windows-nt/Source/XPSP1/NT/base/fs/ntfs/ntfsproc.h
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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
NtfsProc.h
Abstract:
This module defines all of the globally used procedures in the Ntfs
file system.
Author:
Brian Andrew [BrianAn] 21-May-1991
David Goebel [DavidGoe]
Gary Kimura [GaryKi]
Tom Miller [TomM]
Revision History:
--*/
#ifndef _NTFSPROC_
#define _NTFSPROC_
#pragma warning(error:4100) // Unreferenced formal parameter
#pragma warning(error:4101) // Unreferenced local variable
#pragma warning(error:4705) // Statement has no effect
#pragma warning(disable:4116) // unnamed type definition in parentheses
#define RTL_USE_AVL_TABLES 0
#ifndef KDEXTMODE
#include <ntifs.h>
#else
#include <ntos.h>
#include <zwapi.h>
#include <FsRtl.h>
#include <ntrtl.h>
#endif
#include <string.h>
#include <lfs.h>
#include <ntdddisk.h>
#include <NtIoLogc.h>
#include <elfmsg.h>
#include "nodetype.h"
#include "Ntfs.h"
#ifndef INLINE
// definition of inline
#define INLINE __inline
#endif
#include <ntfsexp.h>
#include "NtfsStru.h"
#include "NtfsData.h"
#include "NtfsLog.h"
//
// Tag all of our allocations if tagging is turned on
//
//
// Default module pool tag
//
#define MODULE_POOL_TAG ('0ftN')
#if 0
#define NtfsVerifySizes(s) (ASSERT( (s)->ValidDataLength.QuadPart <= (s)->FileSize.QuadPart && (s)->FileSize.QuadPart <= (s)->AllocationSize.QuadPart ))
#define NtfsVerifySizesLongLong(s) (ASSERT( (s)->ValidDataLength <= (s)->FileSize && (s)->FileSize <= (s)->AllocationSize ))
#else // !DBG
#define NtfsVerifySizes(s)
#define NtfsVerifySizesLongLong(s)
#endif // !DBG
#if !(DBG && i386 && defined (NTFSPOOLCHECK))
//
// Non-debug allocate and free goes directly to the FsRtl routines
//
#define NtfsAllocatePoolWithTagNoRaise(a,b,c) ExAllocatePoolWithTag((a),(b),(c))
#define NtfsAllocatePoolWithTag(a,b,c) FsRtlAllocatePoolWithTag((a),(b),(c))
#define NtfsAllocatePoolNoRaise(a,b) ExAllocatePoolWithTag((a),(b),MODULE_POOL_TAG)
#define NtfsAllocatePool(a,b) FsRtlAllocatePoolWithTag((a),(b),MODULE_POOL_TAG)
#define NtfsFreePool(pv) ExFreePool(pv)
#else // !DBG
//
// Debugging routines capture the stack backtrace for allocates and frees
//
#define NtfsAllocatePoolWithTagNoRaise(a,b,c) NtfsDebugAllocatePoolWithTagNoRaise((a),(b),(c))
#define NtfsAllocatePoolWithTag(a,b,c) NtfsDebugAllocatePoolWithTag((a),(b),(c))
#define NtfsAllocatePoolNoRaise(a,b) NtfsDebugAllocatePoolWithTagNoRaise((a),(b),MODULE_POOL_TAG)
#define NtfsAllocatePool(a,b) NtfsDebugAllocatePoolWithTag((a),(b),MODULE_POOL_TAG)
#define NtfsFreePool(pv) NtfsDebugFreePool(pv)
PVOID
NtfsDebugAllocatePoolWithTagNoRaise (
POOL_TYPE Pool,
ULONG Length,
ULONG Tag);
PVOID
NtfsDebugAllocatePoolWithTag (
POOL_TYPE Pool,
ULONG Length,
ULONG Tag);
VOID
NtfsDebugFreePool (
PVOID pv);
VOID
NtfsDebugHeapDump (
PUNICODE_STRING UnicodeString );
#endif // !DBG
//
// Local character comparison macros that we might want to later move to ntfsproc
//
#define IsCharZero(C) (((C) & 0x000000ff) == 0x00000000)
#define IsCharMinus1(C) (((C) & 0x000000ff) == 0x000000ff)
#define IsCharLtrZero(C) (((C) & 0x00000080) == 0x00000080)
#define IsCharGtrZero(C) (!IsCharLtrZero(C) && !IsCharZero(C))
//
// The following two macro are used to find the first byte to really store
// in the mapping pairs. They take as input a pointer to the LargeInteger we are
// trying to store and a pointer to a character pointer. The character pointer
// on return points to the first byte that we need to output. That's we skip
// over the high order 0x00 or 0xff bytes.
