reactos/drivers/filesystems/fastfat_new/create.c
Pierre Schweitzer 0daa5547d9
[FASTFAT_NEW] Import again FastFAT from MS. This time from GitHub for license reasons.
This implies that a sample for W10.
It has been backported to NT5.2; not sure how it would work on a W2K3 (feel free to test!)
2017-11-23 23:27:51 +01:00

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/*++
Copyright (c) 1989-2000 Microsoft Corporation
Module Name:
Create.c
Abstract:
This module implements the File Create routine for Fat called by the
dispatch driver.
--*/
#include "fatprocs.h"
//
// The Bug check file id for this module
//
#define BugCheckFileId (FAT_BUG_CHECK_CREATE)
//
// The debug trace level
//
#define Dbg (DEBUG_TRACE_CREATE)
//
// Macros for incrementing performance counters.
//
#define CollectCreateHitStatistics(VCB) { \
PFILE_SYSTEM_STATISTICS Stats = &(VCB)->Statistics[KeGetCurrentProcessorNumber() % FatData.NumberProcessors]; \
Stats->Fat.CreateHits += 1; \
}
#define CollectCreateStatistics(VCB,STATUS) { \
PFILE_SYSTEM_STATISTICS Stats = &(VCB)->Statistics[KeGetCurrentProcessorNumber() % FatData.NumberProcessors]; \
if ((STATUS) == STATUS_SUCCESS) { \
Stats->Fat.SuccessfulCreates += 1; \
} else { \
Stats->Fat.FailedCreates += 1; \
} \
}
LUID FatSecurityPrivilege = { SE_SECURITY_PRIVILEGE, 0 };
//
// local procedure prototypes
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenVolume (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenRootDcb (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingDcb (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB Dcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos,
_Out_ PBOOLEAN OplockPostIrp
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingFcb (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PFCB Fcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos,
_Out_ PBOOLEAN OplockPostIrp
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenTargetDirectory (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PDCB Dcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ BOOLEAN DoesNameExist,
_In_ BOOLEAN FileNameOpenedDos
);
_Success_(return.Status == STATUS_SUCCESS)
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingDirectory (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Outptr_result_maybenull_ PDCB *Dcb,
_In_ PDCB ParentDcb,
_In_ PDIRENT Dirent,
_In_ ULONG LfnByteOffset,
_In_ ULONG DirentByteOffset,
_In_ PUNICODE_STRING Lfn,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN FileNameOpenedDos,
_In_ BOOLEAN OpenRequiringOplock
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingFile (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Outptr_result_maybenull_ PFCB *Fcb,
_In_ PDCB ParentDcb,
_In_ PDIRENT Dirent,
_In_ ULONG LfnByteOffset,
_In_ ULONG DirentByteOffset,
_In_ PUNICODE_STRING Lfn,
_In_ PUNICODE_STRING OrigLfn,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN IsPagingFile,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatCreateNewDirectory (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB ParentDcb,
_In_ POEM_STRING OemName,
_In_ PUNICODE_STRING UnicodeName,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatCreateNewFile (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB ParentDcb,
_In_ POEM_STRING OemName,
_In_ PUNICODE_STRING UnicodeName,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ PUNICODE_STRING LfnBuffer,
_In_ BOOLEAN IsPagingFile,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN TemporaryFile
);
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatSupersedeOrOverwriteFile (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PFCB Fcb,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge
);
NTSTATUS
FatCheckSystemSecurityAccess (
_In_ PIRP_CONTEXT IrpContext
);
NTSTATUS
FatCheckShareAccess (
_In_ PIRP_CONTEXT IrpContext,
_In_ PFILE_OBJECT FileObject,
_In_ PFCB Fcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ ULONG ShareAccess
);
#ifdef ALLOC_PRAGMA
#pragma alloc_text(PAGE, FatCheckShareAccess)
#pragma alloc_text(PAGE, FatCheckSystemSecurityAccess)
#pragma alloc_text(PAGE, FatCommonCreate)
#if (NTDDI_VERSION >= NTDDI_WINTHRESHOLD)
#pragma alloc_text(PAGE, FatCommonCreateOnNewStack)
#pragma alloc_text(PAGE, FatCommonCreateCallout)
#endif
#pragma alloc_text(PAGE, FatCreateNewDirectory)
#pragma alloc_text(PAGE, FatCreateNewFile)
#pragma alloc_text(PAGE, FatFsdCreate)
#pragma alloc_text(PAGE, FatOpenExistingDcb)
#pragma alloc_text(PAGE, FatOpenExistingDirectory)
#pragma alloc_text(PAGE, FatOpenExistingFcb)
#pragma alloc_text(PAGE, FatOpenExistingFile)
#pragma alloc_text(PAGE, FatOpenRootDcb)
#pragma alloc_text(PAGE, FatOpenTargetDirectory)
#pragma alloc_text(PAGE, FatOpenVolume)
#pragma alloc_text(PAGE, FatSupersedeOrOverwriteFile)
#pragma alloc_text(PAGE, FatSetFullNameInFcb)
#endif
_Function_class_(IRP_MJ_CREATE)
_Function_class_(DRIVER_DISPATCH)
NTSTATUS
NTAPI
FatFsdCreate (
_In_ PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
_Inout_ PIRP Irp
)
/*++
Routine Description:
This routine implements the FSD part of the NtCreateFile and NtOpenFile
API calls.
Arguments:
VolumeDeviceObject - Supplies the volume device object where the
file/directory exists that we are trying to open/create
Irp - Supplies the Irp being processed
Return Value:
NTSTATUS - The Fsd status for the Irp
--*/
{
NTSTATUS Status;
PIRP_CONTEXT IrpContext = NULL;
BOOLEAN TopLevel;
BOOLEAN ExceptionCompletedIrp = FALSE;
PAGED_CODE();
//
// If we were called with our file system device object instead of a
// volume device object, just complete this request with STATUS_SUCCESS
//
if ( FatDeviceIsFatFsdo( VolumeDeviceObject)) {
Irp->IoStatus.Status = STATUS_SUCCESS;
Irp->IoStatus.Information = FILE_OPENED;
IoCompleteRequest( Irp, IO_DISK_INCREMENT );
return STATUS_SUCCESS;
}
TimerStart(Dbg);
DebugTrace(+1, Dbg, "FatFsdCreate\n", 0);
//
// Call the common create routine, with block allowed if the operation
// is synchronous.
//
FsRtlEnterFileSystem();
TopLevel = FatIsIrpTopLevel( Irp );
_SEH2_TRY {
IrpContext = FatCreateIrpContext( Irp, TRUE );
#if (NTDDI_VERSION >= NTDDI_WINTHRESHOLD)
Status = FatCommonCreateOnNewStack( IrpContext, Irp );
#else
Status = FatCommonCreate( IrpContext, Irp );
#endif
} _SEH2_EXCEPT(FatExceptionFilter( IrpContext, _SEH2_GetExceptionInformation() )) {
//
// We had some trouble trying to perform the requested
// operation, so we'll abort the I/O request with
// the error status that we get back from the
// execption code
//
Status = FatProcessException( IrpContext, Irp, _SEH2_GetExceptionCode() );
ExceptionCompletedIrp = TRUE;
} _SEH2_END;
if (TopLevel) { IoSetTopLevelIrp( NULL ); }
FsRtlExitFileSystem();
//
// Complete the request, unless we had an exception, in which case it
// was completed in FatProcessException (and the IrpContext freed).
//
// IrpContext is freed inside FatCompleteRequest.
//
if (!ExceptionCompletedIrp && Status != STATUS_PENDING) {
FatCompleteRequest( IrpContext, Irp, Status );
}
//
// And return to our caller
//
DebugTrace(-1, Dbg, "FatFsdCreate -> %08lx\n", Status );
TimerStop(Dbg,"FatFsdCreate");
UNREFERENCED_PARAMETER( VolumeDeviceObject );
return Status;
}
#if (NTDDI_VERSION >= NTDDI_WINTHRESHOLD)
_Requires_lock_held_(_Global_critical_region_)
VOID
FatCommonCreateCallout (
_In_ PFAT_CALLOUT_PARAMETERS CalloutParameters
)
/*++
Routine Description:
This function is the callout routine that will execute on a new stack when
processing a create. It simply calls FatCommonCreate() with the parameters
in the context and stores the return value in the context.
Arguments:
Context - Supplies an opaque pointer to this function's context. It is actually
an FAT_CALLOUT_PARAMETERS structure.
Return Value:
None.
--*/
{
PAGED_CODE();
//
// Call FatCommonCreate() with the passed parameters and store the result.
// Exceptions cannot be raised across stack boundaries, so we need to catch
// exceptions here and deal with them.
//
try {
CalloutParameters->IrpStatus = FatCommonCreate( CalloutParameters->Create.IrpContext,
CalloutParameters->Create.Irp );
} except (FatExceptionFilter( CalloutParameters->Create.IrpContext, GetExceptionInformation() )) {
//
// Return the resulting status.
//
CalloutParameters->ExceptionStatus = GetExceptionCode();
}
}
_Requires_lock_held_(_Global_critical_region_)
NTSTATUS
FatCommonCreateOnNewStack (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIRP Irp
)
/*++
Routine Description:
This routine sets up a switch to a new stack and call to FatCommonCreate().
Arguments:
IrpContext - Supplies the context structure for the overall request.
Irp - Supplies the IRP being processed.
CreateContext - Supplies a pointer on the old stack that is used to
store context information for the create itself.
Return Value:
NTSTATUS - The status from FatCommonCreate().
--*/
{
FAT_CALLOUT_PARAMETERS CalloutParameters;
NTSTATUS status;
PAGED_CODE();
//
// Create requests consume a lot of stack space. As such, we always switch to a
// new stack when processing a create. Setup the callout parameters and make the
// call. Note that this cannot fail, since we pass a stack context for a reserve stack.
//
CalloutParameters.Create.IrpContext = IrpContext;
CalloutParameters.Create.Irp = Irp;
CalloutParameters.ExceptionStatus = CalloutParameters.IrpStatus = STATUS_SUCCESS;
//
// Mark that we are swapping the stack
//
SetFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_SWAPPED_STACK );
status = KeExpandKernelStackAndCalloutEx( FatCommonCreateCallout,
&CalloutParameters,
KERNEL_STACK_SIZE,
FALSE,
NULL );
//
// Mark that the stack is no longer swapped. Note that there are paths
// that may clear this flag before returning.
//
if (status != STATUS_PENDING) {
ClearFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_SWAPPED_STACK );
}
//
// If we had an exception occur, re-raise the exception.
//
if (!NT_SUCCESS( CalloutParameters.ExceptionStatus )) {
FatRaiseStatus( IrpContext, CalloutParameters.ExceptionStatus );
}
//
// If the call to KeExpandKernelStackAndCalloutEx returns an error this
// means that the callout routine (FatCommonCreateCallout) was never
// called. Translate that error, and return it.
//
if (!NT_SUCCESS( status )) {
//
// Translate to an expected error value
//
if (status == STATUS_NO_MEMORY) {
status = STATUS_INSUFFICIENT_RESOURCES;
}
return status;
}
//
// Return the status given to us by the callout.
//
return CalloutParameters.IrpStatus;
}
#endif
_Requires_lock_held_(_Global_critical_region_)
NTSTATUS
FatCommonCreate (
_Inout_ PIRP_CONTEXT IrpContext,
_Inout_ PIRP Irp
)
/*++
Routine Description:
This is the common routine for creating/opening a file called by
both the fsd and fsp threads.
Arguments:
Irp - Supplies the Irp to process
Return Value:
NTSTATUS - the return status for the operation
--*/
{
NTSTATUS Status;
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
PIO_STACK_LOCATION IrpSp;
PFILE_OBJECT FileObject;
PFILE_OBJECT RelatedFileObject;
UNICODE_STRING FileName;
ULONG AllocationSize;
PFILE_FULL_EA_INFORMATION EaBuffer;
PACCESS_MASK DesiredAccess;
ULONG Options;
USHORT FileAttributes;
USHORT ShareAccess;
ULONG EaLength;
BOOLEAN CreateDirectory;
BOOLEAN NoIntermediateBuffering;
BOOLEAN OpenDirectory;
BOOLEAN IsPagingFile;
BOOLEAN OpenTargetDirectory;
BOOLEAN DirectoryFile;
BOOLEAN NonDirectoryFile;
BOOLEAN NoEaKnowledge;
BOOLEAN DeleteOnClose;
BOOLEAN OpenRequiringOplock;
BOOLEAN TemporaryFile;
BOOLEAN FileNameOpenedDos = FALSE;
ULONG CreateDisposition;
PVCB Vcb;
PFCB Fcb = NULL;
PCCB Ccb;
PDCB ParentDcb;
PDCB FinalDcb = NULL;
UNICODE_STRING FinalName = {0};
UNICODE_STRING RemainingPart;
UNICODE_STRING NextRemainingPart = {0};
UNICODE_STRING UpcasedFinalName;
WCHAR UpcasedBuffer[ FAT_CREATE_INITIAL_NAME_BUF_SIZE];
OEM_STRING OemFinalName;
UCHAR OemBuffer[ FAT_CREATE_INITIAL_NAME_BUF_SIZE*2];
PDIRENT Dirent;
PBCB DirentBcb = NULL;
ULONG LfnByteOffset;
ULONG DirentByteOffset;
BOOLEAN PostIrp = FALSE;
BOOLEAN OplockPostIrp = FALSE;
BOOLEAN TrailingBackslash;
BOOLEAN FirstLoop = TRUE;
ULONG MatchFlags = 0;
CCB LocalCcb;
UNICODE_STRING Lfn;
UNICODE_STRING OrigLfn = {0};
WCHAR LfnBuffer[ FAT_CREATE_INITIAL_NAME_BUF_SIZE];
PAGED_CODE();
//
// Get the current IRP stack location
//
IrpSp = IoGetCurrentIrpStackLocation( Irp );
DebugTrace(+1, Dbg, "FatCommonCreate\n", 0 );
DebugTrace( 0, Dbg, "Irp = %p\n", Irp );
DebugTrace( 0, Dbg, "->Flags = %08lx\n", Irp->Flags );
DebugTrace( 0, Dbg, "->FileObject = %p\n", IrpSp->FileObject );
DebugTrace( 0, Dbg, " ->RelatedFileObject = %p\n", IrpSp->FileObject->RelatedFileObject );
DebugTrace( 0, Dbg, " ->FileName = %wZ\n", &IrpSp->FileObject->FileName );
DebugTrace( 0, Dbg, " ->FileName.Length = 0n%d\n", IrpSp->FileObject->FileName.Length );
DebugTrace( 0, Dbg, "->AllocationSize.LowPart = %08lx\n", Irp->Overlay.AllocationSize.LowPart );
DebugTrace( 0, Dbg, "->AllocationSize.HighPart = %08lx\n", Irp->Overlay.AllocationSize.HighPart );
DebugTrace( 0, Dbg, "->SystemBuffer = %p\n", Irp->AssociatedIrp.SystemBuffer );
DebugTrace( 0, Dbg, "->DesiredAccess = %08lx\n", IrpSp->Parameters.Create.SecurityContext->DesiredAccess );
DebugTrace( 0, Dbg, "->Options = %08lx\n", IrpSp->Parameters.Create.Options );
DebugTrace( 0, Dbg, "->FileAttributes = %04x\n", IrpSp->Parameters.Create.FileAttributes );
DebugTrace( 0, Dbg, "->ShareAccess = %04x\n", IrpSp->Parameters.Create.ShareAccess );
DebugTrace( 0, Dbg, "->EaLength = %08lx\n", IrpSp->Parameters.Create.EaLength );
//
// This is here because the Win32 layer can't avoid sending me double
// beginning backslashes.
//
if ((IrpSp->FileObject->FileName.Length > sizeof(WCHAR)) &&
(IrpSp->FileObject->FileName.Buffer[1] == L'\\') &&
(IrpSp->FileObject->FileName.Buffer[0] == L'\\')) {
IrpSp->FileObject->FileName.Length -= sizeof(WCHAR);
RtlMoveMemory( &IrpSp->FileObject->FileName.Buffer[0],
&IrpSp->FileObject->FileName.Buffer[1],
IrpSp->FileObject->FileName.Length );
//
// If there are still two beginning backslashes, the name is bogus.
//
if ((IrpSp->FileObject->FileName.Length > sizeof(WCHAR)) &&
(IrpSp->FileObject->FileName.Buffer[1] == L'\\') &&
(IrpSp->FileObject->FileName.Buffer[0] == L'\\')) {
DebugTrace(-1, Dbg, "FatCommonCreate -> STATUS_OBJECT_NAME_INVALID\n", 0);
return STATUS_OBJECT_NAME_INVALID;
}
}
//
// Reference our input parameters to make things easier
//
NT_ASSERT( IrpSp->Parameters.Create.SecurityContext != NULL );
FileObject = IrpSp->FileObject;
FileName = FileObject->FileName;
RelatedFileObject = FileObject->RelatedFileObject;
AllocationSize = Irp->Overlay.AllocationSize.LowPart;
EaBuffer = Irp->AssociatedIrp.SystemBuffer;
DesiredAccess = &IrpSp->Parameters.Create.SecurityContext->DesiredAccess;
Options = IrpSp->Parameters.Create.Options;
FileAttributes = IrpSp->Parameters.Create.FileAttributes & ~FILE_ATTRIBUTE_NORMAL;
ShareAccess = IrpSp->Parameters.Create.ShareAccess;
EaLength = IrpSp->Parameters.Create.EaLength;
//
// Set up the file object's Vpb pointer in case anything happens.
// This will allow us to get a reasonable pop-up.
//
if ( RelatedFileObject != NULL ) {
FileObject->Vpb = RelatedFileObject->Vpb;
}
//
// Force setting the archive bit in the attributes byte to follow OS/2,
// & DOS semantics. Also mask out any extraneous bits, note that
// we can't use the ATTRIBUTE_VALID_FLAGS constant because that has
// the control and normal flags set.
//
// Delay setting ARCHIVE in case this is a directory: 2/16/95
//
FileAttributes &= (FILE_ATTRIBUTE_READONLY |
FILE_ATTRIBUTE_HIDDEN |
FILE_ATTRIBUTE_SYSTEM |
FILE_ATTRIBUTE_ARCHIVE |
FILE_ATTRIBUTE_ENCRYPTED);
//
// Locate the volume device object and Vcb that we are trying to access
//
Vcb = &((PVOLUME_DEVICE_OBJECT)IrpSp->DeviceObject)->Vcb;
//
// Decipher Option flags and values
//
//
// If this is an open by fileid operation, just fail it explicitly. FAT's
// source of fileids is not reversible for open operations.
//
if (BooleanFlagOn( Options, FILE_OPEN_BY_FILE_ID )) {
return STATUS_NOT_IMPLEMENTED;
}
DirectoryFile = BooleanFlagOn( Options, FILE_DIRECTORY_FILE );
NonDirectoryFile = BooleanFlagOn( Options, FILE_NON_DIRECTORY_FILE );
NoIntermediateBuffering = BooleanFlagOn( Options, FILE_NO_INTERMEDIATE_BUFFERING );
NoEaKnowledge = BooleanFlagOn( Options, FILE_NO_EA_KNOWLEDGE );
DeleteOnClose = BooleanFlagOn( Options, FILE_DELETE_ON_CLOSE );
#if (NTDDI_VERSION >= NTDDI_WIN7)
OpenRequiringOplock = BooleanFlagOn( Options, FILE_OPEN_REQUIRING_OPLOCK );
#else
OpenRequiringOplock = FALSE;
#endif
TemporaryFile = BooleanFlagOn( IrpSp->Parameters.Create.FileAttributes,
FILE_ATTRIBUTE_TEMPORARY );
CreateDisposition = (Options >> 24) & 0x000000ff;
IsPagingFile = BooleanFlagOn( IrpSp->Flags, SL_OPEN_PAGING_FILE );
OpenTargetDirectory = BooleanFlagOn( IrpSp->Flags, SL_OPEN_TARGET_DIRECTORY );
CreateDirectory = (BOOLEAN)(DirectoryFile &&
((CreateDisposition == FILE_CREATE) ||
(CreateDisposition == FILE_OPEN_IF)));
OpenDirectory = (BOOLEAN)(DirectoryFile &&
((CreateDisposition == FILE_OPEN) ||
(CreateDisposition == FILE_OPEN_IF)));
//
// Make sure the input large integer is valid and that the dir/nondir
// indicates a storage type we understand.
