in the most inconvenient of situations (when it is not possible, for example,
// to safely acquire certain required resources without deadlocking or waiting).
// Therefore, be extremely careful in implementing this close dispatch entry point.
// Also note that we do not have the option of returning a failure code from the
// close dispatch entry point; the system expects that the close will always succeed.
UDFAcquireResourceShared(&(Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
// Is this is the first (IOManager) request ?
if (Irp) {
PtrIrpContext->TreeLength =
i = Ccb->TreeLength;
// remember the number of incomplete Close requests
InterlockedIncrement((PLONG)&(Fcb->CcbCount));
// we can release CCB in any case
UDFCleanUpCCB(Ccb);
FileObject->FsContext2 = NULL;
#ifdef DBG
/* } else {
ASSERT(Fcb->NTRequiredFCB);
if(Fcb->NTRequiredFCB) {
ASSERT(Fcb->NTRequiredFCB->FileObject);
if(Fcb->NTRequiredFCB->FileObject) {
ASSERT(!Fcb->NTRequiredFCB->FileObject->FsContext2);
}
}*/
#endif //DBG
}
#ifdef UDF_DELAYED_CLOSE
// check if this is the last Close (no more Handles)
// and try to Delay it....
if((Fcb->FCBFlags & UDF_FCB_DELAY_CLOSE) &&
(Vcb->VCBFlags & UDF_VCB_FLAGS_VOLUME_MOUNTED) &&
!(Vcb->VCBFlags & UDF_VCB_FLAGS_NO_DELAYED_CLOSE) &&
!(Fcb->OpenHandleCount)) {
UDFReleaseResource(&(Vcb->VCBResource));
AcquiredVcb = FALSE;
if((RC = UDFQueueDelayedClose(PtrIrpContext,Fcb)) == STATUS_SUCCESS)
try_return(RC = STATUS_SUCCESS);
// do standard Close if we can't Delay this opeartion
AdPrint((" Cant queue Close Irp, status=%x\n", RC));
}
#endif //UDF_DELAYED_CLOSE
if(Irp) {
// We should post actual procesing if this is a recursive call
if((PtrIrpContext->IrpContextFlags & UDF_IRP_CONTEXT_NOT_TOP_LEVEL) ||
(Fcb->NTRequiredFCB->AcqFlushCount)) {
AdPrint((" post NOT_TOP_LEVEL Irp\n"));
PostRequest = TRUE;
try_return(RC = STATUS_SUCCESS);
}
}
// Close request is near completion, Vcb is acquired.
// Now we can safely decrease CcbCount, because no Rename
// operation can run until Vcb release.
InterlockedDecrement((PLONG)&(Fcb->CcbCount));
UDFInterlockedDecrement((PLONG)&(Vcb->VCBOpenCount));
if(PtrIrpContext->IrpContextFlags & UDF_IRP_CONTEXT_READ_ONLY)
UDFInterlockedDecrement((PLONG)&(Vcb->VCBOpenCountRO));
if(!i || (Fcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_VCB)) {
AdPrint(("UDF: Closing volume\n"));
AdPrint(("UDF: ReferenceCount: %x\n",Fcb->ReferenceCount));
if (Vcb->VCBOpenCount > UDF_RESIDUAL_REFERENCE) {
ASSERT(Fcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_VCB);
UDFInterlockedDecrement((PLONG)&(Fcb->ReferenceCount));
ASSERT(Fcb->NTRequiredFCB);
UDFInterlockedDecrement((PLONG)&(Fcb->NTRequiredFCB->CommonRefCount));
try_return(RC = STATUS_SUCCESS);
}
UDFInterlockedIncrement((PLONG)&(Vcb->VCBOpenCount));
if(AcquiredVcb) {
UDFReleaseResource(&(Vcb->VCBResource));
AcquiredVcb = FALSE;
} else {
BrutePoint();
}
// Acquire GlobalDataResource
UDFAcquireResourceExclusive(&(UDFGlobalData.GlobalDataResource), TRUE);
AcquiredGD = TRUE;
// // Acquire Vcb
UDFAcquireResourceExclusive(&(Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
UDFInterlockedDecrement((PLONG)&(Vcb->VCBOpenCount));
ASSERT(Fcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_VCB);
UDFInterlockedDecrement((PLONG)&(Fcb->ReferenceCount));
ASSERT(Fcb->NTRequiredFCB);
UDFInterlockedDecrement((PLONG)&(Fcb->NTRequiredFCB->CommonRefCount));
//AdPrint(("UDF: Closing volume, reset driver (e.g. stop BGF)\n"));
//UDFResetDeviceDriver(Vcb, Vcb->TargetDeviceObject, FALSE);
AdPrint(("UDF: Closing volume, reset write status\n"));
RC = UDFPhSendIOCTL(IOCTL_CDRW_RESET_WRITE_STATUS, Vcb->TargetDeviceObject,
NULL, 0, NULL, 0, TRUE, NULL);
if((Vcb->VCBFlags & UDF_VCB_FLAGS_BEING_DISMOUNTED) ||
((!(Vcb->VCBFlags & UDF_VCB_FLAGS_VOLUME_MOUNTED)) && (Vcb->VCBOpenCount <= UDF_RESIDUAL_REFERENCE))) {
// Try to KILL dismounted volume....