//
typedef struct _SHORT2 {
USHORT LowPart;
USHORT HighPart;
} SHORT2, *PSHORT2;
typedef struct _CHAR2 {
UCHAR LowPart;
UCHAR HighPart;
} CHAR2, *PCHAR2;
#define GetPositiveByte(LI,CP) { \
*(CP) = (PCHAR)(LI); \
if ((LI)->HighPart != 0) { *(CP) += 4; } \
if (((PSHORT2)(*(CP)))->HighPart != 0) { *(CP) += 2; } \
if (((PCHAR2)(*(CP)))->HighPart != 0) { *(CP) += 1; } \
if (IsCharLtrZero(*(*CP))) { *(CP) += 1; } \
}
#define GetNegativeByte(LI,CP) { \
*(CP) = (PCHAR)(LI); \
if ((LI)->HighPart != 0xffffffff) { *(CP) += 4; } \
if (((PSHORT2)(*(CP)))->HighPart != 0xffff) { *(CP) += 2; } \
if (((PCHAR2)(*(CP)))->HighPart != 0xff) { *(CP) += 1; } \
if (!IsCharLtrZero(*(*CP))) { *(CP) += 1; } \
}
//
// Flag macros
//
// ULONG
// FlagOn (
// IN ULONG Flags,
// IN ULONG SingleFlag
// );
//
// BOOLEAN
// BooleanFlagOn (
// IN ULONG Flags,
// IN ULONG SingleFlag
// );
//
// VOID
// SetFlag (
// IN ULONG Flags,
// IN ULONG SingleFlag
// );
//
// VOID
// ClearFlag (
// IN ULONG Flags,
// IN ULONG SingleFlag
// );
//
#ifdef KDEXTMODE
#ifndef FlagOn
#define FlagOn(F,SF) ( \
(((F) & (SF))) \
)
#endif
#endif
//#ifndef BooleanFlagOn
//#define BooleanFlagOn(F,SF) ( \
// (BOOLEAN)(((F) & (SF)) != 0) \
//)
//#endif
//#ifndef SetFlag
//#define SetFlag(F,SF) { \
// (F) |= (SF); \
//}
//#endif
//#ifndef ClearFlag
//#define ClearFlag(F,SF) { \
// (F) &= ~(SF); \
//}
//#endif
//
// The following two macro are used by the Fsd/Fsp exception handlers to
// process an exception. The first macro is the exception filter used in the
// Fsd/Fsp to decide if an exception should be handled at this level.
// The second macro decides if the exception is to be finished off by
// completing the IRP, and cleaning up the Irp Context, or if we should
// bugcheck. Exception values such as STATUS_FILE_INVALID (raised by
// VerfySup.c) cause us to complete the Irp and cleanup, while exceptions
// such as accvio cause us to bugcheck.
//
// The basic structure for fsd/fsp exception handling is as follows:
//
// NtfsFsdXxx(..)
// {
// try {
//
// ..
//
// } except(NtfsExceptionFilter( IrpContext, GetExceptionRecord() )) {
//
// Status = NtfsProcessException( IrpContext, Irp, GetExceptionCode() );
// }
//
// Return Status;
// }
//
// To explicitly raise an exception that we expect, such as
// STATUS_FILE_INVALID, use the below macro NtfsRaiseStatus). To raise a
// status from an unknown origin (such as CcFlushCache()), use the macro
// NtfsNormalizeAndRaiseStatus. This will raise the status if it is expected,
// or raise STATUS_UNEXPECTED_IO_ERROR if it is not.
//
// Note that when using these two macros, the original status is placed in
// IrpContext->ExceptionStatus, signaling NtfsExceptionFilter and
// NtfsProcessException that the status we actually raise is by definition
// expected.
//
LONG
NtfsExceptionFilter (
IN PIRP_CONTEXT IrpContext,
IN PEXCEPTION_POINTERS ExceptionPointer
);
NTSTATUS
NtfsProcessException (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp OPTIONAL,
IN NTSTATUS ExceptionCode
);
VOID
DECLSPEC_NORETURN
NtfsRaiseStatus (
IN PIRP_CONTEXT IrpContext,
IN NTSTATUS Status,
IN PFILE_REFERENCE FileReference OPTIONAL,
IN PFCB Fcb OPTIONAL
);
ULONG
NtfsRaiseStatusFunction (
IN PIRP_CONTEXT IrpContext,
IN NTSTATUS Status
);
//
// VOID
// NtfsNormalAndRaiseStatus (
// IN PRIP_CONTEXT IrpContext,
// IN NT_STATUS Status
// IN NT_STATUS NormalStatus
// );
//
#define NtfsNormalizeAndRaiseStatus(IC,STAT,NOR_STAT) { \
(IC)->ExceptionStatus = (STAT); \
ExRaiseStatus(FsRtlNormalizeNtstatus((STAT),NOR_STAT)); \
}
//
// Informational popup routine.