//
if (Irp->Overlay.AllocationSize.HighPart != 0 ||
(DirectoryFile && NonDirectoryFile)) {
DebugTrace(-1, Dbg, "FatCommonCreate -> STATUS_INVALID_PARAMETER\n", 0);
return STATUS_INVALID_PARAMETER;
}
//
// Acquire exclusive access to the vcb, and enqueue the Irp if
// we didn't get it.
//
if (!FatAcquireExclusiveVcb( IrpContext, Vcb )) {
DebugTrace(0, Dbg, "Cannot acquire Vcb\n", 0);
Iosb.Status = FatFsdPostRequest( IrpContext, Irp );
DebugTrace(-1, Dbg, "FatCommonCreate -> %08lx\n", Iosb.Status );
return Iosb.Status;
}
//
// Make sure we haven't been called recursively by a filter inside an existing
// create request.
//
if (FlagOn( Vcb->VcbState, VCB_STATE_FLAG_CREATE_IN_PROGRESS)) {
#ifdef _MSC_VER
#pragma prefast( suppress:28159, "this is a serious programming error if it happens" )
#endif
FatBugCheck( 0, 0, 0);
}
//
// Initialize the DirentBcb to null
//
DirentBcb = NULL;
//
// Initialize our temp strings with their stack buffers.
//
OemFinalName.Length = 0;
OemFinalName.MaximumLength = sizeof( OemBuffer);
OemFinalName.Buffer = (PCHAR)OemBuffer;
UpcasedFinalName.Length = 0;
UpcasedFinalName.MaximumLength = sizeof( UpcasedBuffer);
UpcasedFinalName.Buffer = UpcasedBuffer;
Lfn.Length = 0;
Lfn.MaximumLength = sizeof( LfnBuffer);
Lfn.Buffer = LfnBuffer;
_SEH2_TRY {
//
// Make sure the vcb is in a usable condition. This will raise
// and error condition if the volume is unusable
//
FatVerifyVcb( IrpContext, Vcb );
//
// If the Vcb is locked then we cannot open another file
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_LOCKED)) {
DebugTrace(0, Dbg, "Volume is locked\n", 0);
Status = STATUS_ACCESS_DENIED;
if (Vcb->VcbCondition != VcbGood) {
Status = STATUS_VOLUME_DISMOUNTED;
}
try_return( Iosb.Status = Status );
}
//
// Don't allow the DELETE_ON_CLOSE option if the volume is
// write-protected.
//
if (DeleteOnClose && FlagOn(Vcb->VcbState, VCB_STATE_FLAG_WRITE_PROTECTED)) {
//
// Set the real device for the pop-up info, and set the verify
// bit in the device object, so that we will force a verify
// in case the user put the correct media back in.
//
IoSetHardErrorOrVerifyDevice( IrpContext->OriginatingIrp,
Vcb->Vpb->RealDevice );
SetFlag(Vcb->Vpb->RealDevice->Flags, DO_VERIFY_VOLUME);
FatRaiseStatus( IrpContext, STATUS_MEDIA_WRITE_PROTECTED );
}
//
// If this is a fat32 volume, EA's are not supported.
//
if (EaBuffer != NULL) {
try_return( Iosb.Status = STATUS_EAS_NOT_SUPPORTED );
}
//
// Check if we are opening the volume and not a file/directory.
// We are opening the volume if the name is empty and there
// isn't a related file object. If there is a related file object
// then it is the Vcb itself.
//
if (FileName.Length == 0) {
PVCB DecodeVcb = NULL;
if (RelatedFileObject == NULL ||
FatDecodeFileObject( RelatedFileObject,
&DecodeVcb,
&Fcb,
&Ccb ) == UserVolumeOpen) {
NT_ASSERT( RelatedFileObject == NULL || Vcb == DecodeVcb );
//
// Check if we were to open a directory
//
if (DirectoryFile) {
DebugTrace(0, Dbg, "Cannot open volume as a directory\n", 0);
try_return( Iosb.Status = STATUS_NOT_A_DIRECTORY );
}
//
// Can't open the TargetDirectory of the DASD volume.
//
if (OpenTargetDirectory) {
try_return( Iosb.Status = STATUS_INVALID_PARAMETER );
}
DebugTrace(0, Dbg, "Opening the volume, Vcb = %p\n", Vcb);
CollectCreateHitStatistics(Vcb);
Iosb = FatOpenVolume( IrpContext,
FileObject,
Vcb,
DesiredAccess,
ShareAccess,
CreateDisposition );
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
}
//
// If there is a related file object then this is a relative open.
// The related file object is the directory to start our search at.
// Return an error if it is not a directory.
//
if (RelatedFileObject != NULL) {
PVCB RelatedVcb;
PDCB RelatedDcb;
PCCB RelatedCcb;
TYPE_OF_OPEN TypeOfOpen;
TypeOfOpen = FatDecodeFileObject( RelatedFileObject,
&RelatedVcb,
&RelatedDcb,
&RelatedCcb );
if (TypeOfOpen != UserFileOpen &&
TypeOfOpen != UserDirectoryOpen) {
DebugTrace(0, Dbg, "Invalid related file object\n", 0);
try_return( Iosb.Status = STATUS_OBJECT_PATH_NOT_FOUND );
}
//
// A relative open must be via a relative path.
//
if (FileName.Length != 0 &&
FileName.Buffer[0] == L'\\') {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
//
// Set up the file object's Vpb pointer in case anything happens.
//
NT_ASSERT( Vcb == RelatedVcb );
FileObject->Vpb = RelatedFileObject->Vpb;
//
// Now verify the related Fcb so we don't get in trouble later
// by assuming its in good shape.
//
FatVerifyFcb( IrpContext, RelatedDcb );
ParentDcb = RelatedDcb;
} else {
//
// This is not a relative open, so check if we're
// opening the root dcb
//
if ((FileName.Length == sizeof(WCHAR)) &&
(FileName.Buffer[0] == L'\\')) {
//
// Check if we were not supposed to open a directory
//
if (NonDirectoryFile) {
DebugTrace(0, Dbg, "Cannot open root directory as a file\n", 0);
try_return( Iosb.Status = STATUS_FILE_IS_A_DIRECTORY );
}
//
// Can't open the TargetDirectory of the root directory.
//
if (OpenTargetDirectory) {
try_return( Iosb.Status = STATUS_INVALID_PARAMETER );
}
//
// Not allowed to delete root directory.
//
if (DeleteOnClose) {
try_return( Iosb.Status = STATUS_CANNOT_DELETE );
}
DebugTrace(0, Dbg, "Opening root dcb\n", 0);
CollectCreateHitStatistics(Vcb);
Iosb = FatOpenRootDcb( IrpContext,
FileObject,
Vcb,
DesiredAccess,
ShareAccess,
CreateDisposition );
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
//
// Nope, we will be opening relative to the root directory.
//
ParentDcb = Vcb->RootDcb;
//
// Now verify the root Dcb so we don't get in trouble later
// by assuming its in good shape.
//
FatVerifyFcb( IrpContext, ParentDcb );
}
//
// FatCommonCreate(): trailing backslash check
//
if ((FileName.Length != 0) &&
(FileName.Buffer[FileName.Length/sizeof(WCHAR)-1] == L'\\')) {
FileName.Length -= sizeof(WCHAR);
TrailingBackslash = TRUE;
} else {
TrailingBackslash = FALSE;
}
//
// Check for max path. We might want to tighten this down to DOS MAX_PATH
// for maximal interchange with non-NT platforms, but for now defer to the
// possibility of something depending on it.
//
if (ParentDcb->FullFileName.Buffer == NULL) {
FatSetFullFileNameInFcb( IrpContext, ParentDcb );
}
if ((USHORT) (ParentDcb->FullFileName.Length + sizeof(WCHAR) + FileName.Length) <= FileName.Length) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
//
// We loop here until we land on an Fcb that is in a good
// condition. This way we can reopen files that have stale handles
// to files of the same name but are now different.
//
while ( TRUE ) {
Fcb = ParentDcb;
RemainingPart = FileName;
//
// Now walk down the Dcb tree looking for the longest prefix.
// This one exit condition in the while() is to handle a
// special case condition (relative NULL name open), the main
// exit conditions are at the bottom of the loop.
//
while (RemainingPart.Length != 0) {
PFCB NextFcb;
FsRtlDissectName( RemainingPart,
&FinalName,
&NextRemainingPart );
//
// If RemainingPart starts with a backslash the name is
// invalid.
// Check for no more than 255 characters in FinalName
//
if (((NextRemainingPart.Length != 0) && (NextRemainingPart.Buffer[0] == L'\\')) ||
(FinalName.Length > 255*sizeof(WCHAR))) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
//
// Now, try to convert this one component into Oem and search
// the splay tree. If it works then that's great, otherwise
// we have to try with the UNICODE name instead.
//
FatEnsureStringBufferEnough( &OemFinalName,
FinalName.Length);
Status = RtlUpcaseUnicodeStringToCountedOemString( &OemFinalName, &FinalName, FALSE );
if (NT_SUCCESS(Status)) {
NextFcb = FatFindFcb( IrpContext,
&Fcb->Specific.Dcb.RootOemNode,
(PSTRING)&OemFinalName,
&FileNameOpenedDos );
} else {
NextFcb = NULL;
OemFinalName.Length = 0;
if (Status != STATUS_UNMAPPABLE_CHARACTER) {
try_return( Iosb.Status = Status );
}
}
//
// If we didn't find anything searching the Oem space, we
// have to try the Unicode space. To save cycles in the
// common case that this tree is empty, we do a quick check
// here.
//
if ((NextFcb == NULL) && Fcb->Specific.Dcb.RootUnicodeNode) {
//
// First downcase, then upcase the string, because this
// is what happens when putting names into the tree (see
// strucsup.c, FatConstructNamesInFcb()).
//
FatEnsureStringBufferEnough( &UpcasedFinalName,
FinalName.Length);
Status = RtlDowncaseUnicodeString(&UpcasedFinalName, &FinalName, FALSE );
NT_ASSERT( NT_SUCCESS( Status ));
Status = RtlUpcaseUnicodeString( &UpcasedFinalName, &UpcasedFinalName, FALSE );
NT_ASSERT( NT_SUCCESS( Status ));
NextFcb = FatFindFcb( IrpContext,
&Fcb->Specific.Dcb.RootUnicodeNode,
(PSTRING)&UpcasedFinalName,
&FileNameOpenedDos );
}
//
// If we got back an Fcb then we consumed the FinalName
// legitimately, so the remaining name is now RemainingPart.
//
if (NextFcb != NULL) {
Fcb = NextFcb;
RemainingPart = NextRemainingPart;
}
if ((NextFcb == NULL) ||
(NodeType(NextFcb) == FAT_NTC_FCB) ||
(NextRemainingPart.Length == 0)) {
break;
}
}
//
// Remaining name cannot start with a backslash
//
if (RemainingPart.Length && (RemainingPart.Buffer[0] == L'\\')) {
RemainingPart.Length -= sizeof(WCHAR);
RemainingPart.Buffer += 1;
}
//
// Now verify that everybody up to the longest found prefix is valid.
//
_SEH2_TRY {
FatVerifyFcb( IrpContext, Fcb );
} _SEH2_EXCEPT( (_SEH2_GetExceptionCode() == STATUS_FILE_INVALID) ?
EXCEPTION_EXECUTE_HANDLER :
EXCEPTION_CONTINUE_SEARCH ) {
FatResetExceptionState( IrpContext );
} _SEH2_END;
if ( Fcb->FcbCondition == FcbGood ) {
//
// If we are trying to open a paging file and have happened
// upon the DelayedCloseFcb, make it go away, and try again.
//
if (IsPagingFile && FirstLoop &&
(NodeType(Fcb) == FAT_NTC_FCB) &&
(!IsListEmpty( &FatData.AsyncCloseList ) ||
!IsListEmpty( &FatData.DelayedCloseList ))) {
FatFspClose(Vcb);
FirstLoop = FALSE;
continue;
} else {
break;
}
} else {
FatRemoveNames( IrpContext, Fcb );
}
}
NT_ASSERT( Fcb->FcbCondition == FcbGood );
//
// If there is already an Fcb for a paging file open and
// it was not already opened as a paging file, we cannot
// continue as it is too difficult to move a live Fcb to
// non-paged pool.
//
if (IsPagingFile) {
if (NodeType(Fcb) == FAT_NTC_FCB &&
!FlagOn( Fcb->FcbState, FCB_STATE_PAGING_FILE )) {
try_return( Iosb.Status = STATUS_SHARING_VIOLATION );
}
//
// Check for a system file.
//
} else if (FlagOn( Fcb->FcbState, FCB_STATE_SYSTEM_FILE )) {
try_return( Iosb.Status = STATUS_ACCESS_DENIED );
}
//
// If the longest prefix is pending delete (either the file or
// some higher level directory), we cannot continue.
//
if (FlagOn( Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE )) {
try_return( Iosb.Status = STATUS_DELETE_PENDING );
}
//
// Now that we've found the longest matching prefix we'll
// check if there isn't any remaining part because that means
// we've located an existing fcb/dcb to open and we can do the open
// without going to the disk
//
if (RemainingPart.Length == 0) {
//
// First check if the user wanted to open the target directory
// and if so then call the subroutine to finish the open.
//
if (OpenTargetDirectory) {
CollectCreateHitStatistics(Vcb);
Iosb = FatOpenTargetDirectory( IrpContext,
FileObject,
Fcb->ParentDcb,
DesiredAccess,
ShareAccess,
TRUE,
FileNameOpenedDos );
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
//
// We can open an existing fcb/dcb, now we only need to case
// on which type to open.
//
if (NodeType(Fcb) == FAT_NTC_DCB || NodeType(Fcb) == FAT_NTC_ROOT_DCB) {
//
// This is a directory we're opening up so check if
// we were not to open a directory
//
if (NonDirectoryFile) {
DebugTrace(0, Dbg, "Cannot open directory as a file\n", 0);
try_return( Iosb.Status = STATUS_FILE_IS_A_DIRECTORY );
}
DebugTrace(0, Dbg, "Open existing dcb, Dcb = %p\n", Fcb);
CollectCreateHitStatistics(Vcb);
Iosb = FatOpenExistingDcb( IrpContext,
IrpSp,
FileObject,
Vcb,
(PDCB)Fcb,
DesiredAccess,
ShareAccess,
CreateDisposition,
NoEaKnowledge,
DeleteOnClose,
OpenRequiringOplock,
FileNameOpenedDos,
&OplockPostIrp );
if (Iosb.Status != STATUS_PENDING) {
Irp->IoStatus.Information = Iosb.Information;
} else {
DebugTrace(0, Dbg, "Enqueue Irp to FSP\n", 0);
PostIrp = TRUE;
}
try_return( Iosb.Status );
}
//
// Check if we're trying to open an existing Fcb and that
// the user didn't want to open a directory. Note that this
// call might actually come back with status_pending because
// the user wanted to supersede or overwrite the file and we
// cannot block. If it is pending then we do not complete the
// request, and we fall through the bottom to the code that
// dispatches the request to the fsp.
//
if (NodeType(Fcb) == FAT_NTC_FCB) {
//
// Check if we were only to open a directory
//
if (OpenDirectory) {
DebugTrace(0, Dbg, "Cannot open file as directory\n", 0);
try_return( Iosb.Status = STATUS_NOT_A_DIRECTORY );
}
DebugTrace(0, Dbg, "Open existing fcb, Fcb = %p\n", Fcb);
if ( TrailingBackslash ) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
CollectCreateHitStatistics(Vcb);
Iosb = FatOpenExistingFcb( IrpContext,
IrpSp,
FileObject,
Vcb,
Fcb,
DesiredAccess,
ShareAccess,
AllocationSize,
EaBuffer,
EaLength,
FileAttributes,
CreateDisposition,
NoEaKnowledge,
DeleteOnClose,
OpenRequiringOplock,
FileNameOpenedDos,
&OplockPostIrp );
if (Iosb.Status != STATUS_PENDING) {
//
// Check if we need to set the cache support flag in
// the file object
//
if (NT_SUCCESS( Iosb.Status) && !NoIntermediateBuffering) {
FileObject->Flags |= FO_CACHE_SUPPORTED;
}
Irp->IoStatus.Information = Iosb.Information;
} else {
DebugTrace(0, Dbg, "Enqueue Irp to FSP\n", 0);
PostIrp = TRUE;
}
try_return( Iosb.Status );
}
//
// Not and Fcb or a Dcb so we bug check
//
#ifdef _MSC_VER
#pragma prefast( suppress:28159, "this is a serious corruption if it happens" )
#endif
FatBugCheck( NodeType(Fcb), (ULONG_PTR) Fcb, 0 );
}
//
// There is more in the name to parse than we have in existing
// fcbs/dcbs. So now make sure that fcb we got for the largest
// matching prefix is really a dcb otherwise we can't go any
// further
//
if ((NodeType(Fcb) != FAT_NTC_DCB) && (NodeType(Fcb) != FAT_NTC_ROOT_DCB)) {
DebugTrace(0, Dbg, "Cannot open file as subdirectory, Fcb = %p\n", Fcb);
try_return( Iosb.Status = STATUS_OBJECT_PATH_NOT_FOUND );
}
//
// Otherwise we continue on processing the Irp and allowing ourselves
// to block for I/O as necessary. Find/create additional dcb's for
// the one we're trying to open. We loop until either remaining part
// is empty or we get a bad filename. When we exit FinalName is
// the last name in the string we're after, and ParentDcb is the
// parent directory that will contain the opened/created
// file/directory.
//
// Make sure the rest of the name is valid in at least the LFN
// character set (which just happens to be that of HPFS).
//
// If we are not in ChicagoMode, use FAT semantics.
//
ParentDcb = Fcb;
FirstLoop = TRUE;
while (TRUE) {
//
// We do one little optimization here on the first iteration of
// the loop since we know that we have already tried to convert
// FinalOemName from the original UNICODE.
//
if (FirstLoop) {
FirstLoop = FALSE;
RemainingPart = NextRemainingPart;
Status = OemFinalName.Length ? STATUS_SUCCESS : STATUS_UNMAPPABLE_CHARACTER;
} else {
//
// Dissect the remaining part.
//
DebugTrace(0, Dbg, "Dissecting the name %wZ\n", &RemainingPart);
FsRtlDissectName( RemainingPart,
&FinalName,
&RemainingPart );
//
// If RemainingPart starts with a backslash the name is
// invalid.
// Check for no more than 255 characters in FinalName
//
if (((RemainingPart.Length != 0) && (RemainingPart.Buffer[0] == L'\\')) ||
(FinalName.Length > 255*sizeof(WCHAR))) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
//
// Now, try to convert this one component into Oem. If it works
// then that's great, otherwise we have to try with the UNICODE
// name instead.
//
FatEnsureStringBufferEnough( &OemFinalName,
FinalName.Length);
Status = RtlUpcaseUnicodeStringToCountedOemString( &OemFinalName, &FinalName, FALSE );
}
if (NT_SUCCESS(Status)) {
//
// We'll start by trying to locate the dirent for the name. Note
// that we already know that there isn't an Fcb/Dcb for the file
// otherwise we would have found it when we did our prefix lookup.