// w2k requires this, NT4 - recomends
AcquiredVcb = UDFCheckForDismount(PtrIrpContext, Vcb, TRUE);
}
try_return(RC = STATUS_SUCCESS);
}
fi = Fcb->FileInfo;
#ifdef UDF_DBG
if(!fi) {
BrutePoint();
}
DirNdx = UDFGetDirIndexByFileInfo(fi);
if(DirNdx) {
CurName.Buffer = UDFDirIndex(DirNdx,fi->Index)->FName.Buffer;
if(CurName.Buffer) {
AdPrint(("Closing file: %ws %8.8x\n", CurName.Buffer, FileObject));
} else {
AdPrint(("Closing file: ??? \n"));
}
}
AdPrint(("UDF: ReferenceCount: %x\n",Fcb->ReferenceCount));
#endif // UDF_DBG
// try to clean up as long chain as it is possible
UDFCleanUpFcbChain(Vcb, fi, i, TRUE);
try_exit: NOTHING;
} _SEH2_FINALLY {
if(AcquiredVcb) {
UDFReleaseResource(&(Vcb->VCBResource));
}
if(AcquiredGD) {
UDFReleaseResource(&(UDFGlobalData.GlobalDataResource));
}
// Post IRP if required
if (PostRequest) {
// Perform the post operation & complete the IRP
// if this is first call of UDFCommonClose
// and will return STATUS_SUCCESS back to us
PtrIrpContext->Irp = NULL;
PtrIrpContext->Fcb = Fcb;
UDFPostRequest(PtrIrpContext, NULL);
}
if (!_SEH2_AbnormalTermination()) {
// If this is not async close complete the IRP
if (Irp) {
/* if( FileObject ) {
if(clean_stat & UDF_CLOSE_NTREQFCB_DELETED) {
// ASSERT(!FileObject->FsContext2);
FileObject->FsContext = NULL;
#ifdef DBG
} else {
UDFNTRequiredFCB* NtReqFcb = ((UDFNTRequiredFCB*)(FileObject->FsContext));
if(NtReqFcb->FileObject == FileObject) {
NtReqFcb->FileObject = NULL;
}
#endif //DBG
}
}*/
Irp->IoStatus.Status = STATUS_SUCCESS;
Irp->IoStatus.Information = 0;
IoCompleteRequest(Irp, IO_DISK_INCREMENT);
}
// Free up the Irp Context
if(!PostRequest)
UDFReleaseIrpContext(PtrIrpContext);
}
} _SEH2_END; // end of "__finally" processing
return STATUS_SUCCESS ;
} // end UDFCommonClose()
/*
This routine walks through the tree to RootDir & kills all unreferenced
structures....
imho, Useful feature
*/
ULONG
UDFCleanUpFcbChain(
IN PVCB Vcb,
IN PUDF_FILE_INFO fi,
IN ULONG TreeLength,
IN BOOLEAN VcbAcquired
)
{
PtrUDFFCB Fcb = NULL;
PtrUDFFCB ParentFcb = NULL;
PUDF_FILE_INFO ParentFI;
UDFNTRequiredFCB* NtReqFcb;
ULONG CleanCode;
LONG RefCount, ComRefCount;
BOOLEAN Delete = FALSE;
ULONG ret_val = 0;
ValidateFileInfo(fi);
AdPrint(("UDFCleanUpFcbChain\n"));
ASSERT(TreeLength);
// we can't process Tree until we can acquire Vcb
if(!VcbAcquired)
UDFAcquireResourceShared(&(Vcb->VCBResource),TRUE);
// cleanup parent chain (if any & unused)
while(fi) {
// acquire parent
if((ParentFI = fi->ParentFile)) {
ASSERT(fi->Fcb);
ParentFcb = fi->Fcb->ParentFcb;
ASSERT(ParentFcb);
ASSERT(ParentFcb->NTRequiredFCB);
UDF_CHECK_PAGING_IO_RESOURCE(ParentFcb->NTRequiredFCB);
UDFAcquireResourceExclusive(&(ParentFcb->NTRequiredFCB->MainResource),TRUE);
} else {
// we get to RootDir, it has no parent
if(!VcbAcquired)
UDFAcquireResourceShared(&(Vcb->VCBResource),TRUE);
}
Fcb = fi->Fcb;
ASSERT(Fcb->NodeIdentifier.NodeType == UDF_NODE_TYPE_FCB);
NtReqFcb = Fcb->NTRequiredFCB;
ASSERT(NtReqFcb->CommonFCBHeader.NodeTypeCode == UDF_NODE_TYPE_NT_REQ_FCB);
// acquire current file/dir
// we must assure that no more threads try to re-use this object
#ifdef UDF_DBG
_SEH2_TRY {
#endif // UDF_DBG
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFAcquireResourceExclusive(&(NtReqFcb->MainResource),TRUE);
#ifdef UDF_DBG
} _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) {
BrutePoint();
if(ParentFI) {
UDF_CHECK_PAGING_IO_RESOURCE(ParentFcb->NTRequiredFCB);
UDFReleaseResource(&(ParentFcb->NTRequiredFCB->MainResource));
} else {
if(!VcbAcquired)
UDFReleaseResource(&(Vcb->VCBResource));
}
break;
} _SEH2_END;
#endif // UDF_DBG
ASSERT_REF((Fcb->ReferenceCount > fi->RefCount) || !TreeLength);
// If we haven't pass through all files opened
// in UDFCommonCreate before target file (TreeLength specfies
// the number of such files) dereference them.