//
VOID
NtfsRaiseInformationHardError (
IN PIRP_CONTEXT IrpContext,
IN NTSTATUS Status,
IN PFILE_REFERENCE FileReference OPTIONAL,
IN PFCB Fcb OPTIONAL
);
//
// Allocation support routines, implemented in AllocSup.c
//
// These routines are for querying, allocating and truncating clusters
// for individual data streams.
//
//
// Syscache debugging support - Main current define these are triggered on is
// SYSCACHE_DEBUG
//
#if (defined(NTFS_RWCMP_TRACE) || defined(SYSCACHE) || defined(NTFS_RWC_DEBUG) || defined(SYSCACHE_DEBUG))
BOOLEAN
FsRtlIsSyscacheFile (
IN PFILE_OBJECT FileObject
);
//
// Depreciated verification routine leftover from tomm's original debugging code
//
VOID
FsRtlVerifySyscacheData (
IN PFILE_OBJECT FileObject,
IN PVOID Buffer,
IN ULONG Length,
IN ULONG Offset
);
ULONG
FsRtlLogSyscacheEvent (
IN PSCB Scb,
IN ULONG Event,
IN ULONG Flags,
IN LONGLONG Start,
IN LONGLONG Range,
IN LONGLONG Result
);
VOID
FsRtlUpdateSyscacheEvent (
IN PSCB Scb,
IN ULONG EntryNumber,
IN LONGLONG Result,
IN ULONG NewFlag
);
#define ScbIsBeingLogged( S ) (((S)->SyscacheLogEntryCount != 0) && (NtfsSyscacheLogSet[(S)->LogSetNumber].Scb == (S)))
#endif
//
// The following routine takes an Vbo and returns the lbo and size of
// the run corresponding to the Vbo. It function result is TRUE if
// the Vbo has a valid Lbo mapping and FALSE otherwise.
//
ULONG
NtfsPreloadAllocation (
IN PIRP_CONTEXT IrpContext,
IN OUT PSCB Scb,
IN VCN StartingVcn,
IN VCN EndingVcn
);
BOOLEAN
NtfsLookupAllocation (
IN PIRP_CONTEXT IrpContext,
IN OUT PSCB Scb,
IN VCN Vcn,
OUT PLCN Lcn,
OUT PLONGLONG ClusterCount,
OUT PVOID *RangePtr OPTIONAL,
OUT PULONG RunIndex OPTIONAL
);
BOOLEAN
NtfsIsRangeAllocated (
IN PSCB Scb,
IN VCN StartVcn,
IN VCN FinalCluster,
IN BOOLEAN RoundToSparseUnit,
OUT PLONGLONG ClusterCount
);
//
// The following two routines modify the allocation of a data stream
// represented by an Scb.