//
if (FatIsNameShortOemValid( IrpContext, OemFinalName, FALSE, FALSE, FALSE )) {
FatStringTo8dot3( IrpContext,
OemFinalName,
&LocalCcb.OemQueryTemplate.Constant );
LocalCcb.Flags = 0;
} else {
LocalCcb.Flags = CCB_FLAG_SKIP_SHORT_NAME_COMPARE;
}
} else {
LocalCcb.Flags = CCB_FLAG_SKIP_SHORT_NAME_COMPARE;
if (Status != STATUS_UNMAPPABLE_CHARACTER) {
try_return( Iosb.Status = Status );
}
}
//
// Now we know a lot about the final name, so do legal name
// checking here.
//
if (FatData.ChicagoMode) {
if (!FatIsNameLongUnicodeValid( IrpContext, &FinalName, FALSE, FALSE, FALSE )) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
} else {
if (FlagOn(LocalCcb.Flags, CCB_FLAG_SKIP_SHORT_NAME_COMPARE)) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
}
DebugTrace(0, Dbg, "FinalName is %wZ\n", &FinalName);
DebugTrace(0, Dbg, "RemainingPart is %wZ\n", &RemainingPart);
FatEnsureStringBufferEnough( &UpcasedFinalName,
FinalName.Length);
if (!NT_SUCCESS(Status = RtlUpcaseUnicodeString( &UpcasedFinalName, &FinalName, FALSE))) {
try_return( Iosb.Status = Status );
}
LocalCcb.UnicodeQueryTemplate = UpcasedFinalName;
LocalCcb.ContainsWildCards = FALSE;
Lfn.Length = 0;
FatLocateDirent( IrpContext,
ParentDcb,
&LocalCcb,
0,
&MatchFlags,
&Dirent,
&DirentBcb,
(PVBO)&DirentByteOffset,
&FileNameOpenedDos,
&Lfn,
&OrigLfn);
//
// Remember we read this Dcb for error recovery.
//
FinalDcb = ParentDcb;
//
// If the remaining part is now empty then this is the last name
// in the string and the one we want to open
//
if (RemainingPart.Length == 0) {
break;
}
//
// We didn't find a dirent, bail.
//
if (Dirent == NULL) {
Iosb.Status = STATUS_OBJECT_PATH_NOT_FOUND;
try_return( Iosb.Status );
}
//
// We now have a dirent, make sure it is a directory
//
if (!FlagOn( Dirent->Attributes, FAT_DIRENT_ATTR_DIRECTORY )) {
Iosb.Status = STATUS_OBJECT_PATH_NOT_FOUND;
try_return( Iosb.Status );
}
//
// Compute the LfnByteOffset.
//
LfnByteOffset = DirentByteOffset -
FAT_LFN_DIRENTS_NEEDED(&OrigLfn) * sizeof(LFN_DIRENT);
//
// Create a dcb for the new directory
//
ParentDcb = FatCreateDcb( IrpContext,
Vcb,
ParentDcb,
LfnByteOffset,
DirentByteOffset,
Dirent,
&Lfn );
//
// Remember we created this Dcb for error recovery.
//
FinalDcb = ParentDcb;
FatSetFullNameInFcb( IrpContext, ParentDcb, &FinalName );
}
//
// First check if the user wanted to open the target directory
// and if so then call the subroutine to finish the open.
//
if (OpenTargetDirectory) {
Iosb = FatOpenTargetDirectory( IrpContext,
FileObject,
ParentDcb,
DesiredAccess,
ShareAccess,
Dirent ? TRUE : FALSE,
FileNameOpenedDos);
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
if (Dirent != NULL) {
//
// Compute the LfnByteOffset.
//
LfnByteOffset = DirentByteOffset -
FAT_LFN_DIRENTS_NEEDED(&OrigLfn) * sizeof(LFN_DIRENT);
//
// We were able to locate an existing dirent entry, so now
// see if it is a directory that we're trying to open.
//
if (FlagOn( Dirent->Attributes, FAT_DIRENT_ATTR_DIRECTORY )) {
//
// Make sure its okay to open a directory
//
if (NonDirectoryFile) {
DebugTrace(0, Dbg, "Cannot open directory as a file\n", 0);
try_return( Iosb.Status = STATUS_FILE_IS_A_DIRECTORY );
}
DebugTrace(0, Dbg, "Open existing directory\n", 0);
Iosb = FatOpenExistingDirectory( IrpContext,
IrpSp,
FileObject,
Vcb,
&Fcb,
ParentDcb,
Dirent,
LfnByteOffset,
DirentByteOffset,
&Lfn,
DesiredAccess,
ShareAccess,
CreateDisposition,
NoEaKnowledge,
DeleteOnClose,
FileNameOpenedDos,
OpenRequiringOplock );
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
//
// Otherwise we're trying to open and existing file, and we
// need to check if the user only wanted to open a directory.
//
if (OpenDirectory) {
DebugTrace(0, Dbg, "Cannot open file as directory\n", 0);
try_return( Iosb.Status = STATUS_NOT_A_DIRECTORY );
}
DebugTrace(0, Dbg, "Open existing file\n", 0);
if ( TrailingBackslash ) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
Iosb = FatOpenExistingFile( IrpContext,
FileObject,
Vcb,
&Fcb,
ParentDcb,
Dirent,
LfnByteOffset,
DirentByteOffset,
&Lfn,
&OrigLfn,
DesiredAccess,
ShareAccess,
AllocationSize,
EaBuffer,
EaLength,
FileAttributes,
CreateDisposition,
IsPagingFile,
NoEaKnowledge,
DeleteOnClose,
OpenRequiringOplock,
FileNameOpenedDos );
//
// Check if we need to set the cache support flag in
// the file object
//
if (NT_SUCCESS(Iosb.Status) && !NoIntermediateBuffering) {
FileObject->Flags |= FO_CACHE_SUPPORTED;
}
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
//
// We can't locate a dirent so this is a new file.
//
//
// Now check to see if we wanted to only open an existing file.
// And then case on whether we wanted to create a file or a directory.
//
if ((CreateDisposition == FILE_OPEN) ||
(CreateDisposition == FILE_OVERWRITE)) {
DebugTrace( 0, Dbg, "Cannot open nonexisting file\n", 0);
try_return( Iosb.Status = STATUS_OBJECT_NAME_NOT_FOUND );
}
//
// Skip a few cycles later if we know now that the Oem name is not
// valid 8.3.
//
if (FlagOn(LocalCcb.Flags, CCB_FLAG_SKIP_SHORT_NAME_COMPARE)) {
OemFinalName.Length = 0;
}
//
// Determine the granted access for this operation now.
//
if (!NT_SUCCESS( Iosb.Status = FatCheckSystemSecurityAccess( IrpContext ))) {
try_return( Iosb );
}
if (CreateDirectory) {
DebugTrace(0, Dbg, "Create new directory\n", 0);
//
// If this media is write protected, don't even try the create.
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_WRITE_PROTECTED)) {
//
// Set the real device for the pop-up info, and set the verify
// bit in the device object, so that we will force a verify
// in case the user put the correct media back in.
//
IoSetHardErrorOrVerifyDevice( IrpContext->OriginatingIrp,
Vcb->Vpb->RealDevice );
SetFlag(Vcb->Vpb->RealDevice->Flags, DO_VERIFY_VOLUME);
FatRaiseStatus( IrpContext, STATUS_MEDIA_WRITE_PROTECTED );
}
//
// Don't allow people to create directories with the
// temporary bit set.
//
if (TemporaryFile) {
try_return( Iosb.Status = STATUS_INVALID_PARAMETER );
}
Iosb = FatCreateNewDirectory( IrpContext,
IrpSp,
FileObject,
Vcb,
ParentDcb,
&OemFinalName,
&FinalName,
DesiredAccess,
ShareAccess,
EaBuffer,
EaLength,
FileAttributes,
NoEaKnowledge,
DeleteOnClose,
OpenRequiringOplock );
Irp->IoStatus.Information = Iosb.Information;
try_return( Iosb.Status );
}
DebugTrace(0, Dbg, "Create new file\n", 0);
if ( TrailingBackslash ) {
try_return( Iosb.Status = STATUS_OBJECT_NAME_INVALID );
}
//
// If this media is write protected, don't even try the create.
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_WRITE_PROTECTED)) {
//
// Set the real device for the pop-up info, and set the verify
// bit in the device object, so that we will force a verify
// in case the user put the correct media back in.
//
IoSetHardErrorOrVerifyDevice( IrpContext->OriginatingIrp,
Vcb->Vpb->RealDevice );
SetFlag(Vcb->Vpb->RealDevice->Flags, DO_VERIFY_VOLUME);
FatRaiseStatus( IrpContext, STATUS_MEDIA_WRITE_PROTECTED );
}
Iosb = FatCreateNewFile( IrpContext,
IrpSp,
FileObject,
Vcb,
ParentDcb,
&OemFinalName,
&FinalName,
DesiredAccess,
ShareAccess,
AllocationSize,
EaBuffer,
EaLength,
FileAttributes,
&Lfn,
IsPagingFile,
NoEaKnowledge,
DeleteOnClose,
OpenRequiringOplock,
TemporaryFile );
//
// Check if we need to set the cache support flag in
// the file object
//
if (NT_SUCCESS(Iosb.Status) && !NoIntermediateBuffering) {
FileObject->Flags |= FO_CACHE_SUPPORTED;
}
Irp->IoStatus.Information = Iosb.Information;
try_exit: NOTHING;
//
// This is a Beta Fix. Do this at a better place later.
//
if (NT_SUCCESS(Iosb.Status) && !OpenTargetDirectory) {
PFCB LocalFcb;
//
// If there is an Fcb/Dcb, set the long file name.
//
LocalFcb = FileObject->FsContext;
if (LocalFcb &&
((NodeType(LocalFcb) == FAT_NTC_FCB) ||
(NodeType(LocalFcb) == FAT_NTC_DCB)) &&
(LocalFcb->FullFileName.Buffer == NULL)) {
FatSetFullNameInFcb( IrpContext, LocalFcb, &FinalName );
}
}
} _SEH2_FINALLY {
DebugUnwind( FatCommonCreate );
#if (NTDDI_VERSION >= NTDDI_WIN7)
//
// If we're not getting out with success, and if the caller wanted
// atomic create-with-oplock semantics make sure we back out any
// oplock that may have been granted.
//
if ((AbnormalTermination() ||
!NT_SUCCESS( Iosb.Status )) &&
OpenRequiringOplock &&
(Iosb.Status != STATUS_CANNOT_BREAK_OPLOCK) &&
(IrpContext->ExceptionStatus != STATUS_CANNOT_BREAK_OPLOCK) &&
(Fcb != NULL) &&
FatIsFileOplockable( Fcb )) {
FsRtlCheckOplockEx( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_BACK_OUT_ATOMIC_OPLOCK,
NULL,
NULL,
NULL );
}
#endif
//
// There used to be a test here - the ASSERT replaces it. We will
// never have begun enumerating directories if we post the IRP for
// oplock reasons.
//
NT_ASSERT( !OplockPostIrp || DirentBcb == NULL );
FatUnpinBcb( IrpContext, DirentBcb );
//
// If we are in an error path, check for any created subdir Dcbs that
// have to be unwound. Don't whack the root directory.
//
// Note this will leave a branch of Dcbs dangling if the directory file
// had not been built on the leaf (case: opening path which has an
// element containing an invalid character name).
//
if (_SEH2_AbnormalTermination() || !NT_SUCCESS(Iosb.Status)) {
ULONG SavedFlags;
//
// Before doing the uninitialize, we have to unpin anything
// that has been repinned, but disable writethrough first. We
// disable raise from unpin-repin since we're already failing.
//
SavedFlags = IrpContext->Flags;
SetFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_DISABLE_RAISE |
IRP_CONTEXT_FLAG_DISABLE_WRITE_THROUGH );
FatUnpinRepinnedBcbs( IrpContext );
if ((FinalDcb != NULL) &&
(NodeType(FinalDcb) == FAT_NTC_DCB) &&
IsListEmpty(&FinalDcb->Specific.Dcb.ParentDcbQueue) &&
(FinalDcb->OpenCount == 0) &&
(FinalDcb->Specific.Dcb.DirectoryFile != NULL)) {
PFILE_OBJECT DirectoryFileObject;
DirectoryFileObject = FinalDcb->Specific.Dcb.DirectoryFile;
FinalDcb->Specific.Dcb.DirectoryFile = NULL;
CcUninitializeCacheMap( DirectoryFileObject, NULL, NULL );
ObDereferenceObject( DirectoryFileObject );
}
IrpContext->Flags = SavedFlags;
}
if (_SEH2_AbnormalTermination()) {
FatReleaseVcb( IrpContext, Vcb );
}
//
// Free up any string buffers we allocated
//
FatFreeStringBuffer( &OemFinalName);
FatFreeStringBuffer( &UpcasedFinalName);
FatFreeStringBuffer( &Lfn);
} _SEH2_END;
//
// The following code is only executed if we are exiting the
// procedure through a normal termination. We complete the request
// and if for any reason that bombs out then we need to unreference
// and possibly delete the fcb and ccb.
//
_SEH2_TRY {
if (PostIrp) {
//
// If the Irp hasn't already been posted, do it now.
//
if (!OplockPostIrp) {
Iosb.Status = FatFsdPostRequest( IrpContext, Irp );
}
} else {
FatUnpinRepinnedBcbs( IrpContext );
}
} _SEH2_FINALLY {
DebugUnwind( FatCommonCreate-in-FatCompleteRequest );
if (_SEH2_AbnormalTermination() ) {
PVCB LocalVcb;
PFCB LocalFcb;
PCCB LocalCcb2;
PFILE_OBJECT DirectoryFileObject;
//
// Unwind all of our counts. Note that if a write failed, then
// the volume has been marked for verify, and all volume
// structures will be cleaned up automatically.
//
(VOID) FatDecodeFileObject( FileObject, &LocalVcb, &LocalFcb, &LocalCcb2 );
LocalFcb->UncleanCount -= 1;
LocalFcb->OpenCount -= 1;
LocalVcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { LocalVcb->ReadOnlyCount -= 1; }
//
// WinSE #307418 "Occasional data corruption when standby/resume
// while copying files to removable FAT formatted media".
// If new file creation request was interrupted by system suspend
// operation we should revert the changes we made to the parent
// directory and to the allocation table.
//
if (IrpContext->ExceptionStatus == STATUS_VERIFY_REQUIRED &&
NodeType( LocalFcb ) == FAT_NTC_FCB) {
FatTruncateFileAllocation( IrpContext, LocalFcb, 0 );
FatDeleteDirent( IrpContext, LocalFcb, NULL, TRUE );
}
//
// If we leafed out on a new Fcb we should get rid of it at this point.
//
// Since the object isn't being opened, we have to do all of the teardown
// here. Our close path will not occur for this fileobject. Note this
// will leave a branch of Dcbs dangling since we do it by hand and don't
// chase to the root.
//
if (LocalFcb->OpenCount == 0 &&
(NodeType( LocalFcb ) == FAT_NTC_FCB ||
IsListEmpty(&LocalFcb->Specific.Dcb.ParentDcbQueue))) {
NT_ASSERT( NodeType( LocalFcb ) != FAT_NTC_ROOT_DCB );
if ( (NodeType( LocalFcb ) == FAT_NTC_DCB) &&
(LocalFcb->Specific.Dcb.DirectoryFile != NULL) ) {
DirectoryFileObject = LocalFcb->Specific.Dcb.DirectoryFile;
LocalFcb->Specific.Dcb.DirectoryFile = NULL;
CcUninitializeCacheMap( DirectoryFileObject,
&FatLargeZero,
NULL );
ObDereferenceObject( DirectoryFileObject );
} else {
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &LocalFcb );
}
}
FatDeleteCcb( IrpContext, &LocalCcb2 );
FatReleaseVcb( IrpContext, LocalVcb );
} else {
FatReleaseVcb( IrpContext, Vcb );
if ( !PostIrp ) {
//
// If this request is successful and the file was opened
// for FILE_EXECUTE access, then set the FileObject bit.
//
NT_ASSERT( IrpSp->Parameters.Create.SecurityContext != NULL );
if (FlagOn( *DesiredAccess, FILE_EXECUTE )) {
SetFlag( FileObject->Flags, FO_FILE_FAST_IO_READ );
}
//
// Lock volume in drive if we opened a paging file, allocating a
// reserve MDL to guarantee paging file operations can always
// go forward.
//
if (IsPagingFile && NT_SUCCESS(Iosb.Status)) {
#ifdef _MSC_VER
#pragma prefast( suppress:28112, "this should be safe" )
#endif
if (!FatReserveMdl) {
PMDL ReserveMdl = IoAllocateMdl( NULL,
FAT_RESERVE_MDL_SIZE * PAGE_SIZE,
TRUE,
FALSE,
NULL );
//
// Stash the MDL, and if it turned out there was already one there
// just free what we got.
//
#ifndef __REACTOS__
InterlockedCompareExchangePointer( &FatReserveMdl, ReserveMdl, NULL );
#else
InterlockedCompareExchangePointer( (void * volatile*)&FatReserveMdl, ReserveMdl, NULL );
#endif
#ifdef _MSC_VER
#pragma prefast( suppress:28112, "this should be safe" )
#endif
if (FatReserveMdl != ReserveMdl) {
IoFreeMdl( ReserveMdl );
}
}
SetFlag(Vcb->VcbState, VCB_STATE_FLAG_BOOT_OR_PAGING_FILE);
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_REMOVABLE_MEDIA)) {
FatToggleMediaEjectDisable( IrpContext, Vcb, TRUE );
}
}
}
}
DebugTrace(-1, Dbg, "FatCommonCreate -> %08lx\n", Iosb.Status);
} _SEH2_END;
CollectCreateStatistics(Vcb, Iosb.Status);
return Iosb.Status;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenVolume (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition
)
/*++
Routine Description:
This routine opens the specified volume for DASD access
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume being opened
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
CreateDisposition - Supplies the create disposition for this operation
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp;
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0,0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
BOOLEAN CleanedVolume = FALSE;
//
// The following variables are for abnormal termination
//
BOOLEAN UnwindShareAccess = FALSE;
PCCB UnwindCcb = NULL;
BOOLEAN UnwindCounts = FALSE;
BOOLEAN UnwindVolumeLock = FALSE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenVolume...\n", 0);
_SEH2_TRY {
//
// Check for proper desired access and rights
//
if ((CreateDisposition != FILE_OPEN) &&
(CreateDisposition != FILE_OPEN_IF)) {
try_return( Iosb.Status = STATUS_ACCESS_DENIED );
}
//
// If the user does not want to share write or delete then we will try
// and take out a lock on the volume.
//
if (!FlagOn(ShareAccess, FILE_SHARE_WRITE) &&
!FlagOn(ShareAccess, FILE_SHARE_DELETE)) {
#if (NTDDI_VERSION >= NTDDI_VISTA)
//
// See if the user has requested write access. If so, they cannot share
// read. There is one exception to this. We allow autochk to get an
// implicit lock on the volume while still allowing readers. Once the
// the system is booted, though, we do not allow this type of access.
//
if (FlagOn( *DesiredAccess, (FILE_WRITE_DATA | FILE_APPEND_DATA) ) &&
FsRtlAreVolumeStartupApplicationsComplete()) {
ClearFlag( ShareAccess, FILE_SHARE_READ );
}
#endif
//
// Do a quick check here for handles on exclusive open.
//
if (!FlagOn(ShareAccess, FILE_SHARE_READ) &&
!FatIsHandleCountZero( IrpContext, Vcb )) {
try_return( Iosb.Status = STATUS_SHARING_VIOLATION );
}
//
// Force Mm to get rid of its referenced file objects.