// Otherwise we'll just check if the file has no references.
#ifdef UDF_DBG
if(Fcb) {
if(TreeLength) {
ASSERT(Fcb->ReferenceCount);
ASSERT(NtReqFcb->CommonRefCount);
RefCount = UDFInterlockedDecrement((PLONG)&(Fcb->ReferenceCount));
ComRefCount = UDFInterlockedDecrement((PLONG)&(NtReqFcb->CommonRefCount));
}
} else {
BrutePoint();
}
if(TreeLength)
TreeLength--;
ASSERT(Fcb->OpenHandleCount <= Fcb->ReferenceCount);
#else
if(TreeLength) {
RefCount = UDFInterlockedDecrement((PLONG)&(Fcb->ReferenceCount));
ComRefCount = UDFInterlockedDecrement((PLONG)&(NtReqFcb->CommonRefCount));
TreeLength--;
}
#endif
/* if(Fcb && Fcb->FCBName && Fcb->FCBName->ObjectName.Buffer) {
AdPrint((" %ws (%x)\n",
Fcb->FCBName->ObjectName.Buffer,Fcb->ReferenceCount));
} else if (Fcb) {
AdPrint((" ??? (%x)\n",Fcb->ReferenceCount));
} else {
AdPrint((" ??? (??)\n"));
}*/
// ...and delete if it has gone
if(!RefCount && !Fcb->OpenHandleCount) {
// no more references... current file/dir MUST DIE!!!
BOOLEAN AutoInherited = UDFIsAStreamDir(fi) || UDFIsAStream(fi);
if(Vcb->VCBFlags & UDF_VCB_FLAGS_RAW_DISK) {
// do nothing
} else
#ifndef UDF_READ_ONLY_BUILD
if(Delete) {
/* if(!(Fcb->FCBFlags & UDF_FCB_DIRECTORY)) {
// set file size to zero (for UdfInfo package)
// we should not do this for directories
UDFResizeFile__(Vcb, fi, 0);
}*/
UDFReferenceFile__(fi);
ASSERT(Fcb->ReferenceCount < fi->RefCount);
UDFFlushFile__(Vcb, fi);
UDFUnlinkFile__(Vcb, fi, TRUE);
UDFCloseFile__(Vcb, fi);
ASSERT(Fcb->ReferenceCount == fi->RefCount);
Fcb->FCBFlags |= UDF_FCB_DELETED;
Delete = FALSE;
} else
#endif //UDF_READ_ONLY_BUILD
if(!(Fcb->FCBFlags & UDF_FCB_DELETED)) {
UDFFlushFile__(Vcb, fi);
} else {
// BrutePoint();
}
#ifndef UDF_READ_ONLY_BUILD
// check if we should try to delete Parent for the next time
if(Fcb->FCBFlags & UDF_FCB_DELETE_PARENT)
Delete = TRUE;
#endif //UDF_READ_ONLY_BUILD
// remove references to OS-specific structures
// to let UDF_INFO release FI & Co
fi->Fcb = NULL;
if(!ComRefCount) {
// CommonFcb is also completly dereferenced
// Kill it!
fi->Dloc->CommonFcb = NULL;
}
if((CleanCode = UDFCleanUpFile__(Vcb, fi))) {
// Check, if we can uninitialize & deallocate CommonFcb part
// kill some cross links
Fcb->FileInfo = NULL;
// release allocated resources
if(CleanCode & UDF_FREE_DLOC) {
// Obviously, it is a good time & place to release
// CommonFcb structure
// NtReqFcb->NtReqFCBFlags &= ~UDF_NTREQ_FCB_VALID;
// Unitialize byte-range locks support structure
FsRtlUninitializeFileLock(&(NtReqFcb->FileLock));
// Remove resources
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
if(NtReqFcb->CommonFCBHeader.Resource) {
UDFDeleteResource(&(NtReqFcb->MainResource));
UDFDeleteResource(&(NtReqFcb->PagingIoResource));
}
NtReqFcb->CommonFCBHeader.Resource =
NtReqFcb->CommonFCBHeader.PagingIoResource = NULL;
UDFDeassignAcl(NtReqFcb, AutoInherited);
UDFPrint(("UDFReleaseNtReqFCB: %x\n", NtReqFcb));
#ifdef DBG
// NtReqFcb->FileObject->FsContext2 = NULL;
// ASSERT(NtReqFcb->FileObject);
/* if(NtReqFcb->FileObject) {
ASSERT(!NtReqFcb->FileObject->FsContext2);
NtReqFcb->FileObject->FsContext = NULL;
NtReqFcb->FileObject->SectionObjectPointer = NULL;
}*/
#endif //DBG
MyFreePool__(NtReqFcb);
ret_val |= UDF_CLOSE_NTREQFCB_DELETED;
} else {
// we usually get here when the file has some opened links
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
}
// remove some references & free Fcb structure
Fcb->NTRequiredFCB = NULL;
Fcb->ParentFcb = NULL;
UDFCleanUpFCB(Fcb);
MyFreePool__(fi);
ret_val |= UDF_CLOSE_FCB_DELETED;
// get pointer to parent FCB
fi = ParentFI;
// free old parent's resource...
if(fi) {
UDF_CHECK_PAGING_IO_RESOURCE(ParentFcb->NTRequiredFCB);
UDFReleaseResource(&(ParentFcb->NTRequiredFCB->MainResource));
} else {
if(!VcbAcquired)
UDFReleaseResource(&(Vcb->VCBResource));
}
} else {
// Stop cleaning up
// Restore pointers
fi->Fcb = Fcb;
fi->Dloc->CommonFcb = NtReqFcb;
// free all acquired resources
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
fi = ParentFI;
if(fi) {
UDF_CHECK_PAGING_IO_RESOURCE(ParentFcb->NTRequiredFCB);
UDFReleaseResource(&(ParentFcb->NTRequiredFCB->MainResource));
} else {
if(!VcbAcquired)
UDFReleaseResource(&(Vcb->VCBResource));
}
// If we have dereferenced all parents 'associated'
// with input file & current file is still in use
// then it isn't worth walking down the tree
// 'cause in this case all the rest files are also used
if(!TreeLength)
break;
// AdPrint(("Stop on referenced File/Dir\n"));
}
} else {
// we get to referenced file/dir. Stop search & release resource
UDF_CHECK_PAGING_IO_RESOURCE(NtReqFcb);
UDFReleaseResource(&(NtReqFcb->MainResource));
if(ParentFI) {
UDF_CHECK_PAGING_IO_RESOURCE(ParentFcb->NTRequiredFCB);
UDFReleaseResource(&(ParentFcb->NTRequiredFCB->MainResource));
} else {
if(!VcbAcquired)
UDFReleaseResource(&(Vcb->VCBResource));
}
Delete = FALSE;
if(!TreeLength)
break;
fi = ParentFI;
}
}
if(fi) {
Fcb = fi->Fcb;
for(;TreeLength && fi;TreeLength--) {
if(Fcb) {
ParentFcb = Fcb->ParentFcb;
ASSERT(Fcb->ReferenceCount);
ASSERT(Fcb->NTRequiredFCB->CommonRefCount);
ASSERT_REF(Fcb->ReferenceCount > fi->RefCount);
UDFInterlockedDecrement((PLONG)&(Fcb->ReferenceCount));
UDFInterlockedDecrement((PLONG)&(Fcb->NTRequiredFCB->CommonRefCount));
#ifdef UDF_DBG
} else {
BrutePoint();
#endif
}
Fcb = ParentFcb;
}
}
if(!VcbAcquired)
UDFReleaseResource(&(Vcb->VCBResource));
return ret_val;
} // end UDFCleanUpFcbChain()
VOID
UDFDoDelayedClose(
IN PtrUDFIrpContextLite NextIrpContextLite
)
{
PtrUDFIrpContext IrpContext;
AdPrint((" UDFDoDelayedClose\n"));
UDFInitializeIrpContextFromLite(&IrpContext,NextIrpContextLite);
IrpContext->Fcb->IrpContextLite = NULL;
MyFreePool__(NextIrpContextLite);
IrpContext->Fcb->FCBFlags &= ~UDF_FCB_DELAY_CLOSE;
UDFCommonClose(IrpContext,NULL);
} // end UDFDoDelayedClose()
/*
This routine removes request from Delayed Close queue.