//
FatFlushFat( IrpContext, Vcb );
FatPurgeReferencedFileObjects( IrpContext, Vcb->RootDcb, Flush );
//
// If the user also does not want to share read then we check
// if anyone is already using the volume, and if so then we
// deny the access. If the user wants to share read then
// we allow the current opens to stay provided they are only
// readonly opens and deny further opens.
//
if (!FlagOn(ShareAccess, FILE_SHARE_READ)) {
if (Vcb->OpenFileCount != 0) {
try_return( Iosb.Status = STATUS_SHARING_VIOLATION );
}
} else {
if (Vcb->ReadOnlyCount != Vcb->OpenFileCount) {
try_return( Iosb.Status = STATUS_SHARING_VIOLATION );
}
}
//
// Lock the volume
//
Vcb->VcbState |= VCB_STATE_FLAG_LOCKED;
Vcb->FileObjectWithVcbLocked = FileObject;
UnwindVolumeLock = TRUE;
//
// Clean the volume
//
CleanedVolume = TRUE;
} else if (FlagOn( *DesiredAccess, FILE_READ_DATA | FILE_WRITE_DATA | FILE_APPEND_DATA )) {
//
// Flush the volume and let ourselves push the clean bit out if everything
// worked.
//
if (NT_SUCCESS( FatFlushVolume( IrpContext, Vcb, Flush ))) {
CleanedVolume = TRUE;
}
}
//
// Clean the volume if we believe it safe and reasonable.
//
if (CleanedVolume &&
FlagOn( Vcb->VcbState, VCB_STATE_FLAG_VOLUME_DIRTY ) &&
!FlagOn( Vcb->VcbState, VCB_STATE_FLAG_MOUNTED_DIRTY ) &&
!CcIsThereDirtyData(Vcb->Vpb)) {
//
// Cancel any pending clean volumes.
//
(VOID)KeCancelTimer( &Vcb->CleanVolumeTimer );
(VOID)KeRemoveQueueDpc( &Vcb->CleanVolumeDpc );
FatMarkVolume( IrpContext, Vcb, VolumeClean );
ClearFlag( Vcb->VcbState, VCB_STATE_FLAG_VOLUME_DIRTY );
//
// Unlock the volume if it is removable.
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_REMOVABLE_MEDIA) &&
!FlagOn(Vcb->VcbState, VCB_STATE_FLAG_BOOT_OR_PAGING_FILE)) {
FatToggleMediaEjectDisable( IrpContext, Vcb, FALSE );
}
}
//
// If the volume is already opened by someone then we need to check
// the share access
//
if (Vcb->DirectAccessOpenCount > 0) {
if (!NT_SUCCESS(Iosb.Status = IoCheckShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Vcb->ShareAccess,
TRUE ))) {
try_return( Iosb.Status );
}
} else {
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Vcb->ShareAccess );
}
UnwindShareAccess = TRUE;
//
// Set up the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserVolumeOpen,
Vcb,
UnwindCcb = FatCreateCcb( IrpContext ));
FileObject->SectionObjectPointer = &Vcb->SectionObjectPointers;
Vcb->DirectAccessOpenCount += 1;
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
UnwindCounts = TRUE;
FileObject->Flags |= FO_NO_INTERMEDIATE_BUFFERING;
//
// At this point the open will succeed, so check if the user is getting explicit access
// to the device. If not, we will note this so we can deny modifying FSCTL to it.
//
IrpSp = IoGetCurrentIrpStackLocation( IrpContext->OriginatingIrp );
Status = FatExplicitDeviceAccessGranted( IrpContext,
Vcb->Vpb->RealDevice,
IrpSp->Parameters.Create.SecurityContext->AccessState,
(KPROCESSOR_MODE)( FlagOn( IrpSp->Flags, SL_FORCE_ACCESS_CHECK ) ?
UserMode :
IrpContext->OriginatingIrp->RequestorMode ));
if (NT_SUCCESS( Status )) {
SetFlag( UnwindCcb->Flags, CCB_FLAG_MANAGE_VOLUME_ACCESS );
}
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_OPENED;
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatOpenVolume );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination() || !NT_SUCCESS(Iosb.Status)) {
if (UnwindCounts) {
Vcb->DirectAccessOpenCount -= 1;
Vcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount -= 1; }
}
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
if (UnwindShareAccess) { IoRemoveShareAccess( FileObject, &Vcb->ShareAccess ); }
if (UnwindVolumeLock) { Vcb->VcbState &= ~VCB_STATE_FLAG_LOCKED; }
}
DebugTrace(-1, Dbg, "FatOpenVolume -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenRootDcb (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition
)
/*++
Routine Description:
This routine opens the root dcb for the volume
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume whose dcb is being opened.
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
CreateDisposition - Supplies the create disposition for this operation
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
Arguments:
--*/
{
PDCB RootDcb;
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
//
// The following variables are for abnormal termination
//
BOOLEAN UnwindShareAccess = FALSE;
PCCB UnwindCcb = NULL;
BOOLEAN UnwindCounts = FALSE;
BOOLEAN RootDcbAcquired = FALSE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenRootDcb...\n", 0);
//
// Locate the root dcb
//
RootDcb = Vcb->RootDcb;
//
// Get the Dcb exlcusive. This is important as cleanup does not
// acquire the Vcb.
//
(VOID)FatAcquireExclusiveFcb( IrpContext, RootDcb );
RootDcbAcquired = TRUE;
_SEH2_TRY {
//
// Check the create disposition and desired access
//
if ((CreateDisposition != FILE_OPEN) &&
(CreateDisposition != FILE_OPEN_IF)) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
if (!FatCheckFileAccess( IrpContext,
RootDcb->DirentFatFlags,
DesiredAccess)) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// If the Root dcb is already opened by someone then we need
// to check the share access
//
if (RootDcb->OpenCount > 0) {
if (!NT_SUCCESS(Iosb.Status = IoCheckShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&RootDcb->ShareAccess,
TRUE ))) {
try_return( Iosb );
}
} else {
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&RootDcb->ShareAccess );
}
UnwindShareAccess = TRUE;
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserDirectoryOpen,
RootDcb,
UnwindCcb = FatCreateCcb( IrpContext ));
RootDcb->UncleanCount += 1;
RootDcb->OpenCount += 1;
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
UnwindCounts = TRUE;
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_OPENED;
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatOpenRootDcb );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (UnwindCounts) {
RootDcb->UncleanCount -= 1;
RootDcb->OpenCount -= 1;
Vcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount -= 1; }
}
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
if (UnwindShareAccess) { IoRemoveShareAccess( FileObject, &RootDcb->ShareAccess ); }
}
if (RootDcbAcquired) {
FatReleaseFcb( IrpContext, RootDcb );
}
DebugTrace(-1, Dbg, "FatOpenRootDcb -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingDcb (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB Dcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos,
_Out_ PBOOLEAN OplockPostIrp
)
/*++
Routine Description:
This routine opens the specified existing dcb
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume containing the dcb
Dcb - Supplies the already existing dcb
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
CreateDisposition - Supplies the create disposition for this operation
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
PBCB DirentBcb = NULL;
PDIRENT Dirent;
//
// The following variables are for abnormal termination
//
BOOLEAN UnwindShareAccess = FALSE;
PCCB UnwindCcb = NULL;
BOOLEAN DcbAcquired = FALSE;
#if (NTDDI_VERSION <= NTDDI_WIN7)
UNREFERENCED_PARAMETER( OpenRequiringOplock );
#endif
UNREFERENCED_PARAMETER( IrpSp );
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenExistingDcb...\n", 0);
//
// Get the Dcb exlcusive. This is important as cleanup does not
// acquire the Vcb.
//
(VOID)FatAcquireExclusiveFcb( IrpContext, Dcb );
DcbAcquired = TRUE;
_SEH2_TRY {
*OplockPostIrp = FALSE;
//
// Before spending any noticeable effort, see if we have the odd case
// of someone trying to delete-on-close the root dcb. This will only
// happen if we're hit with a null-filename relative open via the root.
//
if (NodeType(Dcb) == FAT_NTC_ROOT_DCB && DeleteOnClose) {
Iosb.Status = STATUS_CANNOT_DELETE;
try_return( Iosb );
}
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
if (Iosb.Status != STATUS_SUCCESS) {
try_return( NOTHING );
}
#endif
//
// If the caller has no Ea knowledge, we immediately check for
// Need Ea's on the file. We don't need to check for ea's on the
// root directory, because it never has any. Fat32 doesn't have
// any, either.
//
if (NoEaKnowledge && NodeType(Dcb) != FAT_NTC_ROOT_DCB &&
!FatIsFat32(Vcb)) {
ULONG NeedEaCount;
//
// Get the dirent for the file and then check that the need
// ea count is 0.
//
FatGetDirentFromFcbOrDcb( IrpContext,
Dcb,
FALSE,
&Dirent,
&DirentBcb );
FatGetNeedEaCount( IrpContext,
Vcb,
Dirent,
&NeedEaCount );
FatUnpinBcb( IrpContext, DirentBcb );
if (NeedEaCount != 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
}
//
// Check the create disposition and desired access
//
if ((CreateDisposition != FILE_OPEN) &&
(CreateDisposition != FILE_OPEN_IF)) {
Iosb.Status = STATUS_OBJECT_NAME_COLLISION;
try_return( Iosb );
}
if (!FatCheckFileAccess( IrpContext,
Dcb->DirentFatFlags,
DesiredAccess)) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// If the dcb is already opened by someone then we need
// to check the share access
//
if (Dcb->OpenCount > 0) {
if (!NT_SUCCESS(Iosb.Status = FatCheckShareAccess( IrpContext,
FileObject,
Dcb,
DesiredAccess,
ShareAccess ))) {
#if (NTDDI_VERSION >= NTDDI_WIN8)
NTSTATUS OplockBreakStatus = STATUS_SUCCESS;
//
// If we got a sharing violation try to break outstanding handle
// oplocks and retry the sharing check. If the caller specified
// FILE_COMPLETE_IF_OPLOCKED we don't bother breaking the oplock;
// we just return the sharing violation.
//
if ((Iosb.Status == STATUS_SHARING_VIOLATION) &&
!FlagOn( IrpSp->Parameters.Create.Options, FILE_COMPLETE_IF_OPLOCKED )) {
OplockBreakStatus = FsRtlOplockBreakH( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
0,
IrpContext,
FatOplockComplete,
FatPrePostIrp );
//
// If FsRtlOplockBreakH returned STATUS_PENDING, then the IRP
// has been posted and we need to stop working.
//
if (OplockBreakStatus == STATUS_PENDING) {
Iosb.Status = STATUS_PENDING;
*OplockPostIrp = TRUE;
try_return( NOTHING );
//
// If FsRtlOplockBreakH returned an error we want to return that now.
//
} else if (!NT_SUCCESS( OplockBreakStatus )) {
Iosb.Status = OplockBreakStatus;
try_return( Iosb );
//
// Otherwise FsRtlOplockBreakH returned STATUS_SUCCESS, indicating
// that there is no oplock to be broken. The sharing violation is
// returned in that case.
//
} else {
NT_ASSERT( OplockBreakStatus == STATUS_SUCCESS );
try_return( Iosb );
}
//
// The initial sharing check failed with something other than sharing
// violation (which should never happen, but let's be future-proof),
// or we *did* get a sharing violation and the caller specified
// FILE_COMPLETE_IF_OPLOCKED. Either way this create is over.
//
} else {
try_return( Iosb );
}
#else
try_return( Iosb );
#endif
}
}
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// Now check that we can continue based on the oplock state of the
// directory. If there are no open handles yet we don't need to do
// this check; oplocks can only exist when there are handles.
//
if (Dcb->UncleanCount != 0) {
Iosb.Status = FsRtlCheckOplock( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
IrpContext,
FatOplockComplete,
FatPrePostIrp );
}
//
// if FsRtlCheckOplock returns STATUS_PENDING the IRP has been posted
// to service an oplock break and we need to leave now.
//
if (Iosb.Status == STATUS_PENDING) {
*OplockPostIrp = TRUE;
try_return( NOTHING );
}
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Fcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
(Dcb->UncleanCount + 1) );
}
//
// If we've encountered a failure we need to leave. FsRtlCheckOplock
// will have returned STATUS_OPLOCK_BREAK_IN_PROGRESS if it initiated
// and oplock break and the caller specified FILE_COMPLETE_IF_OPLOCKED
// on the create call. That's an NT_SUCCESS code, so we need to keep
// going.
//
if ((Iosb.Status != STATUS_SUCCESS) &&
(Iosb.Status != STATUS_OPLOCK_BREAK_IN_PROGRESS)) {
try_return( NOTHING );
}
#endif
//
// Now that we're done with the oplock work update the share counts.
// If the Dcb isn't yet opened we just set the share access rather than
// update it.
//
if (Dcb->OpenCount > 0) {
IoUpdateShareAccess( FileObject, &Dcb->ShareAccess );
} else {
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Dcb->ShareAccess );
}
UnwindShareAccess = TRUE;
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserDirectoryOpen,
Dcb,
UnwindCcb = FatCreateCcb( IrpContext ));
Dcb->UncleanCount += 1;
Dcb->OpenCount += 1;
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
//
// Mark the delete on close bit if the caller asked for that.
//
{
PCCB Ccb = (PCCB)FileObject->FsContext2;
if (DeleteOnClose) {
SetFlag( Ccb->Flags, CCB_FLAG_DELETE_ON_CLOSE );
}
if (FileNameOpenedDos) {
SetFlag( Ccb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
}
//
// In case this was set, clear it now.
//
ClearFlag(Dcb->FcbState, FCB_STATE_DELAY_CLOSE);
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_OPENED;
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatOpenExistingDcb );
//
// Unpin the Dirent Bcb if pinned.
//
FatUnpinBcb( IrpContext, DirentBcb );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
if (UnwindShareAccess) { IoRemoveShareAccess( FileObject, &Dcb->ShareAccess ); }
}
if (DcbAcquired) {
FatReleaseFcb( IrpContext, Dcb );
}
DebugTrace(-1, Dbg, "FatOpenExistingDcb -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingFcb (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PFCB Fcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos,
_Out_ PBOOLEAN OplockPostIrp
)
/*++
Routine Description:
This routine opens the specified existing fcb
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume containing the Fcb
Fcb - Supplies the already existing fcb
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
AllocationSize - Supplies the initial allocation if the file is being
superseded or overwritten
EaBuffer - Supplies the Ea set if the file is being superseded or
overwritten
EaLength - Supplies the size, in byte, of the EaBuffer
FileAttributes - Supplies file attributes to use if the file is being
superseded or overwritten
CreateDisposition - Supplies the create disposition for this operation
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
OpenRequiringOplock - The caller provided the FILE_OPEN_REQUIRING_OPLOCK option.
FileNameOpenedDos - The caller hit the short side of the name pair finding
this file
OplockPostIrp - Address to store boolean indicating if the Irp needs to
be posted to the Fsp.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
PBCB DirentBcb = NULL;
PDIRENT Dirent;
ACCESS_MASK AddedAccess = 0;
//
// The following variables are for abnormal termination
//
BOOLEAN UnwindShareAccess = FALSE;
PCCB UnwindCcb = NULL;
BOOLEAN DecrementFcbOpenCount = FALSE;
BOOLEAN FcbAcquired = FALSE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenExistingFcb...\n", 0);
//
// Get the Fcb exlcusive. This is important as cleanup does not
// acquire the Vcb.
//
(VOID)FatAcquireExclusiveFcb( IrpContext, Fcb );
FcbAcquired = TRUE;
_SEH2_TRY {
*OplockPostIrp = FALSE;
#if (NTDDI_VERSION >= NTDDI_WIN7)
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
if (Iosb.Status != STATUS_SUCCESS) {
try_return( NOTHING );
}
#endif
//
// Take special action if there is a current batch oplock or
// batch oplock break in process on the Fcb.
//
if (FsRtlCurrentBatchOplock( FatGetFcbOplock(Fcb) )) {
//
// We remember if a batch oplock break is underway for the
// case where the sharing check fails.
//
Iosb.Information = FILE_OPBATCH_BREAK_UNDERWAY;
Iosb.Status = FsRtlCheckOplock( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
IrpContext,
FatOplockComplete,
FatPrePostIrp );
//
// if FsRtlCheckOplock returns STATUS_PENDING the IRP has been posted
// to service an oplock break and we need to leave now.
//
if (Iosb.Status == STATUS_PENDING) {
*OplockPostIrp = TRUE;
try_return( NOTHING );
}
}
//
// Check if the user wanted to create the file, also special case
// the supersede and overwrite options. Those add additional,
// possibly only implied, desired accesses to the caller, which
// we must be careful to pull back off if the caller did not actually
// request them.
//
// In other words, check against the implied access, but do not modify
// share access as a result.
//
if (CreateDisposition == FILE_CREATE) {
Iosb.Status = STATUS_OBJECT_NAME_COLLISION;
try_return( Iosb );
} else if (CreateDisposition == FILE_SUPERSEDE) {
SetFlag( AddedAccess,
DELETE & ~(*DesiredAccess) );
*DesiredAccess |= DELETE;
} else if ((CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF)) {
SetFlag( AddedAccess,
(FILE_WRITE_DATA | FILE_WRITE_EA | FILE_WRITE_ATTRIBUTES) & ~(*DesiredAccess) );
*DesiredAccess |= FILE_WRITE_DATA | FILE_WRITE_EA | FILE_WRITE_ATTRIBUTES;
}
//
// Check the desired access
//
if (!FatCheckFileAccess( IrpContext,
Fcb->DirentFatFlags,
DesiredAccess )) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// Check for trying to delete a read only file.
//
if (DeleteOnClose &&
FlagOn( Fcb->DirentFatFlags, FAT_DIRENT_ATTR_READ_ONLY )) {
Iosb.Status = STATUS_CANNOT_DELETE;
try_return( Iosb );
}
//
// If we are asked to do an overwrite or supersede operation then
// deny access for files where the file attributes for system and
// hidden do not match
//
if ((CreateDisposition == FILE_SUPERSEDE) ||
(CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF)) {
BOOLEAN Hidden;
BOOLEAN System;
Hidden = BooleanFlagOn(Fcb->DirentFatFlags, FAT_DIRENT_ATTR_HIDDEN );
System = BooleanFlagOn(Fcb->DirentFatFlags, FAT_DIRENT_ATTR_SYSTEM );
if ((Hidden && !FlagOn(FileAttributes, FILE_ATTRIBUTE_HIDDEN)) ||
(System && !FlagOn(FileAttributes, FILE_ATTRIBUTE_SYSTEM))) {
DebugTrace(0, Dbg, "The hidden and/or system bits do not match\n", 0);
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// If this media is write protected, don't even try the create.
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_WRITE_PROTECTED)) {
//
// Set the real device for the pop-up info, and set the verify
// bit in the device object, so that we will force a verify
// in case the user put the correct media back in.
//
IoSetHardErrorOrVerifyDevice( IrpContext->OriginatingIrp,
Vcb->Vpb->RealDevice );
SetFlag(Vcb->Vpb->RealDevice->Flags, DO_VERIFY_VOLUME);
FatRaiseStatus( IrpContext, STATUS_MEDIA_WRITE_PROTECTED );
}
}
//
// Check if the Fcb has the proper share access. This routine will also
// check for writable user secions if the user did not allow write sharing.
//
if (!NT_SUCCESS(Iosb.Status = FatCheckShareAccess( IrpContext,
FileObject,
Fcb,
DesiredAccess,
ShareAccess ))) {
#if (NTDDI_VERSION >= NTDDI_WIN7)
NTSTATUS OplockBreakStatus = STATUS_SUCCESS;
//
// If we got a sharing violation try to break outstanding handle
// oplocks and retry the sharing check. If the caller specified
// FILE_COMPLETE_IF_OPLOCKED we don't bother breaking the oplock;
// we just return the sharing violation.