It operates until reach lower threshold
*/
VOID
NTAPI
UDFDelayedClose(
PVOID unused
)
{
PLIST_ENTRY Entry;
PtrUDFIrpContextLite NextIrpContextLite;
AdPrint((" UDFDelayedClose\n"));
// Acquire DelayedCloseResource
UDFAcquireResourceExclusive(&(UDFGlobalData.DelayedCloseResource), TRUE);
while (UDFGlobalData.ReduceDelayedClose &&
(UDFGlobalData.DelayedCloseCount > UDFGlobalData.MinDelayedCloseCount)) {
Entry = UDFGlobalData.DelayedCloseQueue.Flink;
if (!IsListEmpty(Entry)) {
// Extract the IrpContext.
NextIrpContextLite = CONTAINING_RECORD( Entry,
UDFIrpContextLite,
DelayedCloseLinks );
RemoveEntryList( Entry );
UDFGlobalData.DelayedCloseCount--;
UDFDoDelayedClose(NextIrpContextLite);
} else {
BrutePoint();
}
}
while (UDFGlobalData.ReduceDirDelayedClose &&
(UDFGlobalData.DirDelayedCloseCount > UDFGlobalData.MinDirDelayedCloseCount)) {
Entry = UDFGlobalData.DirDelayedCloseQueue.Flink;
if (!IsListEmpty(Entry)) {
// Extract the IrpContext.
NextIrpContextLite = CONTAINING_RECORD( Entry,
UDFIrpContextLite,
DelayedCloseLinks );
RemoveEntryList( Entry );
UDFGlobalData.DirDelayedCloseCount--;
UDFDoDelayedClose(NextIrpContextLite);
} else {
BrutePoint();
}
}
UDFGlobalData.FspCloseActive = FALSE;
UDFGlobalData.ReduceDelayedClose = FALSE;
UDFGlobalData.ReduceDirDelayedClose = FALSE;
// Release DelayedCloseResource
UDFReleaseResource(&(UDFGlobalData.DelayedCloseResource));
return;
} // end UDFDelayedClose()
/*
This routine performs Close operation for all files from
Delayed Close queue.
*/
VOID
UDFCloseAllDelayed(
IN PVCB Vcb
)
{
PLIST_ENTRY Entry;
PtrUDFIrpContextLite NextIrpContextLite;
BOOLEAN GlobalDataAcquired = FALSE;
AdPrint((" UDFCloseAllDelayed\n"));
// Acquire DelayedCloseResource
if (!ExIsResourceAcquiredExclusive(&UDFGlobalData.GlobalDataResource)) {
UDFAcquireResourceExclusive(&(UDFGlobalData.DelayedCloseResource), TRUE);
GlobalDataAcquired = TRUE;
}
Entry = UDFGlobalData.DelayedCloseQueue.Flink;
while (Entry != &UDFGlobalData.DelayedCloseQueue) {
// Extract the IrpContext.
NextIrpContextLite = CONTAINING_RECORD( Entry,
UDFIrpContextLite,
DelayedCloseLinks );
Entry = Entry->Flink;
if (NextIrpContextLite->Fcb->Vcb == Vcb) {
RemoveEntryList( &(NextIrpContextLite->DelayedCloseLinks) );
UDFGlobalData.DelayedCloseCount--;
UDFDoDelayedClose(NextIrpContextLite);
}
}
Entry = UDFGlobalData.DirDelayedCloseQueue.Flink;
while (Entry != &UDFGlobalData.DirDelayedCloseQueue) {
// Extract the IrpContext.
NextIrpContextLite = CONTAINING_RECORD( Entry,
UDFIrpContextLite,
DelayedCloseLinks );
Entry = Entry->Flink;
if (NextIrpContextLite->Fcb->Vcb == Vcb) {
RemoveEntryList( &(NextIrpContextLite->DelayedCloseLinks) );
UDFGlobalData.DirDelayedCloseCount--;
UDFDoDelayedClose(NextIrpContextLite);
}
}
// Release DelayedCloseResource
if(GlobalDataAcquired)
UDFReleaseResource(&(UDFGlobalData.DelayedCloseResource));
} // end UDFCloseAllDelayed()
NTSTATUS
UDFBuildTreeItemsList(
IN PVCB Vcb,
IN PUDF_FILE_INFO FileInfo,
IN PCHECK_TREE_ITEM CheckItemProc,
IN PUDF_FILE_INFO** PassedList,
IN PULONG PassedListSize,
IN PUDF_FILE_INFO** FoundList,
IN PULONG FoundListSize
)
{
PDIR_INDEX_HDR hDirNdx;
PUDF_FILE_INFO SDirInfo;
ULONG i;
UDFPrint((" UDFBuildTreeItemsList():\n"));
if(!(*PassedList) || !(*FoundList)) {
(*PassedList) = (PUDF_FILE_INFO*)
MyAllocatePool__(NonPagedPool, sizeof(PUDF_FILE_INFO)*TREE_ITEM_LIST_GRAN);
if(!(*PassedList))
return STATUS_INSUFFICIENT_RESOURCES;
(*PassedListSize) = 0;
(*FoundList) = (PUDF_FILE_INFO*)
MyAllocatePool__(NonPagedPool, sizeof(PUDF_FILE_INFO)*TREE_ITEM_LIST_GRAN);
if(!(*FoundList)) {
MyFreePool__(*PassedList);
*PassedList = NULL;
return STATUS_INSUFFICIENT_RESOURCES;
}
(*FoundListSize) = 0;
}
// check if already passed
for(i=0;i<(*PassedListSize);i++) {
if( ((*PassedList)[i]) == FileInfo )
return STATUS_SUCCESS;
}
// remember passed object
// we should not proceed linked objects twice
(*PassedListSize)++;
if( !((*PassedListSize) & (TREE_ITEM_LIST_GRAN - 1)) ) {
if(!MyReallocPool__((PCHAR)(*PassedList), (*PassedListSize)*sizeof(PUDF_FILE_INFO),
(PCHAR*)PassedList, ((*PassedListSize)+TREE_ITEM_LIST_GRAN)*sizeof(PUDF_FILE_INFO))) {
return STATUS_INSUFFICIENT_RESOURCES;
}
}
(*PassedList)[(*PassedListSize)-1] = FileInfo;
// check if this object matches our conditions
if(CheckItemProc(FileInfo)) {
// remember matched object
(*FoundListSize)++;
if( !((*FoundListSize) & (TREE_ITEM_LIST_GRAN - 1)) ) {
if(!MyReallocPool__((PCHAR)(*FoundList), (*FoundListSize)*sizeof(PUDF_DATALOC_INFO),
(PCHAR*)FoundList, ((*FoundListSize)+TREE_ITEM_LIST_GRAN)*sizeof(PUDF_DATALOC_INFO))) {
return STATUS_INSUFFICIENT_RESOURCES;
}
}
(*FoundList)[(*FoundListSize)-1] = FileInfo;
}
// walk through SDir (if any)
if((SDirInfo = FileInfo->Dloc->SDirInfo))
UDFBuildTreeItemsList(Vcb, SDirInfo, CheckItemProc,
PassedList, PassedListSize, FoundList, FoundListSize);
// walk through subsequent objects (if any)
if((hDirNdx = FileInfo->Dloc->DirIndex)) {
// scan DirIndex
UDF_DIR_SCAN_CONTEXT ScanContext;
PDIR_INDEX_ITEM DirNdx;
PUDF_FILE_INFO CurFileInfo;
if(UDFDirIndexInitScan(FileInfo, &ScanContext, 2)) {
while((DirNdx = UDFDirIndexScan(&ScanContext, &CurFileInfo))) {
if(!CurFileInfo)
continue;
UDFBuildTreeItemsList(Vcb, CurFileInfo, CheckItemProc,
PassedList, PassedListSize, FoundList, FoundListSize);
}
}
}
return STATUS_SUCCESS;
} // end UDFBuildTreeItemsList()
BOOLEAN
UDFIsInDelayedCloseQueue(
PUDF_FILE_INFO FileInfo)
{
ASSERT(FileInfo);
return (FileInfo->Fcb && FileInfo->Fcb->IrpContextLite);
} // end UDFIsInDelayedCloseQueue()
BOOLEAN
UDFIsLastClose(
PUDF_FILE_INFO FileInfo)
{
ASSERT(FileInfo);
PtrUDFFCB Fcb = FileInfo->Fcb;
if( Fcb &&
!Fcb->OpenHandleCount &&
Fcb->ReferenceCount &&
Fcb->NTRequiredFCB->SectionObject.DataSectionObject) {
return TRUE;
}
return FALSE;
} // UDFIsLastClose()
NTSTATUS
UDFCloseAllXXXDelayedInDir(
IN PVCB Vcb,
IN PUDF_FILE_INFO FileInfo,
IN BOOLEAN System
)
{
PUDF_FILE_INFO* PassedList = NULL;
ULONG PassedListSize = 0;
PUDF_FILE_INFO* FoundList = NULL;
ULONG FoundListSize = 0;
NTSTATUS RC;
ULONG i;
_SEH2_VOLATILE BOOLEAN ResAcq = FALSE;
_SEH2_VOLATILE BOOLEAN AcquiredVcb = FALSE;
UDFNTRequiredFCB* NtReqFcb;
PUDF_FILE_INFO CurFileInfo;
PFE_LIST_ENTRY CurListPtr;
PFE_LIST_ENTRY* ListPtrArray = NULL;
_SEH2_TRY {
UDFPrint((" UDFCloseAllXXXDelayedInDir(): Acquire DelayedCloseResource\n"));
// Acquire DelayedCloseResource
UDFAcquireResourceExclusive(&(UDFGlobalData.DelayedCloseResource), TRUE);
ResAcq = TRUE;