//
if ((Iosb.Status == STATUS_SHARING_VIOLATION) &&
!FlagOn( IrpSp->Parameters.Create.Options, FILE_COMPLETE_IF_OPLOCKED )) {
OplockBreakStatus = FsRtlOplockBreakH( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
0,
IrpContext,
FatOplockComplete,
FatPrePostIrp );
//
// If FsRtlOplockBreakH returned STATUS_PENDING, then the IRP
// has been posted and we need to stop working.
//
if (OplockBreakStatus == STATUS_PENDING) {
Iosb.Status = STATUS_PENDING;
*OplockPostIrp = TRUE;
try_return( NOTHING );
//
// If FsRtlOplockBreakH returned an error we want to return that now.
//
} else if (!NT_SUCCESS( OplockBreakStatus )) {
Iosb.Status = OplockBreakStatus;
try_return( Iosb );
//
// Otherwise FsRtlOplockBreakH returned STATUS_SUCCESS, indicating
// that there is no oplock to be broken. The sharing violation is
// returned in that case.
//
} else {
NT_ASSERT( OplockBreakStatus == STATUS_SUCCESS );
try_return( Iosb );
}
//
// The initial sharing check failed with something other than sharing
// violation (which should never happen, but let's be future-proof),
// or we *did* get a sharing violation and the caller specified
// FILE_COMPLETE_IF_OPLOCKED. Either way this create is over.
//
} else {
try_return( Iosb );
}
#else
try_return( Iosb );
#endif
}
//
// Now check that we can continue based on the oplock state of the
// file. If there are no open handles yet we don't need to do this
// check; oplocks can only exist when there are handles.
//
// It is important that we modified the DesiredAccess in place so
// that the Oplock check proceeds against any added access we had
// to give the caller.
//
if (Fcb->UncleanCount != 0) {
Iosb.Status = FsRtlCheckOplock( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
IrpContext,
FatOplockComplete,
FatPrePostIrp );
}
//
// if FsRtlCheckOplock returns STATUS_PENDING the IRP has been posted
// to service an oplock break and we need to leave now.
//
if (Iosb.Status == STATUS_PENDING) {
*OplockPostIrp = TRUE;
try_return( NOTHING );
}
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Fcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
(Fcb->UncleanCount + 1) );
}
//
// If we've encountered a failure we need to leave. FsRtlCheckOplock
// will have returned STATUS_OPLOCK_BREAK_IN_PROGRESS if it initiated
// and oplock break and the caller specified FILE_COMPLETE_IF_OPLOCKED
// on the create call. That's an NT_SUCCESS code, so we need to keep
// going.
//
if ((Iosb.Status != STATUS_SUCCESS) &&
(Iosb.Status != STATUS_OPLOCK_BREAK_IN_PROGRESS)) {
try_return( NOTHING );
}
//
// Set the flag indicating if Fast I/O is possible
//
Fcb->Header.IsFastIoPossible = FatIsFastIoPossible( Fcb );
//
// If the user wants write access access to the file make sure there
// is not a process mapping this file as an image. Any attempt to
// delete the file will be stopped in fileinfo.c
//
// If the user wants to delete on close, we must check at this
// point though.
//
if (FlagOn(*DesiredAccess, FILE_WRITE_DATA) || DeleteOnClose) {
Fcb->OpenCount += 1;
DecrementFcbOpenCount = TRUE;
if (!MmFlushImageSection( &Fcb->NonPaged->SectionObjectPointers,
MmFlushForWrite )) {
Iosb.Status = DeleteOnClose ? STATUS_CANNOT_DELETE :
STATUS_SHARING_VIOLATION;
try_return( Iosb );
}
}
//
// If this is a non-cached open on a non-paging file, and there
// are no open cached handles, but there is a still a data
// section, attempt a flush and purge operation to avoid cache
// coherency overhead later. We ignore any I/O errors from
// the flush.
//
// We set the CREATE_IN_PROGRESS flag to prevent the Fcb from
// going away out from underneath us.
//
if (FlagOn( FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING ) &&
(Fcb->UncleanCount == Fcb->NonCachedUncleanCount) &&
(Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL) &&
!FlagOn( Fcb->FcbState, FCB_STATE_PAGING_FILE )) {
SetFlag(Fcb->Vcb->VcbState, VCB_STATE_FLAG_CREATE_IN_PROGRESS);
CcFlushCache( &Fcb->NonPaged->SectionObjectPointers, NULL, 0, NULL );
//
// Grab and release PagingIo to serialize ourselves with the lazy writer.
// This will work to ensure that all IO has completed on the cached
// data and we will succesfully tear away the cache section.
//
ExAcquireResourceExclusiveLite( Fcb->Header.PagingIoResource, TRUE);
ExReleaseResourceLite( Fcb->Header.PagingIoResource );
CcPurgeCacheSection( &Fcb->NonPaged->SectionObjectPointers,
NULL,
0,
FALSE );
ClearFlag(Fcb->Vcb->VcbState, VCB_STATE_FLAG_CREATE_IN_PROGRESS);
}
//
// Check if the user only wanted to open the file
//
if ((CreateDisposition == FILE_OPEN) ||
(CreateDisposition == FILE_OPEN_IF)) {
DebugTrace(0, Dbg, "Doing open operation\n", 0);
//
// If the caller has no Ea knowledge, we immediately check for
// Need Ea's on the file.
//
if (NoEaKnowledge && !FatIsFat32(Vcb)) {
ULONG NeedEaCount;
//
// Get the dirent for the file and then check that the need
// ea count is 0.
//
FatGetDirentFromFcbOrDcb( IrpContext,
Fcb,
FALSE,
&Dirent,
&DirentBcb );
FatGetNeedEaCount( IrpContext,
Vcb,
Dirent,
&NeedEaCount );
FatUnpinBcb( IrpContext, DirentBcb );
if (NeedEaCount != 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
}
//
// Everything checks out okay, so setup the context and
// section object pointers.
//
FatSetFileObject( FileObject,
UserFileOpen,
Fcb,
UnwindCcb = FatCreateCcb( IrpContext ));
FileObject->SectionObjectPointer = &Fcb->NonPaged->SectionObjectPointers;
//
// Fill in the information field, the status field is already
// set.
//
Iosb.Information = FILE_OPENED;
try_return( Iosb );
}
//
// Check if we are to supersede/overwrite the file, we can wait for
// any I/O at this point
//
if ((CreateDisposition == FILE_SUPERSEDE) ||
(CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF)) {
NTSTATUS OldStatus;
DebugTrace(0, Dbg, "Doing supersede/overwrite operation\n", 0);
//
// We remember the previous status code because it may contain
// information about the oplock status.
//
OldStatus = Iosb.Status;
//
// Determine the granted access for this operation now.
//
if (!NT_SUCCESS( Iosb.Status = FatCheckSystemSecurityAccess( IrpContext ))) {
try_return( Iosb );
}
//
// And overwrite the file.
//
Iosb = FatSupersedeOrOverwriteFile( IrpContext,
FileObject,
Fcb,
AllocationSize,
EaBuffer,
EaLength,
FileAttributes,
CreateDisposition,
NoEaKnowledge );
if (Iosb.Status == STATUS_SUCCESS) {
Iosb.Status = OldStatus;
}
try_return( Iosb );
}
//
// If we ever get here then the I/O system gave us some bad input
//
#ifdef _MSC_VER
#pragma prefast( suppress:28159, "things are seriously wrong if we get here" )
#endif
FatBugCheck( CreateDisposition, 0, 0 );
try_exit: NOTHING;
//
// Update the share access and counts if successful
//
if ((Iosb.Status != STATUS_PENDING) && NT_SUCCESS(Iosb.Status)) {
//
// Now, we may have added some access bits above to indicate the access
// this caller would conflict with (as opposed to what they get) in order
// to perform the overwrite/supersede. We need to make a call to that will
// recalculate the bits in the fileobject to reflect the real access they
// will get.
//
if (AddedAccess) {
NTSTATUS Status;
ClearFlag( *DesiredAccess, AddedAccess );
#ifdef _MSC_VER
#pragma prefast( suppress:28931, "it needs to be there for debug assert" );
#endif
Status = IoCheckShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Fcb->ShareAccess,
TRUE );
//
// It must be the case that we are really asking for less access, so
// any conflict must have been detected before this point.
//
NT_ASSERT( Status == STATUS_SUCCESS );
} else {
IoUpdateShareAccess( FileObject, &Fcb->ShareAccess );
}
UnwindShareAccess = TRUE;
//
// In case this was set, clear it now.
//
ClearFlag(Fcb->FcbState, FCB_STATE_DELAY_CLOSE);
Fcb->UncleanCount += 1;
Fcb->OpenCount += 1;
if (FlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) {
Fcb->NonCachedUncleanCount += 1;
}
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
{
PCCB Ccb;
Ccb = (PCCB)FileObject->FsContext2;
//
// Mark the DeleteOnClose bit if the operation was successful.
//
if ( DeleteOnClose ) {
SetFlag( Ccb->Flags, CCB_FLAG_DELETE_ON_CLOSE );
}
//
// Mark the OpenedByShortName bit if the operation was successful.
//
if ( FileNameOpenedDos ) {
SetFlag( Ccb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
//
// Mark the ManageVolumeAccess bit if the privilege is held.
//
if (FatCheckManageVolumeAccess( IrpContext,
IrpSp->Parameters.Create.SecurityContext->AccessState,
(KPROCESSOR_MODE)( FlagOn( IrpSp->Flags, SL_FORCE_ACCESS_CHECK ) ?
UserMode :
IrpContext->OriginatingIrp->RequestorMode ))) {
SetFlag( Ccb->Flags, CCB_FLAG_MANAGE_VOLUME_ACCESS );
}
}
}
} _SEH2_FINALLY {
DebugUnwind( FatOpenExistingFcb );
//
// Unpin the Dirent Bcb if pinned.
//
FatUnpinBcb( IrpContext, DirentBcb );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
if (UnwindShareAccess) { IoRemoveShareAccess( FileObject, &Fcb->ShareAccess ); }
}
if (DecrementFcbOpenCount) {
Fcb->OpenCount -= 1;
if (Fcb->OpenCount == 0) {
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &Fcb );
FcbAcquired = FALSE;
}
}
if (FcbAcquired) {
FatReleaseFcb( IrpContext, Fcb );
}
DebugTrace(-1, Dbg, "FatOpenExistingFcb -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenTargetDirectory (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PDCB Dcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ BOOLEAN DoesNameExist,
_In_ BOOLEAN FileNameOpenedDos
)
/*++
Routine Description:
This routine opens the target directory and replaces the name in the
file object with the remaining name.
Arguments:
FileObject - Supplies the File object
Dcb - Supplies an already existing dcb that we are going to open
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
DoesNameExist - Indicates if the file name already exists in the
target directory.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
//
// The following variables are for abnormal termination
//
BOOLEAN UnwindShareAccess = FALSE;
PCCB UnwindCcb = NULL;
BOOLEAN DcbAcquired = FALSE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenTargetDirectory...\n", 0);
//
// Get the Dcb exlcusive. This is important as cleanup does not
// acquire the Vcb.
//
(VOID)FatAcquireExclusiveFcb( IrpContext, Dcb );
DcbAcquired = TRUE;
_SEH2_TRY {
ULONG i;
//
// If the Dcb is already opened by someone then we need
// to check the share access
//
if (Dcb->OpenCount > 0) {
if (!NT_SUCCESS(Iosb.Status = IoCheckShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Dcb->ShareAccess,
TRUE ))) {
try_return( Iosb );
}
} else {
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Dcb->ShareAccess );
}
UnwindShareAccess = TRUE;
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserDirectoryOpen,
Dcb,
UnwindCcb = FatCreateCcb( IrpContext ));
Dcb->UncleanCount += 1;
Dcb->OpenCount += 1;
Dcb->Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Dcb->Vcb->ReadOnlyCount += 1; }
//
// Update the name in the file object, by definition the remaining
// part must be shorter than the original file name so we'll just
// overwrite the file name.
//
i = FileObject->FileName.Length/sizeof(WCHAR) - 1;
//
// Get rid of a trailing backslash
//
if (FileObject->FileName.Buffer[i] == L'\\') {
NT_ASSERT(i != 0);
FileObject->FileName.Length -= sizeof(WCHAR);
i -= 1;
}
//
// Find the first non-backslash character. i will be its index.
//
while (TRUE) {
if (FileObject->FileName.Buffer[i] == L'\\') {
i += 1;
break;
}
if (i == 0) {
break;
}
i--;
}
if (i) {
FileObject->FileName.Length -= (USHORT)(i * sizeof(WCHAR));
RtlMoveMemory( &FileObject->FileName.Buffer[0],
&FileObject->FileName.Buffer[i],
FileObject->FileName.Length );
}
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = (DoesNameExist ? FILE_EXISTS : FILE_DOES_NOT_EXIST);
if ( ( NT_SUCCESS(Iosb.Status) ) && ( DoesNameExist ) ) {
PCCB Ccb;
Ccb = (PCCB)FileObject->FsContext2;
//
// Mark the OpenedByShortName bit if the operation was successful.
//
if ( FileNameOpenedDos ) {
SetFlag( Ccb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
}
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatOpenTargetDirectory );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
if (UnwindShareAccess) { IoRemoveShareAccess( FileObject, &Dcb->ShareAccess ); }
}
if (DcbAcquired) {
FatReleaseFcb( IrpContext, Dcb );
}
DebugTrace(-1, Dbg, "FatOpenTargetDirectory -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Success_(return.Status == STATUS_SUCCESS)
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
#ifdef _MSC_VER
#pragma warning(suppress:6101) // bug in PREFast means the _Success_ annotation is not correctly applied
#endif
FatOpenExistingDirectory (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Outptr_result_maybenull_ PDCB *Dcb,
_In_ PDCB ParentDcb,
_In_ PDIRENT Dirent,
_In_ ULONG LfnByteOffset,
_In_ ULONG DirentByteOffset,
_In_ PUNICODE_STRING Lfn,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN FileNameOpenedDos,
_In_ BOOLEAN OpenRequiringOplock
)
/*++
Routine Description:
This routine opens the specified directory. The directory has not
previously been opened.
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume containing the dcb
Dcb - Returns the newly-created DCB for the file.
ParentDcb - Supplies the parent directory containing the subdirectory
to be opened
DirectoryName - Supplies the file name of the directory being opened.
Dirent - Supplies the dirent for the directory being opened
LfnByteOffset - Tells where the Lfn begins. If there is no Lfn
this field is the same as DirentByteOffset.
DirentByteOffset - Supplies the Vbo of the dirent within its parent
directory
Lfn - May supply a long name for the file.
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
CreateDisposition - Supplies the create disposition for this operation
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
OpenRequiringOplock - The caller provided the FILE_OPEN_REQUIRING_OPLOCK option.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
//
// The following variables are for abnormal termination
//
PDCB UnwindDcb = NULL;
PCCB UnwindCcb = NULL;
BOOLEAN CountsIncremented = FALSE;
UNREFERENCED_PARAMETER( DeleteOnClose );
#if (NTDDI_VERSION <= NTDDI_WIN7)
UNREFERENCED_PARAMETER( OpenRequiringOplock );
#endif
UNREFERENCED_PARAMETER( IrpSp );
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenExistingDirectory...\n", 0);
_SEH2_TRY {
//
// If the caller has no Ea knowledge, we immediately check for
// Need Ea's on the file.
//
if (NoEaKnowledge && !FatIsFat32(Vcb)) {
ULONG NeedEaCount;
FatGetNeedEaCount( IrpContext,
Vcb,
Dirent,
&NeedEaCount );
if (NeedEaCount != 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
}
//
// Check the create disposition and desired access
//
if ((CreateDisposition != FILE_OPEN) &&
(CreateDisposition != FILE_OPEN_IF)) {
Iosb.Status = STATUS_OBJECT_NAME_COLLISION;
try_return( Iosb );
}
if (!FatCheckFileAccess( IrpContext,
Dirent->Attributes,
DesiredAccess)) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// Create a new dcb for the directory
//
*Dcb = UnwindDcb = FatCreateDcb( IrpContext,
Vcb,
ParentDcb,
LfnByteOffset,
DirentByteOffset,
Dirent,
Lfn );
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(*Dcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Fcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(*Dcb),
IrpContext->OriginatingIrp,
((*Dcb)->UncleanCount + 1) );
}
//
// Get out if either of the above calls failed. Raise to trigger
// cleanup of the new Dcb.
//
if (Iosb.Status != STATUS_SUCCESS) {
NT_ASSERT( Iosb.Status != STATUS_PENDING );
FatRaiseStatus( IrpContext, Iosb.Status );
}
#endif
//
// Setup our share access
//
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&(*Dcb)->ShareAccess );
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserDirectoryOpen,
(*Dcb),
UnwindCcb = FatCreateCcb( IrpContext ));
(*Dcb)->UncleanCount += 1;
(*Dcb)->OpenCount += 1;
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
CountsIncremented = TRUE;
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_OPENED;
if ( NT_SUCCESS(Iosb.Status) ) {
PCCB Ccb;
Ccb = (PCCB)FileObject->FsContext2;
//
// Mark the OpenedByShortName bit if the operation was successful.
//
if ( FileNameOpenedDos ) {
SetFlag( Ccb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
}
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatOpenExistingDirectory );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (CountsIncremented) {
(*Dcb)->UncleanCount -= 1;
(*Dcb)->OpenCount -= 1;
Vcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount -= 1; }
}
if (UnwindDcb != NULL) {
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &UnwindDcb );
*Dcb = NULL;
}
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
}
DebugTrace(-1, Dbg, "FatOpenExistingDirectory -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatOpenExistingFile (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Outptr_result_maybenull_ PFCB *Fcb,
_In_ PDCB ParentDcb,
_In_ PDIRENT Dirent,
_In_ ULONG LfnByteOffset,
_In_ ULONG DirentByteOffset,
_In_ PUNICODE_STRING Lfn,
_In_ PUNICODE_STRING OrigLfn,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN IsPagingFile,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN FileNameOpenedDos
)
/*++
Routine Description:
This routine opens the specified file. The file has not previously
been opened.
Arguments:
FileObject - Supplies the File object
Vcb - Supplies the Vcb denoting the volume containing the file
Fcb - Returns the newly-created FCB for the file.
ParentDcb - Supplies the parent directory containing the file to be
opened
Dirent - Supplies the dirent for the file being opened
LfnByteOffset - Tells where the Lfn begins. If there is no Lfn
this field is the same as DirentByteOffset.
DirentByteOffset - Supplies the Vbo of the dirent within its parent
directory
Lfn - May supply a long name for the file.
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the share access of the caller
AllocationSize - Supplies the initial allocation if the file is being
superseded, overwritten, or created.
EaBuffer - Supplies the Ea set if the file is being superseded,
overwritten, or created.
EaLength - Supplies the size, in byte, of the EaBuffer
FileAttributes - Supplies file attributes to use if the file is being
superseded, overwritten, or created
CreateDisposition - Supplies the create disposition for this operation
IsPagingFile - Indicates if this is the paging file being opened.
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
OpenRequiringOplock - The caller provided the FILE_OPEN_REQUIRING_OPLOCK option.