UDFAcquireResourceExclusive(&(Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
RC = UDFBuildTreeItemsList(Vcb, FileInfo,
System ? UDFIsLastClose : UDFIsInDelayedCloseQueue,
&PassedList, &PassedListSize, &FoundList, &FoundListSize);
if(!NT_SUCCESS(RC)) {
UDFPrint((" UDFBuildTreeItemsList(): error %x\n", RC));
try_return(RC);
}
if(!FoundList || !FoundListSize) {
try_return(RC = STATUS_SUCCESS);
}
// build array of referenced pointers
ListPtrArray = (PFE_LIST_ENTRY*)(MyAllocatePool__(NonPagedPool, FoundListSize*sizeof(PFE_LIST_ENTRY)));
if(!ListPtrArray) {
UDFPrint((" Can't alloc ListPtrArray for %x items\n", FoundListSize));
try_return(RC = STATUS_INSUFFICIENT_RESOURCES);
}
for(i=0;i<FoundListSize;i++) {
_SEH2_TRY {
CurFileInfo = FoundList[i];
if(!CurFileInfo->ListPtr) {
CurFileInfo->ListPtr = (PFE_LIST_ENTRY)(MyAllocatePool__(NonPagedPool, sizeof(FE_LIST_ENTRY)));
if(!CurFileInfo->ListPtr) {
UDFPrint((" Can't alloc ListPtrEntry for items %x\n", i));
try_return(RC = STATUS_INSUFFICIENT_RESOURCES);
}
CurFileInfo->ListPtr->FileInfo = CurFileInfo;
CurFileInfo->ListPtr->EntryRefCount = 0;
}
CurFileInfo->ListPtr->EntryRefCount++;
ListPtrArray[i] = CurFileInfo->ListPtr;
} _SEH2_EXCEPT (EXCEPTION_EXECUTE_HANDLER) {
BrutePoint();
} _SEH2_END;
}
UDFReleaseResource(&(Vcb->VCBResource));
AcquiredVcb = FALSE;
if(System) {
// Remove from system queue
PtrUDFFCB Fcb;
IO_STATUS_BLOCK IoStatus;
BOOLEAN NoDelayed = (Vcb->VCBFlags & UDF_VCB_FLAGS_NO_DELAYED_CLOSE) ?
TRUE : FALSE;
Vcb->VCBFlags |= UDF_VCB_FLAGS_NO_DELAYED_CLOSE;
for(i=FoundListSize;i>0;i--) {
UDFAcquireResourceExclusive(&(Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
_SEH2_TRY {
CurListPtr = ListPtrArray[i-1];
CurFileInfo = CurListPtr->FileInfo;
if(CurFileInfo &&
(Fcb = CurFileInfo->Fcb)) {
NtReqFcb = Fcb->NTRequiredFCB;
ASSERT((ULONG_PTR)NtReqFcb > 0x1000);
// ASSERT((ULONG)(NtReqFcb->SectionObject) > 0x1000);
if(!(NtReqFcb->NtReqFCBFlags & UDF_NTREQ_FCB_DELETED) &&
(NtReqFcb->NtReqFCBFlags & UDF_NTREQ_FCB_MODIFIED)) {
MmPrint((" CcFlushCache()\n"));
CcFlushCache(&(NtReqFcb->SectionObject), NULL, 0, &IoStatus);
}
if(NtReqFcb->SectionObject.ImageSectionObject) {
MmPrint((" MmFlushImageSection()\n"));
MmFlushImageSection(&(NtReqFcb->SectionObject), MmFlushForWrite);
}
if(NtReqFcb->SectionObject.DataSectionObject) {
MmPrint((" CcPurgeCacheSection()\n"));
CcPurgeCacheSection( &(NtReqFcb->SectionObject), NULL, 0, FALSE );
}
} else {
MmPrint((" Skip item: deleted\n"));
}
CurListPtr->EntryRefCount--;
if(!CurListPtr->EntryRefCount) {
if(CurListPtr->FileInfo)
CurListPtr->FileInfo->ListPtr = NULL;
MyFreePool__(CurListPtr);
}
} _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) {
BrutePoint();
} _SEH2_END;
UDFReleaseResource(&(Vcb->VCBResource));
AcquiredVcb = FALSE;
}
if(!NoDelayed)
Vcb->VCBFlags &= ~UDF_VCB_FLAGS_NO_DELAYED_CLOSE;
} else {
// Remove from internal queue
PtrUDFIrpContextLite NextIrpContextLite;
for(i=FoundListSize;i>0;i--) {
UDFAcquireResourceExclusive(&(Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
CurListPtr = ListPtrArray[i-1];
CurFileInfo = CurListPtr->FileInfo;
if(CurFileInfo &&
CurFileInfo->Fcb &&
(NextIrpContextLite = CurFileInfo->Fcb->IrpContextLite)) {