FileNameOpenedDos - The caller opened this file by hitting the 8.3 side
of the Lfn/8.3 pair
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
ACCESS_MASK AddedAccess = 0;
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation( IrpContext->OriginatingIrp );
//
// The following variables are for abnormal termination
//
PFCB UnwindFcb = NULL;
PCCB UnwindCcb = NULL;
BOOLEAN CountsIncremented = FALSE;
#if (NTDDI_VERSION < NTDDI_WIN7)
UNREFERENCED_PARAMETER( OpenRequiringOplock );
#endif
PAGED_CODE();
DebugTrace(+1, Dbg, "FatOpenExistingFile...\n", 0);
_SEH2_TRY {
//
// Check if the user wanted to create the file or if access is
// denied
//
if (CreateDisposition == FILE_CREATE) {
Iosb.Status = STATUS_OBJECT_NAME_COLLISION;
try_return( Iosb );
} else if ((CreateDisposition == FILE_SUPERSEDE) && !IsPagingFile) {
SetFlag( AddedAccess,
DELETE & ~(*DesiredAccess) );
*DesiredAccess |= DELETE;
} else if (((CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF)) && !IsPagingFile) {
SetFlag( AddedAccess,
(FILE_WRITE_DATA | FILE_WRITE_EA | FILE_WRITE_ATTRIBUTES) & ~(*DesiredAccess) );
*DesiredAccess |= FILE_WRITE_DATA | FILE_WRITE_EA | FILE_WRITE_ATTRIBUTES;
}
if (!FatCheckFileAccess( IrpContext,
Dirent->Attributes,
DesiredAccess)) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
//
// Check for trying to delete a read only file.
//
if (DeleteOnClose &&
FlagOn( Dirent->Attributes, FAT_DIRENT_ATTR_READ_ONLY )) {
Iosb.Status = STATUS_CANNOT_DELETE;
try_return( Iosb );
}
//
// IF we are asked to do an overwrite or supersede operation then
// deny access for files where the file attributes for system and
// hidden do not match
//
if ((CreateDisposition == FILE_SUPERSEDE) ||
(CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF)) {
BOOLEAN Hidden;
BOOLEAN System;
Hidden = BooleanFlagOn(Dirent->Attributes, FAT_DIRENT_ATTR_HIDDEN );
System = BooleanFlagOn(Dirent->Attributes, FAT_DIRENT_ATTR_SYSTEM );
if ((Hidden && !FlagOn(FileAttributes, FILE_ATTRIBUTE_HIDDEN)) ||
(System && !FlagOn(FileAttributes, FILE_ATTRIBUTE_SYSTEM))) {
DebugTrace(0, Dbg, "The hidden and/or system bits do not match\n", 0);
if ( !IsPagingFile ) {
Iosb.Status = STATUS_ACCESS_DENIED;
try_return( Iosb );
}
}
//
// If this media is write protected, don't even try the create.
//
if (FlagOn(Vcb->VcbState, VCB_STATE_FLAG_WRITE_PROTECTED)) {
//
// Set the real device for the pop-up info, and set the verify
// bit in the device object, so that we will force a verify
// in case the user put the correct media back in.
//
IoSetHardErrorOrVerifyDevice( IrpContext->OriginatingIrp,
Vcb->Vpb->RealDevice );
SetFlag(Vcb->Vpb->RealDevice->Flags, DO_VERIFY_VOLUME);
FatRaiseStatus( IrpContext, STATUS_MEDIA_WRITE_PROTECTED );
}
}
//
// Create a new Fcb for the file, and set the file size in
// the fcb.
//
*Fcb = UnwindFcb = FatCreateFcb( IrpContext,
Vcb,
ParentDcb,
LfnByteOffset,
DirentByteOffset,
Dirent,
Lfn,
OrigLfn,
IsPagingFile,
FALSE );
(*Fcb)->Header.ValidDataLength.LowPart = (*Fcb)->Header.FileSize.LowPart;
//
// If this is a paging file, lookup the allocation size so that
// the Mcb is always valid
//
if (IsPagingFile) {
FatLookupFileAllocationSize( IrpContext, *Fcb );
}
#if (NTDDI_VERSION >= NTDDI_WIN7)
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(*Fcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Fcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(*Fcb),
IrpContext->OriginatingIrp,
((*Fcb)->UncleanCount + 1) );
}
//
// Get out if either of the above calls failed. Raise to trigger
// cleanup of the new Fcb.
//
if (Iosb.Status != STATUS_SUCCESS) {
NT_ASSERT( Iosb.Status != STATUS_PENDING );
FatRaiseStatus( IrpContext, Iosb.Status );
}
#endif
//
// Now case on whether we are to simply open, supersede, or
// overwrite the file.
//
switch (CreateDisposition) {
case FILE_OPEN:
case FILE_OPEN_IF:
DebugTrace(0, Dbg, "Doing only an open operation\n", 0);
//
// If the caller has no Ea knowledge, we immediately check for
// Need Ea's on the file.
//
if (NoEaKnowledge && !FatIsFat32(Vcb)) {
ULONG NeedEaCount;
FatGetNeedEaCount( IrpContext,
Vcb,
Dirent,
&NeedEaCount );
if (NeedEaCount != 0) {
FatRaiseStatus( IrpContext, STATUS_ACCESS_DENIED );
}
}
//
// Setup the context and section object pointers.
//
FatSetFileObject( FileObject,
UserFileOpen,
*Fcb,
UnwindCcb = FatCreateCcb( IrpContext ));
FileObject->SectionObjectPointer = &(*Fcb)->NonPaged->SectionObjectPointers;
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_OPENED;
break;
case FILE_SUPERSEDE:
case FILE_OVERWRITE:
case FILE_OVERWRITE_IF:
DebugTrace(0, Dbg, "Doing supersede/overwrite operation\n", 0);
//
// Determine the granted access for this operation now.
//
if (!NT_SUCCESS( Iosb.Status = FatCheckSystemSecurityAccess( IrpContext ))) {
try_return( Iosb );
}
Iosb = FatSupersedeOrOverwriteFile( IrpContext,
FileObject,
*Fcb,
AllocationSize,
EaBuffer,
EaLength,
FileAttributes,
CreateDisposition,
NoEaKnowledge );
break;
default:
DebugTrace(0, Dbg, "Illegal Create Disposition\n", 0);
#ifdef _MSC_VER
#pragma prefast( suppress:28159, "things are seriously wrong if we get here" )
#endif
FatBugCheck( CreateDisposition, 0, 0 );
break;
}
try_exit: NOTHING;
//
// Setup our share access and counts if things were successful.
//
if ((Iosb.Status != STATUS_PENDING) && NT_SUCCESS( Iosb.Status )) {
//
// Remove any virtual access the caller needed to check against, but will
// not really receive. Overwrite/supersede is a bit of a special case.
//
ClearFlag( *DesiredAccess, AddedAccess );
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&(*Fcb)->ShareAccess );
(*Fcb)->UncleanCount += 1;
(*Fcb)->OpenCount += 1;
if (FlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) {
(*Fcb)->NonCachedUncleanCount += 1;
}
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
CountsIncremented = TRUE;
}
{
PCCB Ccb;
Ccb = (PCCB)FileObject->FsContext2;
if ( NT_SUCCESS(Iosb.Status) ) {
//
// Mark the DeleteOnClose bit if the operation was successful.
//
if ( DeleteOnClose ) {
SetFlag( Ccb->Flags, CCB_FLAG_DELETE_ON_CLOSE );
}
//
// Mark the OpenedByShortName bit if the operation was successful.
//
if ( FileNameOpenedDos ) {
SetFlag( Ccb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
//
// Mark the ManageVolumeAccess bit if the privilege is held.
//
if (FatCheckManageVolumeAccess( IrpContext,
IrpSp->Parameters.Create.SecurityContext->AccessState,
(KPROCESSOR_MODE)( FlagOn( IrpSp->Flags, SL_FORCE_ACCESS_CHECK ) ?
UserMode :
IrpContext->OriginatingIrp->RequestorMode ))) {
SetFlag( Ccb->Flags, CCB_FLAG_MANAGE_VOLUME_ACCESS );
}
}
}
} _SEH2_FINALLY {
DebugUnwind( FatOpenExistingFile );
//
// If this is an abnormal termination then undo our work
//
if (_SEH2_AbnormalTermination()) {
if (CountsIncremented) {
(*Fcb)->UncleanCount -= 1;
(*Fcb)->OpenCount -= 1;
if (FlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) {
(*Fcb)->NonCachedUncleanCount -= 1;
}
Vcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount -= 1; }
}
if (UnwindFcb != NULL) {
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &UnwindFcb );
*Fcb = NULL;
}
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
}
DebugTrace(-1, Dbg, "FatOpenExistingFile -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatCreateNewDirectory (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB ParentDcb,
_In_ POEM_STRING OemName,
_In_ PUNICODE_STRING UnicodeName,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock
)
/*++
Routine Description:
This routine creates a new directory. The directory has already been
verified not to exist yet.
Arguments:
FileObject - Supplies the file object for the newly created directory
Vcb - Supplies the Vcb denote the volume to contain the new directory
ParentDcb - Supplies the parent directory containg the newly created
directory
OemName - Supplies the Oem name for the newly created directory. It may
or maynot be 8.3 complient, but will be upcased.
UnicodeName - Supplies the Unicode name for the newly created directory.
It may or maynot be 8.3 complient. This name contains the original
case information.
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the shared access of the caller
EaBuffer - Supplies the Ea set for the newly created directory
EaLength - Supplies the length, in bytes, of EaBuffer
FileAttributes - Supplies the file attributes for the newly created
directory.
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
OpenRequiringOplock - The caller provided the FILE_OPEN_REQUIRING_OPLOCK option.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
IO_STATUS_BLOCK Iosb;
PDCB Dcb = NULL;
PCCB Ccb = NULL;
PDIRENT Dirent = NULL;
PBCB DirentBcb = NULL;
ULONG DirentsNeeded;
ULONG DirentByteOffset;
PDIRENT ShortDirent;
ULONG ShortDirentByteOffset;
USHORT EaHandle;
BOOLEAN AllLowerComponent;
BOOLEAN AllLowerExtension;
BOOLEAN CreateLfn;
ULONG BytesInFirstPage = 0;
ULONG DirentsInFirstPage = 0;
PDIRENT FirstPageDirent = 0;
PBCB SecondPageBcb = NULL;
ULONG SecondPageOffset;
PDIRENT SecondPageDirent = NULL;
BOOLEAN DirentFromPool = FALSE;
OEM_STRING ShortName;
UCHAR ShortNameBuffer[12];
#if (NTDDI_VERSION <= NTDDI_WIN7)
UNREFERENCED_PARAMETER( OpenRequiringOplock );
#endif
UNREFERENCED_PARAMETER( IrpSp );
PAGED_CODE();
DebugTrace(+1, Dbg, "FatCreateNewDirectory...\n", 0);
ShortName.Length = 0;
ShortName.MaximumLength = 12;
ShortName.Buffer = (PCHAR)&ShortNameBuffer[0];
EaHandle = 0;
//
// We fail this operation if the caller doesn't understand Ea's.
//
if (NoEaKnowledge
&& EaLength > 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
DebugTrace(-1, Dbg, "FatCreateNewDirectory -> Iosb.Status = %08lx\n", Iosb.Status);
return Iosb;
}
//
// DeleteOnClose and ReadOnly are not compatible.
//
if (DeleteOnClose && FlagOn(FileAttributes, FAT_DIRENT_ATTR_READ_ONLY)) {
Iosb.Status = STATUS_CANNOT_DELETE;
return Iosb;
}
// Now get the names that we will be using.
//
FatSelectNames( IrpContext,
ParentDcb,
OemName,
UnicodeName,
&ShortName,
NULL,
&AllLowerComponent,
&AllLowerExtension,
&CreateLfn );
//
// If we are not in Chicago mode, ignore the magic bits.
//
if (!FatData.ChicagoMode) {
AllLowerComponent = FALSE;
AllLowerExtension = FALSE;
CreateLfn = FALSE;
}
//
// Create/allocate a new dirent
//
DirentsNeeded = CreateLfn ? FAT_LFN_DIRENTS_NEEDED(UnicodeName) + 1 : 1;
DirentByteOffset = FatCreateNewDirent( IrpContext,
ParentDcb,
DirentsNeeded,
FALSE );
_SEH2_TRY {
FatPrepareWriteDirectoryFile( IrpContext,
ParentDcb,
DirentByteOffset,
sizeof(DIRENT),
&DirentBcb,
#ifndef __REACTOS__
&Dirent,
#else
(PVOID *)&Dirent,
#endif
FALSE,
TRUE,
&Iosb.Status );
NT_ASSERT( NT_SUCCESS( Iosb.Status ) && DirentBcb && Dirent );
//
// Deal with the special case of an LFN + Dirent structure crossing
// a page boundry.
//
if ((DirentByteOffset / PAGE_SIZE) !=
((DirentByteOffset + (DirentsNeeded - 1) * sizeof(DIRENT)) / PAGE_SIZE)) {
SecondPageBcb;
SecondPageOffset;
SecondPageDirent;
SecondPageOffset = (DirentByteOffset & ~(PAGE_SIZE - 1)) + PAGE_SIZE;
BytesInFirstPage = SecondPageOffset - DirentByteOffset;
DirentsInFirstPage = BytesInFirstPage / sizeof(DIRENT);
FatPrepareWriteDirectoryFile( IrpContext,
ParentDcb,
SecondPageOffset,
sizeof(DIRENT),
&SecondPageBcb,
#ifndef __REACTOS__
&SecondPageDirent,
#else
(PVOID *)&SecondPageDirent,
#endif
FALSE,
TRUE,
&Iosb.Status );
NT_ASSERT( NT_SUCCESS( Iosb.Status ) && SecondPageBcb && SecondPageDirent );
FirstPageDirent = Dirent;
Dirent = FsRtlAllocatePoolWithTag( PagedPool,
DirentsNeeded * sizeof(DIRENT),
TAG_DIRENT );
DirentFromPool = TRUE;
}
//
// Bump up Dirent and DirentByteOffset
//
ShortDirent = Dirent + DirentsNeeded - 1;
ShortDirentByteOffset = DirentByteOffset +
(DirentsNeeded - 1) * sizeof(DIRENT);
NT_ASSERT( NT_SUCCESS( Iosb.Status ));
//
// Fill in the fields of the dirent.
//
FatConstructDirent( IrpContext,
ShortDirent,
&ShortName,
AllLowerComponent,
AllLowerExtension,
CreateLfn ? UnicodeName : NULL,
FileAttributes | FAT_DIRENT_ATTR_DIRECTORY,
TRUE,
NULL );
//
// If the dirent crossed pages, we have to do some real gross stuff.
//
if (DirentFromPool) {
RtlCopyMemory( FirstPageDirent, Dirent, BytesInFirstPage );
RtlCopyMemory( SecondPageDirent,
Dirent + DirentsInFirstPage,
DirentsNeeded*sizeof(DIRENT) - BytesInFirstPage );
ShortDirent = SecondPageDirent + (DirentsNeeded - DirentsInFirstPage) - 1;
}
//
// Create a new dcb for the directory.
//
Dcb = FatCreateDcb( IrpContext,
Vcb,
ParentDcb,
DirentByteOffset,
ShortDirentByteOffset,
ShortDirent,
CreateLfn ? UnicodeName : NULL );
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// The next three FsRtl calls are for oplock work. We deliberately
// do these here so that if either call fails we will be able to
// clean up without adding a bunch of code to unwind counts, fix
// the file object, etc.
//
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Dcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(Dcb),
IrpContext->OriginatingIrp,
(Dcb->UncleanCount + 1) );
}
//
// Break parent directory oplock. Directory oplock breaks are always
// advisory, so we will never block/get STATUS_PENDING here. On the
// off chance this fails with INSUFFICIENT_RESOURCES we do it here
// where we can still tolerate a failure.
//
if (Iosb.Status == STATUS_SUCCESS) {
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(ParentDcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_PARENT_OBJECT,
NULL,
NULL,
NULL );
}
//
// Get out if any of the oplock calls failed.
//
if (Iosb.Status != STATUS_SUCCESS) {
FatRaiseStatus( IrpContext, Iosb.Status );
}
#endif
//
// Tentatively add the new Ea's,
//
if (EaLength > 0) {
//
// This returns false if we are trying to create a file
// with Need Ea's and don't understand EA's.
//
FatCreateEa( IrpContext,
Dcb->Vcb,
(PUCHAR) EaBuffer,
EaLength,
&Dcb->ShortName.Name.Oem,
&EaHandle );
}
if (!FatIsFat32(Dcb->Vcb)) {
ShortDirent->ExtendedAttributes = EaHandle;
}
//
// After this point we cannot just simply mark the dirent deleted,
// we have to deal with the directory file object.
//
//
// Make the dirent into a directory. Note that even if this call
// raises because of disk space, the diectory file object has been
// created.
//
FatInitializeDirectoryDirent( IrpContext, Dcb, ShortDirent );
//
// Setup the context and section object pointers, and update
// our reference counts. Note that this call cannot fail.
//
FatSetFileObject( FileObject,
UserDirectoryOpen,
Dcb,
Ccb = FatCreateCcb( IrpContext ) );
//
// Initialize the LongFileName if it has not already been set, so that
// FatNotify below won't have to. If there are filesystem filters
// attached to FAT, the LongFileName could have gotten set if the
// filter queried for name information on this file object while
// watching the IO needed in FatInitializeDirectoryDirent.
//
if (Dcb->FullFileName.Buffer == NULL) {
FatSetFullNameInFcb( IrpContext, Dcb, UnicodeName );
}
//
// We call the notify package to report that the
// we added a file.
//
FatNotifyReportChange( IrpContext,
Vcb,
Dcb,
FILE_NOTIFY_CHANGE_DIR_NAME,
FILE_ACTION_ADDED );
//
// Setup our share access
//
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Dcb->ShareAccess );
//
// From this point on, nothing can raise.
//
Dcb->UncleanCount += 1;
Dcb->OpenCount += 1;
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
if (DeleteOnClose) {
SetFlag( Ccb->Flags, CCB_FLAG_DELETE_ON_CLOSE );
}
//
// And set our return status
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_CREATED;
} _SEH2_EXCEPT(FatExceptionFilter( IrpContext, _SEH2_GetExceptionInformation() )) {
//
// We'll catch all exceptions and handle them below.
//
Iosb.Status = IrpContext->ExceptionStatus;
} _SEH2_END;
//
// If we failed then undo our work.
//
if (!NT_SUCCESS( Iosb.Status )) {
//
// We always have to delete the Ccb if we created one.
//
if ( Ccb != NULL ) {
FatDeleteCcb( IrpContext, &Ccb );
}
#ifdef _MSC_VER
#pragma prefast( suppress: 28924, "prefast thinks this test is redundant, but DCB can be NULL depending on where we raise" )
#endif
if ( Dcb == NULL) {
NT_ASSERT( (ParentDcb->Specific.Dcb.UnusedDirentVbo == 0xffffffff) ||
RtlAreBitsSet( &ParentDcb->Specific.Dcb.FreeDirentBitmap,
DirentByteOffset / sizeof(DIRENT),
DirentsNeeded ) );
RtlClearBits( &ParentDcb->Specific.Dcb.FreeDirentBitmap,
DirentByteOffset / sizeof(DIRENT),
DirentsNeeded );
//
// Mark the dirents deleted. The codes is complex because of
// dealing with an LFN than crosses a page boundry.
//
if (Dirent != NULL) {
ULONG i;
//
// We failed before creating a directory file object.
// We can just mark the dirent deleted and exit.
//
for (i = 0; i < DirentsNeeded; i++) {
if (DirentFromPool == FALSE) {
//
// Simple case.
//
Dirent[i].FileName[0] = FAT_DIRENT_DELETED;
} else {
//
// If the second CcPreparePinWrite failed, we have
// to stop early.
//
if ((SecondPageBcb == NULL) &&
(i == DirentsInFirstPage)) {
break;
}
//
// Now conditionally update either page.
//
if (i < DirentsInFirstPage) {
FirstPageDirent[i].FileName[0] = FAT_DIRENT_DELETED;
} else {
SecondPageDirent[i - DirentsInFirstPage].FileName[0] = FAT_DIRENT_DELETED;
}
}
}
}
}
}
//
// Just drop the Bcbs we have in the parent right now so if we
// failed to create the directory and we take the path to rip apart
// the partially created child, when we sync-uninit we won't cause
// a lazy writer processing the parent to block on us. This would
// consume one of the lazy writers, one of which must be running free
// in order for us to come back from the sync-uninit.