RemoveEntryList( &(NextIrpContextLite->DelayedCloseLinks) );
if (NextIrpContextLite->Fcb->FCBFlags & UDF_FCB_DIRECTORY) {
// BrutePoint();
UDFGlobalData.DirDelayedCloseCount--;
} else {
UDFGlobalData.DelayedCloseCount--;
}
UDFDoDelayedClose(NextIrpContextLite);
}
CurListPtr->EntryRefCount--;
if(!CurListPtr->EntryRefCount) {
if(CurListPtr->FileInfo)
CurListPtr->FileInfo->ListPtr = NULL;
MyFreePool__(CurListPtr);
}
UDFReleaseResource(&(Vcb->VCBResource));
AcquiredVcb = FALSE;
}
}
RC = STATUS_SUCCESS;
try_exit: NOTHING;
} _SEH2_FINALLY {
// release Vcb
if(AcquiredVcb)
UDFReleaseResource(&(Vcb->VCBResource));
// Release DelayedCloseResource
if(ResAcq)
UDFReleaseResource(&(UDFGlobalData.DelayedCloseResource));
if(ListPtrArray)
MyFreePool__(ListPtrArray);
if(PassedList)
MyFreePool__(PassedList);
if(FoundList)
MyFreePool__(FoundList);
} _SEH2_END;
return RC;
} // end UDFCloseAllXXXDelayedInDir(
/*
This routine adds request to Delayed Close queue.
If number of queued requests exceeds higher threshold it fires
UDFDelayedClose()
*/
NTSTATUS
UDFQueueDelayedClose(
PtrUDFIrpContext IrpContext,
PtrUDFFCB Fcb
)
{
PtrUDFIrpContextLite IrpContextLite;
BOOLEAN StartWorker = FALSE;
_SEH2_VOLATILE BOOLEAN AcquiredVcb = FALSE;
NTSTATUS RC;
AdPrint((" UDFQueueDelayedClose\n"));
_SEH2_TRY {
// Acquire DelayedCloseResource
UDFAcquireResourceExclusive(&(UDFGlobalData.DelayedCloseResource), TRUE);
UDFAcquireResourceShared(&(Fcb->Vcb->VCBResource), TRUE);
AcquiredVcb = TRUE;
if(Fcb->FCBFlags & UDF_FCB_DELETE_ON_CLOSE) {
try_return(RC = STATUS_DELETE_PENDING);
}
if(Fcb->IrpContextLite ||
Fcb->FCBFlags & UDF_FCB_POSTED_RENAME) {
// BrutePoint();
try_return(RC = STATUS_UNSUCCESSFUL);
}
if(!NT_SUCCESS(RC = UDFInitializeIrpContextLite(&IrpContextLite,IrpContext,Fcb))) {
try_return(RC);
}
if(Fcb->FCBFlags & UDF_FCB_DIRECTORY) {
InsertTailList( &UDFGlobalData.DirDelayedCloseQueue,
&IrpContextLite->DelayedCloseLinks );
UDFGlobalData.DirDelayedCloseCount++;
} else {
InsertTailList( &UDFGlobalData.DelayedCloseQueue,
&IrpContextLite->DelayedCloseLinks );
UDFGlobalData.DelayedCloseCount++;
}
Fcb->IrpContextLite = IrpContextLite;
// If we are above our threshold then start the delayed
// close operation.
if(UDFGlobalData.DelayedCloseCount > UDFGlobalData.MaxDelayedCloseCount) {
UDFGlobalData.ReduceDelayedClose = TRUE;
if(!UDFGlobalData.FspCloseActive) {
UDFGlobalData.FspCloseActive = TRUE;
StartWorker = TRUE;
}
}
// If we are above our threshold then start the delayed
// close operation.
if(UDFGlobalData.DirDelayedCloseCount > UDFGlobalData.MaxDirDelayedCloseCount) {
UDFGlobalData.ReduceDirDelayedClose = TRUE;
if(!UDFGlobalData.FspCloseActive) {
UDFGlobalData.FspCloseActive = TRUE;
StartWorker = TRUE;
}
}
// Start the FspClose thread if we need to.
if(StartWorker) {
ExQueueWorkItem( &UDFGlobalData.CloseItem, CriticalWorkQueue );
}
RC = STATUS_SUCCESS;
try_exit: NOTHING;
} _SEH2_FINALLY {
if(!NT_SUCCESS(RC)) {
Fcb->FCBFlags &= ~UDF_FCB_DELAY_CLOSE;
}
if(AcquiredVcb) {
UDFReleaseResource(&(Fcb->Vcb->VCBResource));
}
// Release DelayedCloseResource
UDFReleaseResource(&(UDFGlobalData.DelayedCloseResource));
} _SEH2_END;
return RC;
} // end UDFQueueDelayedClose()
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