//
// Neat, huh?
//
// Granted, the delete dirent below will be marginally less efficient
// since the Bcb may be reclaimed by the time it executes. Life is
// tough.
//
FatUnpinBcb( IrpContext, DirentBcb );
FatUnpinBcb( IrpContext, SecondPageBcb );
if (DirentFromPool) {
ExFreePool( Dirent );
}
if (!NT_SUCCESS( Iosb.Status )) {
#ifdef _MSC_VER
#pragma prefast( suppress: 28924, "prefast thinks this test is redundant, but DCB can be NULL depending on where we raise" )
#endif
if (Dcb != NULL) {
//
// We have created the Dcb. If an error occurred while
// creating the Ea's, there will be no directory file
// object.
//
PFILE_OBJECT DirectoryFileObject;
DirectoryFileObject = Dcb->Specific.Dcb.DirectoryFile;
//
// Knock down all of the repinned data so we can begin to destroy
// this failed child. We don't care about any raising here - we're
// already got a fire going.
//
// Note that if we failed to do this, the repinned initial pieces
// of the child would cause the sync-uninit to block forever.
//
// A previous spin on this fix had us not make the ./.. creation
// "reversible" (bad term) and thus avoid having the Bcb still
// outstanding. This wound up causing very bad things to happen
// on DMF floppies when we tried to do a similar yank-down in the
// create path - we want the purge it does to make sure we never
// try to write the bytes out ... it is just a lot cleaner to
// unpinrepin. I'll leave the reversible logic in place if it ever
// proves useful.
//
//
// There is a possibility that this may be a generally good idea
// for "live" finally clauses - set in ExceptionFilter, clear in
// ProcessException. Think about this.
//
SetFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_DISABLE_RAISE );
FatUnpinRepinnedBcbs( IrpContext );
ClearFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_DISABLE_RAISE );
if (Dcb->FirstClusterOfFile != 0) {
_SEH2_TRY {
Dcb->Header.FileSize.LowPart = 0;
CcSetFileSizes( Dcb->Specific.Dcb.DirectoryFile,
(PCC_FILE_SIZES)&Dcb->Header.AllocationSize );
//
// Now zap the allocation backing it.
//
FatTruncateFileAllocation( IrpContext, Dcb, 0 );
} _SEH2_EXCEPT(FatExceptionFilter( IrpContext, _SEH2_GetExceptionInformation() )) {
//
// We catch all exceptions that Fat catches, but don't do
// anything with them.
//
} _SEH2_END;
}
if (DirectoryFileObject != NULL) {
FatSyncUninitializeCacheMap( IrpContext,
DirectoryFileObject );
}
_SEH2_TRY {
//
// Remove the directory entry we made in the parent Dcb.
//
FatDeleteDirent( IrpContext, Dcb, NULL, TRUE );
//
// FatDeleteDirent can pin and dirty BCBs, so lets unrepin again.
//
FatUnpinRepinnedBcbs( IrpContext );
} _SEH2_EXCEPT(FatExceptionFilter( IrpContext, _SEH2_GetExceptionInformation() )) {
//
// We catch all exceptions that Fat catches, but don't do
// anything with them.
//
} _SEH2_END;
//
// Finaly, dereference the directory file object. This will
// cause a close Irp to be processed, blowing away the Fcb.
//
if (DirectoryFileObject != NULL) {
//
// Dereference the file object for this DCB. The DCB will
// go away when this file object is closed.
//
Dcb->Specific.Dcb.DirectoryFile = NULL;
ObDereferenceObject( DirectoryFileObject );
} else {
//
// This was also a PDK fix. If the stream file exists, this would
// be done during the dereference file object operation. Otherwise
// we have to remove the Dcb and check if we should remove the parent.
// For now we will just leave the parent lying around.
//
#ifdef _MSC_VER
#pragma prefast( suppress: 28924, "prefast thinks this test is redundant, but FileObject can be NULL depending on where we raise" )
#endif
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &Dcb );
}
}
DebugTrace(-1, Dbg, "FatCreateNewDirectory -> Iosb.Status = %08lx\n", Iosb.Status);
FatRaiseStatus( IrpContext, Iosb.Status );
}
UNREFERENCED_PARAMETER( EaBuffer );
UNREFERENCED_PARAMETER( EaLength );
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatCreateNewFile (
_In_ PIRP_CONTEXT IrpContext,
_In_ PIO_STACK_LOCATION IrpSp,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PVCB Vcb,
_Inout_ PDCB ParentDcb,
_In_ POEM_STRING OemName,
_In_ PUNICODE_STRING UnicodeName,
_In_ PACCESS_MASK DesiredAccess,
_In_ USHORT ShareAccess,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ PUNICODE_STRING LfnBuffer,
_In_ BOOLEAN IsPagingFile,
_In_ BOOLEAN NoEaKnowledge,
_In_ BOOLEAN DeleteOnClose,
_In_ BOOLEAN OpenRequiringOplock,
_In_ BOOLEAN TemporaryFile
)
/*++
Routine Description:
This routine creates a new file. The file has already been verified
not to exist yet.
Arguments:
FileObject - Supplies the file object for the newly created file
Vcb - Supplies the Vcb denote the volume to contain the new file
ParentDcb - Supplies the parent directory containg the newly created
File
OemName - Supplies the Oem name for the newly created file. It may
or maynot be 8.3 complient, but will be upcased.
UnicodeName - Supplies the Unicode name for the newly created file.
It may or maynot be 8.3 complient. This name contains the original
case information.
DesiredAccess - Supplies the desired access of the caller
ShareAccess - Supplies the shared access of the caller
AllocationSize - Supplies the initial allocation size for the file
EaBuffer - Supplies the Ea set for the newly created file
EaLength - Supplies the length, in bytes, of EaBuffer
FileAttributes - Supplies the file attributes for the newly created
file
LfnBuffer - A MAX_LFN sized buffer for directory searching
IsPagingFile - Indicates if this is the paging file being created
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
DeleteOnClose - The caller wants the file gone when the handle is closed
OpenRequiringOplock - The caller provided the FILE_OPEN_REQUIRING_OPLOCK option.
TemporaryFile - Signals the lazywriter to not write dirty data unless
absolutely has to.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
PFCB Fcb = NULL;
PDIRENT Dirent = NULL;
PBCB DirentBcb = NULL;
ULONG DirentsNeeded;
ULONG DirentByteOffset;
PDIRENT ShortDirent;
ULONG ShortDirentByteOffset;
USHORT EaHandle;
BOOLEAN AllLowerComponent;
BOOLEAN AllLowerExtension;
BOOLEAN CreateLfn;
ULONG BytesInFirstPage = 0;
ULONG DirentsInFirstPage = 0;
PDIRENT FirstPageDirent = NULL;
PBCB SecondPageBcb = NULL;
ULONG SecondPageOffset;
PDIRENT SecondPageDirent = NULL;
BOOLEAN DirentFromPool = FALSE;
OEM_STRING ShortName;
UCHAR ShortNameBuffer[12];
UNICODE_STRING UniTunneledShortName;
WCHAR UniTunneledShortNameBuffer[12];
UNICODE_STRING UniTunneledLongName;
WCHAR UniTunneledLongNameBuffer[26];
LARGE_INTEGER TunneledCreationTime;
ULONG TunneledDataSize;
BOOLEAN HaveTunneledInformation;
BOOLEAN UsingTunneledLfn = FALSE;
PUNICODE_STRING RealUnicodeName;
//
// The following variables are for abnormal termination
//
PDIRENT UnwindDirent = NULL;
PFCB UnwindFcb = NULL;
BOOLEAN UnwindAllocation = FALSE;
BOOLEAN CountsIncremented = FALSE;
PCCB UnwindCcb = NULL;
ULONG LocalAbnormalTermination = FALSE;
#if (NTDDI_VERSION < NTDDI_WIN7)
UNREFERENCED_PARAMETER( OpenRequiringOplock );
#endif
PAGED_CODE();
DebugTrace(+1, Dbg, "FatCreateNewFile...\n", 0);
ShortName.Length = 0;
ShortName.MaximumLength = sizeof(ShortNameBuffer);
ShortName.Buffer = (PCHAR)&ShortNameBuffer[0];
UniTunneledShortName.Length = 0;
UniTunneledShortName.MaximumLength = sizeof(UniTunneledShortNameBuffer);
UniTunneledShortName.Buffer = &UniTunneledShortNameBuffer[0];
UniTunneledLongName.Length = 0;
UniTunneledLongName.MaximumLength = sizeof(UniTunneledLongNameBuffer);
UniTunneledLongName.Buffer = &UniTunneledLongNameBuffer[0];
EaHandle = 0;
//
// We fail this operation if the caller doesn't understand Ea's.
//
if (NoEaKnowledge
&& EaLength > 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
DebugTrace(-1, Dbg, "FatCreateNewFile -> Iosb.Status = %08lx\n", Iosb.Status);
return Iosb;
}
//
// DeleteOnClose and ReadOnly are not compatible.
//
if (DeleteOnClose && FlagOn(FileAttributes, FAT_DIRENT_ATTR_READ_ONLY)) {
Iosb.Status = STATUS_CANNOT_DELETE;
return Iosb;
}
//
// Look in the tunnel cache for names and timestamps to restore
//
TunneledDataSize = sizeof(LARGE_INTEGER);
HaveTunneledInformation = FsRtlFindInTunnelCache( &Vcb->Tunnel,
FatDirectoryKey(ParentDcb),
UnicodeName,
&UniTunneledShortName,
&UniTunneledLongName,
&TunneledDataSize,
&TunneledCreationTime );
NT_ASSERT(TunneledDataSize == sizeof(LARGE_INTEGER));
//
// Now get the names that we will be using.
//
FatSelectNames( IrpContext,
ParentDcb,
OemName,
UnicodeName,
&ShortName,
(HaveTunneledInformation? &UniTunneledShortName : NULL),
&AllLowerComponent,
&AllLowerExtension,
&CreateLfn );
//
// If we are not in Chicago mode, ignore the magic bits.
//
RealUnicodeName = UnicodeName;
if (!FatData.ChicagoMode) {
AllLowerComponent = FALSE;
AllLowerExtension = FALSE;
CreateLfn = FALSE;
} else {
//
// If the Unicode name was legal for a short name and we got
// a tunneling hit which had a long name associated which is
// avaliable for use, use it.
//
if (!CreateLfn &&
UniTunneledLongName.Length &&
!FatLfnDirentExists(IrpContext, ParentDcb, &UniTunneledLongName, LfnBuffer)) {
UsingTunneledLfn = TRUE;
CreateLfn = TRUE;
RealUnicodeName = &UniTunneledLongName;
//
// Short names are always upcase if an LFN exists
//
AllLowerComponent = FALSE;
AllLowerExtension = FALSE;
}
}
//
// Create/allocate a new dirent
//
DirentsNeeded = CreateLfn ? FAT_LFN_DIRENTS_NEEDED(RealUnicodeName) + 1 : 1;
DirentByteOffset = FatCreateNewDirent( IrpContext,
ParentDcb,
DirentsNeeded,
FALSE );
_SEH2_TRY {
FatPrepareWriteDirectoryFile( IrpContext,
ParentDcb,
DirentByteOffset,
sizeof(DIRENT),
&DirentBcb,
#ifndef __REACTOS__
&Dirent,
#else
(PVOID *)&Dirent,
#endif
FALSE,
TRUE,
&Iosb.Status );
NT_ASSERT( NT_SUCCESS( Iosb.Status ) );
UnwindDirent = Dirent;
//
// Deal with the special case of an LFN + Dirent structure crossing
// a page boundry.
//
if ((DirentByteOffset / PAGE_SIZE) !=
((DirentByteOffset + (DirentsNeeded - 1) * sizeof(DIRENT)) / PAGE_SIZE)) {
SecondPageBcb;
SecondPageOffset;
SecondPageDirent;
SecondPageOffset = (DirentByteOffset & ~(PAGE_SIZE - 1)) + PAGE_SIZE;
BytesInFirstPage = SecondPageOffset - DirentByteOffset;
DirentsInFirstPage = BytesInFirstPage / sizeof(DIRENT);
FatPrepareWriteDirectoryFile( IrpContext,
ParentDcb,
SecondPageOffset,
sizeof(DIRENT),
&SecondPageBcb,
#ifndef __REACTOS__
&SecondPageDirent,
#else
(PVOID *)&SecondPageDirent,
#endif
FALSE,
TRUE,
&Iosb.Status );
NT_ASSERT( NT_SUCCESS( Iosb.Status ) );
FirstPageDirent = Dirent;
Dirent = FsRtlAllocatePoolWithTag( PagedPool,
DirentsNeeded * sizeof(DIRENT),
TAG_DIRENT );
DirentFromPool = TRUE;
}
//
// Bump up Dirent and DirentByteOffset
//
ShortDirent = Dirent + DirentsNeeded - 1;
ShortDirentByteOffset = DirentByteOffset +
(DirentsNeeded - 1) * sizeof(DIRENT);
NT_ASSERT( NT_SUCCESS( Iosb.Status ));
//
// Fill in the fields of the dirent.
//
FatConstructDirent( IrpContext,
ShortDirent,
&ShortName,
AllLowerComponent,
AllLowerExtension,
CreateLfn ? RealUnicodeName : NULL,
(FileAttributes | FILE_ATTRIBUTE_ARCHIVE),
TRUE,
(HaveTunneledInformation ? &TunneledCreationTime : NULL) );
//
// If the dirent crossed pages, we have to do some real gross stuff.
//
if (DirentFromPool) {
RtlCopyMemory( FirstPageDirent, Dirent, BytesInFirstPage );
RtlCopyMemory( SecondPageDirent,
Dirent + DirentsInFirstPage,
DirentsNeeded*sizeof(DIRENT) - BytesInFirstPage );
ShortDirent = SecondPageDirent + (DirentsNeeded - DirentsInFirstPage) - 1;
}
//
// Create a new Fcb for the file. Once the Fcb is created we
// will not need to unwind dirent because delete dirent will
// now do the work.
//
Fcb = UnwindFcb = FatCreateFcb( IrpContext,
Vcb,
ParentDcb,
DirentByteOffset,
ShortDirentByteOffset,
ShortDirent,
CreateLfn ? RealUnicodeName : NULL,
CreateLfn ? RealUnicodeName : NULL,
IsPagingFile,
FALSE );
UnwindDirent = NULL;
#if (NTDDI_VERSION >= NTDDI_WIN7)
//
// The next three FsRtl calls are for oplock work. We deliberately
// do these here so that if either call fails we will be able to
// clean up without adding a bunch of code to unwind counts, fix
// the file object, etc.
//
//
// Let's make sure that if the caller provided an oplock key that it
// gets stored in the file object.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_OPLOCK_KEY_CHECK_ONLY,
NULL,
NULL,
NULL );
//
// If the caller wants atomic create-with-oplock semantics, tell
// the oplock package. We haven't incremented the Fcb's UncleanCount
// for this create yet, so add that in on the call.
//
if (OpenRequiringOplock &&
(Iosb.Status == STATUS_SUCCESS)) {
Iosb.Status = FsRtlOplockFsctrl( FatGetFcbOplock(Fcb),
IrpContext->OriginatingIrp,
(Fcb->UncleanCount + 1) );
}
#endif
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// Break parent directory oplock. Directory oplock breaks are always
// advisory, so we will never block/get STATUS_PENDING here. On the
// off chance this fails with INSUFFICIENT_RESOURCES we do it here
// where we can still tolerate a failure.
//
if (Iosb.Status == STATUS_SUCCESS) {
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(ParentDcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_PARENT_OBJECT,
NULL,
NULL,
NULL );
}
//
// Get out if any of the oplock calls failed. We raise to provoke
// abnormal termination and ensure that the newly-created Fcb gets
// deleted.
//
if (Iosb.Status != STATUS_SUCCESS) {
FatRaiseStatus( IrpContext, Iosb.Status );
}
#endif
//
// If this is a temporary file, note it in the FcbState
//
if (TemporaryFile) {
SetFlag( Fcb->FcbState, FCB_STATE_TEMPORARY );
}
//
// Add some initial file allocation
//
FatAddFileAllocation( IrpContext, Fcb, FileObject, AllocationSize );
UnwindAllocation = TRUE;
Fcb->FcbState |= FCB_STATE_TRUNCATE_ON_CLOSE;
//
// Tentatively add the new Ea's
//
if ( EaLength > 0 ) {
FatCreateEa( IrpContext,
Fcb->Vcb,
(PUCHAR) EaBuffer,
EaLength,
&Fcb->ShortName.Name.Oem,
&EaHandle );
}
if (!FatIsFat32(Fcb->Vcb)) {
ShortDirent->ExtendedAttributes = EaHandle;
}
//
// Initialize the LongFileName right now so that FatNotify
// below won't have to.
//
if (Fcb->FullFileName.Buffer == NULL) {
FatSetFullNameInFcb( IrpContext, Fcb, RealUnicodeName );
}
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserFileOpen,
Fcb,
UnwindCcb = FatCreateCcb( IrpContext ));
FileObject->SectionObjectPointer = &Fcb->NonPaged->SectionObjectPointers;
//
// We call the notify package to report that the
// we added a file.
//
FatNotifyReportChange( IrpContext,
Vcb,
Fcb,
FILE_NOTIFY_CHANGE_FILE_NAME,
FILE_ACTION_ADDED );
//
// Setup our share access
//
IoSetShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&Fcb->ShareAccess );
Fcb->UncleanCount += 1;
Fcb->OpenCount += 1;
if (FlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) {
Fcb->NonCachedUncleanCount += 1;
}
Vcb->OpenFileCount += 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount += 1; }
CountsIncremented = TRUE;
//
// And set our return status
//
Iosb.Status = STATUS_SUCCESS;
Iosb.Information = FILE_CREATED;
if ( NT_SUCCESS(Iosb.Status) ) {
//
// Mark the DeleteOnClose bit if the operation was successful.
//
if ( DeleteOnClose ) {
SetFlag( UnwindCcb->Flags, CCB_FLAG_DELETE_ON_CLOSE );
}
//
// Mark the OpenedByShortName bit if the operation was successful.
// If we created an Lfn, we have some sort of generated short name
// and thus don't consider ourselves to have opened it - though we
// may have had a case mix Lfn "Foo.bar" and generated "FOO.BAR"
//
// Unless, of course, we wanted to create a short name and hit an
// associated Lfn in the tunnel cache
//
if ( !CreateLfn && !UsingTunneledLfn ) {
SetFlag( UnwindCcb->Flags, CCB_FLAG_OPENED_BY_SHORTNAME );
}
//
// Mark the ManageVolumeAccess bit if the privilege is held.
//
if (FatCheckManageVolumeAccess( IrpContext,
IrpSp->Parameters.Create.SecurityContext->AccessState,
(KPROCESSOR_MODE)( FlagOn( IrpSp->Flags, SL_FORCE_ACCESS_CHECK ) ?
UserMode :
IrpContext->OriginatingIrp->RequestorMode ))) {
SetFlag( UnwindCcb->Flags, CCB_FLAG_MANAGE_VOLUME_ACCESS );
}
}
} _SEH2_FINALLY {
DebugUnwind( FatCreateNewFile );
if (UniTunneledLongName.Buffer != UniTunneledLongNameBuffer) {
//
// Tunneling package grew the buffer from pool
//
ExFreePool( UniTunneledLongName.Buffer );
}
//
// If this is an abnormal termination then undo our work.
//
// The extra exception handling here is complex. We've got
// two places here where an exception can be thrown again.
//
LocalAbnormalTermination = _SEH2_AbnormalTermination();
if (LocalAbnormalTermination) {
if (CountsIncremented) {
Fcb->UncleanCount -= 1;
Fcb->OpenCount -= 1;
if (FlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) {
Fcb->NonCachedUncleanCount -= 1;
}
Vcb->OpenFileCount -= 1;
if (IsFileObjectReadOnly(FileObject)) { Vcb->ReadOnlyCount -= 1; }
}
if (UnwindFcb == NULL) {
NT_ASSERT( (ParentDcb->Specific.Dcb.UnusedDirentVbo == 0xffffffff) ||
RtlAreBitsSet( &ParentDcb->Specific.Dcb.FreeDirentBitmap,
DirentByteOffset / sizeof(DIRENT),
DirentsNeeded ) );
RtlClearBits( &ParentDcb->Specific.Dcb.FreeDirentBitmap,
DirentByteOffset / sizeof(DIRENT),
DirentsNeeded );
}
//
// Mark the dirents deleted. The code is complex because of
// dealing with an LFN that crosses a page boundary.
//
if (UnwindDirent != NULL) {
ULONG i;
for (i = 0; i < DirentsNeeded; i++) {
if (DirentFromPool == FALSE) {
//
// Simple case.
//
Dirent[i].FileName[0] = FAT_DIRENT_DELETED;
} else {
//
// If the second CcPreparePinWrite failed, we have
// to stop early.
//
if ((SecondPageBcb == NULL) &&
(i == DirentsInFirstPage)) {
break;
}
//
// Now conditionally update either page.
//
if (i < DirentsInFirstPage) {
FirstPageDirent[i].FileName[0] = FAT_DIRENT_DELETED;
} else {
SecondPageDirent[i - DirentsInFirstPage].FileName[0] = FAT_DIRENT_DELETED;
}
}
}
}
}
//
// We must handle exceptions in the following fragments and plow on with the
// unwind of this create operation. This is basically inverted from the
// previous state of the code. Since AbnormalTermination() changes when we
// enter a new enclosure, we cached the original state ...
//
_SEH2_TRY {
if (LocalAbnormalTermination) {
if (UnwindAllocation) {
FatTruncateFileAllocation( IrpContext, Fcb, 0 );
}
}
} _SEH2_FINALLY {
_SEH2_TRY {
if (LocalAbnormalTermination) {
if (UnwindFcb != NULL) {
FatDeleteDirent( IrpContext, UnwindFcb, NULL, TRUE );
}
}
} _SEH2_FINALLY {
if (LocalAbnormalTermination) {
if (UnwindFcb != NULL) {
if (ARGUMENT_PRESENT( FileObject )) {
FileObject->SectionObjectPointer = NULL;
}
FatDeleteFcb( IrpContext, &UnwindFcb );
}
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
}
//
// This is the normal cleanup code.
//
FatUnpinBcb( IrpContext, DirentBcb );
FatUnpinBcb( IrpContext, SecondPageBcb );
if (DirentFromPool) {
ExFreePool( Dirent );
}
} _SEH2_END;
} _SEH2_END;
DebugTrace(-1, Dbg, "FatCreateNewFile -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
//
// Internal support routine
//
_Requires_lock_held_(_Global_critical_region_)
IO_STATUS_BLOCK
FatSupersedeOrOverwriteFile (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFILE_OBJECT FileObject,
_Inout_ PFCB Fcb,
_In_ ULONG AllocationSize,
_In_ PFILE_FULL_EA_INFORMATION EaBuffer,
_In_ ULONG EaLength,
_In_ USHORT FileAttributes,
_In_ ULONG CreateDisposition,
_In_ BOOLEAN NoEaKnowledge
)
/*++
Routine Description:
This routine performs a file supersede or overwrite operation.
Arguments:
FileObject - Supplies a pointer to the file object
Fcb - Supplies a pointer to the Fcb
AllocationSize - Supplies an initial allocation size
EaBuffer - Supplies the Ea set for the superseded/overwritten file
EaLength - Supplies the length, in bytes, of EaBuffer
FileAttributes - Supplies the supersede/overwrite file attributes
CreateDisposition - Supplies the create disposition for the file
It must be either supersede, overwrite, or overwrite if.
NoEaKnowledge - This opener doesn't understand Ea's and we fail this
open if the file has NeedEa's.
Return Value:
IO_STATUS_BLOCK - Returns the completion status for the operation
--*/
{
#ifndef __REACTOS__
IO_STATUS_BLOCK Iosb = {0};
#else
IO_STATUS_BLOCK Iosb = {{0}};
#endif
PDIRENT Dirent;
PBCB DirentBcb;
USHORT EaHandle = 0;
BOOLEAN EaChange = FALSE;
BOOLEAN ReleasePaging = FALSE;
PCCB Ccb;
ULONG NotifyFilter;
ULONG HeaderSize = 0;
#ifndef __REACTOS__
LARGE_INTEGER AllocSize = {0};
#else
LARGE_INTEGER AllocSize = {.LowPart = 0, .HighPart = 0};
#endif
//
// The following variables are for abnormal termination
//
PCCB UnwindCcb = NULL;
USHORT UnwindEa = 0;
PAGED_CODE();
DebugTrace(+1, Dbg, "FatSupersedeOrOverwriteFile...\n", 0);
DirentBcb = NULL;
//
// We fail this operation if the caller doesn't understand Ea's.
//
if (NoEaKnowledge
&& EaLength > 0) {
Iosb.Status = STATUS_ACCESS_DENIED;
DebugTrace(-1, Dbg, "FatSupersedeOrOverwriteFile -> Iosb.Status = %08lx\n", Iosb.Status);
return Iosb;
}
_SEH2_TRY {
//
// Before we actually truncate, check to see if the purge
// is going to fail.
//
if (!MmCanFileBeTruncated( &Fcb->NonPaged->SectionObjectPointers,
&FatLargeZero )) {
try_return( Iosb.Status = STATUS_USER_MAPPED_FILE );
}
//
// Setup the context and section object pointers, and update
// our reference counts
//
FatSetFileObject( FileObject,
UserFileOpen,
Fcb,
Ccb = UnwindCcb = FatCreateCcb( IrpContext ));
FileObject->SectionObjectPointer = &Fcb->NonPaged->SectionObjectPointers;
//
// Since this is an supersede/overwrite, purge the section so
// that mappers will see zeros. We set the CREATE_IN_PROGRESS flag
// to prevent the Fcb from going away out from underneath us.
//
SetFlag(Fcb->Vcb->VcbState, VCB_STATE_FLAG_CREATE_IN_PROGRESS);
CcPurgeCacheSection( &Fcb->NonPaged->SectionObjectPointers, NULL, 0, FALSE );
//
// Tentatively add the new Ea's
//
if (EaLength > 0) {
FatCreateEa( IrpContext,
Fcb->Vcb,
(PUCHAR) EaBuffer,
EaLength,
&Fcb->ShortName.Name.Oem,
&EaHandle );
UnwindEa = EaHandle;
EaChange = TRUE;
}
#if (NTDDI_VERSION >= NTDDI_WIN8)
//
// Break parent directory oplock. Directory oplock breaks are always
// advisory, so we will never block/get STATUS_PENDING here. On the
// off chance this fails with INSUFFICIENT_RESOURCES we do it here
// where we can still tolerate a failure.
//
Iosb.Status = FsRtlCheckOplockEx( FatGetFcbOplock(Fcb->ParentDcb),
IrpContext->OriginatingIrp,
OPLOCK_FLAG_PARENT_OBJECT,
NULL,
NULL,
NULL );
if (Iosb.Status != STATUS_SUCCESS) {
FatRaiseStatus( IrpContext, Iosb.Status );
}
#endif
//
// Now set the new allocation size, we do that by first
// zeroing out the current file size. Then we truncate and
// allocate up to the new allocation size
//
(VOID)ExAcquireResourceExclusiveLite( Fcb->Header.PagingIoResource, TRUE );
ReleasePaging = TRUE;
Fcb->Header.FileSize.LowPart = 0;
Fcb->Header.ValidDataLength.LowPart = 0;
Fcb->ValidDataToDisk = 0;
//
// Validate that the allocation size will work.
//
AllocSize.QuadPart = AllocationSize;
if (!FatIsIoRangeValid( Fcb->Vcb, AllocSize, 0 )) {
DebugTrace(-1, Dbg, "Illegal allocation size\n", 0);
FatRaiseStatus( IrpContext, STATUS_DISK_FULL );
}
//
// Tell the cache manager the size went to zero
// This call is unconditional, because MM always wants to know.
//
CcSetFileSizes( FileObject,
(PCC_FILE_SIZES)&Fcb->Header.AllocationSize );
FatTruncateFileAllocation( IrpContext, Fcb, AllocationSize+HeaderSize );
ExReleaseResourceLite( Fcb->Header.PagingIoResource );
ReleasePaging = FALSE;
FatAddFileAllocation( IrpContext, Fcb, FileObject, AllocationSize+HeaderSize );
Fcb->FcbState |= FCB_STATE_TRUNCATE_ON_CLOSE;
//
// Modify the attributes and time of the file, by first reading
// in the dirent for the file and then updating its attributes
// and time fields. Note that for supersede we replace the file
// attributes as opposed to adding to them.
//
FatGetDirentFromFcbOrDcb( IrpContext,
Fcb,
FALSE,
&Dirent,
&DirentBcb );
//
// We should get the dirent since this Fcb is in good condition, verified as
// we crawled down the prefix tree.
//
// Update the appropriate dirent fields, and the fcb fields
//
Dirent->FileSize = 0;
FileAttributes |= FILE_ATTRIBUTE_ARCHIVE;
if (CreateDisposition == FILE_SUPERSEDE) {
Dirent->Attributes = (UCHAR)FileAttributes;
} else {
Dirent->Attributes |= (UCHAR)FileAttributes;
}
Fcb->DirentFatFlags = Dirent->Attributes;
KeQuerySystemTime( &Fcb->LastWriteTime );
(VOID)FatNtTimeToFatTime( IrpContext,
&Fcb->LastWriteTime,
TRUE,
&Dirent->LastWriteTime,
NULL );
if (FatData.ChicagoMode) {
Dirent->LastAccessDate = Dirent->LastWriteTime.Date;
}
NotifyFilter = FILE_NOTIFY_CHANGE_LAST_WRITE
| FILE_NOTIFY_CHANGE_ATTRIBUTES
| FILE_NOTIFY_CHANGE_SIZE;
//
// And now delete the previous Ea set if there was one.
//
if (!FatIsFat32(Fcb->Vcb) && Dirent->ExtendedAttributes != 0) {
//
// **** SDK fix, we won't fail this if there is
// an error in the Ea's, we'll just leave
// the orphaned Ea's in the file.
//
EaChange = TRUE;
_SEH2_TRY {
FatDeleteEa( IrpContext,
Fcb->Vcb,
Dirent->ExtendedAttributes,
&Fcb->ShortName.Name.Oem );
} _SEH2_EXCEPT( EXCEPTION_EXECUTE_HANDLER ) {
FatResetExceptionState( IrpContext );
} _SEH2_END;
}
//
// Update the extended attributes handle in the dirent.
//
if (EaChange) {
NT_ASSERT(!FatIsFat32(Fcb->Vcb));
Dirent->ExtendedAttributes = EaHandle;
NotifyFilter |= FILE_NOTIFY_CHANGE_EA;
}
//
// Now update the dirent to the new ea handle and set the bcb dirty
// Once we do this we can no longer back out the Ea
//
FatSetDirtyBcb( IrpContext, DirentBcb, Fcb->Vcb, TRUE );
UnwindEa = 0;
//
// Indicate that the Eas for this file have changed.
//
Ccb->EaModificationCount += Fcb->EaModificationCount;
//
// Check to see if we need to notify outstanding Irps for full
// changes only (i.e., we haven't added, deleted, or renamed the file).
//
FatNotifyReportChange( IrpContext,
Fcb->Vcb,
Fcb,
NotifyFilter,
FILE_ACTION_MODIFIED );
//
// And set our status to success
//
Iosb.Status = STATUS_SUCCESS;
if (CreateDisposition == FILE_SUPERSEDE) {
Iosb.Information = FILE_SUPERSEDED;
} else {
Iosb.Information = FILE_OVERWRITTEN;
}
try_exit: NOTHING;
} _SEH2_FINALLY {
DebugUnwind( FatSupersedeOfOverwriteFile );
if (ReleasePaging) { ExReleaseResourceLite( Fcb->Header.PagingIoResource ); }
//
// If this is an abnormal termination then undo our work.
//
if (_SEH2_AbnormalTermination()) {
if (UnwindEa != 0) { FatDeleteEa( IrpContext, Fcb->Vcb, UnwindEa, &Fcb->ShortName.Name.Oem ); }
if (UnwindCcb != NULL) { FatDeleteCcb( IrpContext, &UnwindCcb ); }
}
FatUnpinBcb( IrpContext, DirentBcb );
ClearFlag(Fcb->Vcb->VcbState, VCB_STATE_FLAG_CREATE_IN_PROGRESS);
DebugTrace(-1, Dbg, "FatSupersedeOrOverwriteFile -> Iosb.Status = %08lx\n", Iosb.Status);
} _SEH2_END;
return Iosb;
}
VOID
FatSetFullNameInFcb (
_In_ PIRP_CONTEXT IrpContext,
_Inout_ PFCB Fcb,
_In_ PUNICODE_STRING FinalName
)
/*++
Routine Description:
This routine attempts a quick form of the full FatSetFullFileNameInFcb
operation.
NOTE: this routine is probably not worth the code duplication involved,
and is not equipped to handle the cases where the parent doesn't have
the full name set up.
Arguments:
Fcb - Supplies a pointer to the Fcb
FinalName - Supplies the last component of the path to this Fcb's dirent
Return Value:
None. May silently fail.
--*/
{
PAGED_CODE();
UNREFERENCED_PARAMETER( IrpContext );
NT_ASSERT( Fcb->FullFileName.Buffer == NULL );
//
// Prefer the ExactCaseLongName of the file for this operation, if set. In
// this way we avoid building the fullname with a short filename. Several
// operations assume this - the FinalNameLength in particular is the Lfn
// (if existant) length, and we use this to crack the fullname in paths
// such as the FsRtlNotify caller.
//
// If the caller specified a particular name and it is short, it is the
// case that the long name was set up.
//
if (Fcb->ExactCaseLongName.Buffer) {
NT_ASSERT( Fcb->ExactCaseLongName.Length != 0 );
FinalName = &Fcb->ExactCaseLongName;
}
//
// Special case the root.
//
if (NodeType(Fcb->ParentDcb) == FAT_NTC_ROOT_DCB) {
Fcb->FullFileName.Length =
Fcb->FullFileName.MaximumLength = sizeof(WCHAR) + FinalName->Length;
Fcb->FullFileName.Buffer = FsRtlAllocatePoolWithTag( PagedPool,
Fcb->FullFileName.Length,
TAG_FILENAME_BUFFER );
Fcb->FullFileName.Buffer[0] = L'\\';
RtlCopyMemory( &Fcb->FullFileName.Buffer[1],
&FinalName->Buffer[0],
FinalName->Length );
} else {
PUNICODE_STRING Prefix;
Prefix = &Fcb->ParentDcb->FullFileName;
//
// It is possible our parent's full filename is not set. Simply fail
// this attempt.
//
if (Prefix->Buffer == NULL) {
return;
}
Fcb->FullFileName.Length =
Fcb->FullFileName.MaximumLength = Prefix->Length + sizeof(WCHAR) + FinalName->Length;
Fcb->FullFileName.Buffer = FsRtlAllocatePoolWithTag( PagedPool,
Fcb->FullFileName.Length,
TAG_FILENAME_BUFFER );
RtlCopyMemory( &Fcb->FullFileName.Buffer[0],
&Prefix->Buffer[0],
Prefix->Length );
Fcb->FullFileName.Buffer[Prefix->Length / sizeof(WCHAR)] = L'\\';
RtlCopyMemory( &Fcb->FullFileName.Buffer[(Prefix->Length / sizeof(WCHAR)) + 1],
&FinalName->Buffer[0],
FinalName->Length );
}
}
NTSTATUS
FatCheckSystemSecurityAccess (
_In_ PIRP_CONTEXT IrpContext
)
{
PACCESS_STATE AccessState;
PIO_STACK_LOCATION IrpSp = IoGetCurrentIrpStackLocation( IrpContext->OriginatingIrp );
PAGED_CODE();
//
// We check if the caller wants ACCESS_SYSTEM_SECURITY access on this
// object and fail the request if he does.
//
NT_ASSERT( IrpSp->Parameters.Create.SecurityContext != NULL );
AccessState = IrpSp->Parameters.Create.SecurityContext->AccessState;
//
// Check if the remaining privilege includes ACCESS_SYSTEM_SECURITY.
//
if (FlagOn( AccessState->RemainingDesiredAccess, ACCESS_SYSTEM_SECURITY )) {
if (!SeSinglePrivilegeCheck( FatSecurityPrivilege,
UserMode )) {
return STATUS_ACCESS_DENIED;
}
//
// Move this privilege from the Remaining access to Granted access.
//
ClearFlag( AccessState->RemainingDesiredAccess, ACCESS_SYSTEM_SECURITY );
SetFlag( AccessState->PreviouslyGrantedAccess, ACCESS_SYSTEM_SECURITY );
}
return STATUS_SUCCESS;
}
NTSTATUS
FatCheckShareAccess (
_In_ PIRP_CONTEXT IrpContext,
_In_ PFILE_OBJECT FileObject,
_In_ PFCB FcbOrDcb,
_In_ PACCESS_MASK DesiredAccess,
_In_ ULONG ShareAccess
)
/*++
Routine Description:
This routine checks conditions that may result in a sharing violation.
Arguments:
FileObject - Pointer to the file object of the current open request.
FcbOrDcb - Supplies a pointer to the Fcb/Dcb.
DesiredAccess - Desired access of current open request.
ShareAccess - Shared access requested by current open request.
Return Value:
If the accessor has access to the file, STATUS_SUCCESS is returned.
Otherwise, STATUS_SHARING_VIOLATION is returned.
--*/
{
PAGED_CODE();
#if (NTDDI_VERSION >= NTDDI_VISTA)
//
// Do an extra test for writeable user sections if the user did not allow
// write sharing - this is neccessary since a section may exist with no handles
// open to the file its based against.
//
if ((NodeType( FcbOrDcb ) == FAT_NTC_FCB) &&
!FlagOn( ShareAccess, FILE_SHARE_WRITE ) &&
FlagOn( *DesiredAccess, FILE_EXECUTE | FILE_READ_DATA | FILE_WRITE_DATA | FILE_APPEND_DATA | DELETE | MAXIMUM_ALLOWED ) &&
MmDoesFileHaveUserWritableReferences( &FcbOrDcb->NonPaged->SectionObjectPointers )) {
return STATUS_SHARING_VIOLATION;
}
#endif
//
// Check if the Fcb has the proper share access.
//
return IoCheckShareAccess( *DesiredAccess,
ShareAccess,
FileObject,
&FcbOrDcb->ShareAccess,
FALSE );
UNREFERENCED_PARAMETER( IrpContext );
}
//
// Lifted from NTFS.
//
NTSTATUS
FatCallSelfCompletionRoutine (
__in PDEVICE_OBJECT DeviceObject,
__in PIRP Irp,
__in PVOID Contxt
)
{
//
// Set the event so that our call will wake up.
//
KeSetEvent( (PKEVENT)Contxt, 0, FALSE );
UNREFERENCED_PARAMETER( DeviceObject );
UNREFERENCED_PARAMETER( Irp );
//
// If we change this return value then FatIoCallSelf needs to reference the
// file object.
//
return STATUS_MORE_PROCESSING_REQUIRED;
}