//
BOOLEAN
NtfsAllocateAttribute (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN ATTRIBUTE_TYPE_CODE AttributeTypeCode,
IN PUNICODE_STRING AttributeName OPTIONAL,
IN USHORT AttributeFlags,
IN BOOLEAN AllocateAll,
IN BOOLEAN LogIt,
IN LONGLONG Size,
IN PATTRIBUTE_ENUMERATION_CONTEXT NewLocation OPTIONAL
);
VOID
NtfsAddAllocation (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject OPTIONAL,
IN OUT PSCB Scb,
IN VCN StartingVcn,
IN LONGLONG ClusterCount,
IN LOGICAL AskForMore,
IN OUT PCCB CcbForWriteExtend OPTIONAL
);
VOID
NtfsAddSparseAllocation (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject OPTIONAL,
IN OUT PSCB Scb,
IN LONGLONG StartingOffset,
IN LONGLONG ByteCount
);
VOID
NtfsDeleteAllocation (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject OPTIONAL,
IN OUT PSCB Scb,
IN VCN StartingVcn,
IN VCN EndingVcn,
IN BOOLEAN LogIt,
IN BOOLEAN BreakupAllowed
);
VOID
NtfsReallocateRange (
IN PIRP_CONTEXT IrpContext,
IN OUT PSCB Scb,
IN VCN DeleteVcn,
IN LONGLONG DeleteCount,
IN VCN AllocateVcn,
IN LONGLONG AllocateCount,
IN PLCN TargetLcn OPTIONAL
);
//
// Routines for Mcb to Mapping Pairs operations
//
ULONG
NtfsGetSizeForMappingPairs (
IN PNTFS_MCB Mcb,
IN ULONG BytesAvailable,
IN VCN LowestVcn,
IN PVCN StopOnVcn OPTIONAL,
OUT PVCN StoppedOnVcn
);
BOOLEAN
NtfsBuildMappingPairs (
IN PNTFS_MCB Mcb,
IN VCN LowestVcn,
IN OUT PVCN HighestVcn,
OUT PCHAR MappingPairs
);
VCN
NtfsGetHighestVcn (
IN PIRP_CONTEXT IrpContext,
IN VCN LowestVcn,
IN PCHAR MappingPairs
);
BOOLEAN
NtfsReserveClusters (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG ByteCount
);
VOID
NtfsFreeReservedClusters (
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG ByteCount
);
BOOLEAN
NtfsCheckForReservedClusters (
IN PSCB Scb,
IN LONGLONG StartingVcn,
IN OUT PLONGLONG ClusterCount
);
VOID
NtfsDeleteReservedBitmap (
IN PSCB Scb
);
//
// Attribute lookup routines, implemented in AttrSup.c
//
//
// This macro detects if we are enumerating through base or external
// attributes, and calls the appropriate function.
//
// BOOLEAN
// LookupNextAttribute (
// IN PRIP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN ATTRIBUTE_TYPE_CODE Code,
// IN PUNICODE_STRING Name OPTIONAL,
// IN BOOLEAN IgnoreCase,
// IN PVOID Value OPTIONAL,
// IN ULONG ValueLength,
// IN PVCN Vcn OPTIONAL,
// IN PATTRIBUTE_ENUMERATION_CONTEXT Context
// );
//
#define LookupNextAttribute(IRPCTXT,FCB,CODE,NAME,IC,VALUE,LENGTH,V,CONTEXT) \
( (CONTEXT)->AttributeList.Bcb == NULL \
? NtfsLookupInFileRecord( (IRPCTXT), \
(FCB), \
NULL, \
(CODE), \
(NAME), \
(V), \
(IC), \
(VALUE), \
(LENGTH), \
(CONTEXT)) \
: NtfsLookupExternalAttribute((IRPCTXT), \
(FCB), \
(CODE), \
(NAME), \
(V), \
(IC), \
(VALUE), \
(LENGTH), \
(CONTEXT)) )
BOOLEAN
NtfsLookupExternalAttribute (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
IN PCUNICODE_STRING QueriedName OPTIONAL,
IN PVCN Vcn OPTIONAL,
IN BOOLEAN IgnoreCase,
IN PVOID QueriedValue OPTIONAL,
IN ULONG QueriedValueLength,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
//
// The following two routines do lookups based on the attribute definitions.
//
ATTRIBUTE_TYPE_CODE
NtfsGetAttributeTypeCode (
IN PVCB Vcb,
IN PUNICODE_STRING AttributeTypeName
);
//
// PATTRIBUTE_DEFINITION_COLUMNS
// NtfsGetAttributeDefinition (
// IN PVCB Vcb,
// IN ATTRIBUTE_TYPE_CODE AttributeTypeCode
// )
//
#define NtfsGetAttributeDefinition(Vcb,AttributeTypeCode) \
(&Vcb->AttributeDefinitions[(AttributeTypeCode / 0x10) - 1])
//
// This routine looks up the attribute uniquely-qualified by the specified
// Attribute Code and case-sensitive name. The attribute may not be unique
// if IgnoreCase is specified.
//
BOOLEAN
NtfsLookupInFileRecord (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PFILE_REFERENCE BaseFileReference OPTIONAL,
IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
IN PCUNICODE_STRING QueriedName OPTIONAL,
IN PVCN Vcn OPTIONAL,
IN BOOLEAN IgnoreCase,
IN PVOID QueriedValue OPTIONAL,
IN ULONG QueriedValueLength,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
//
// This routine attempts to find the fist occurrence of an attribute with
// the specified AttributeTypeCode and the specified QueriedName in the
// specified BaseFileReference. If we find one, its attribute record is
// pinned and returned.
//
// BOOLEAN
// NtfsLookupAttributeByName (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PFILE_REFERENCE BaseFileReference,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// IN PUNICODE_STRING QueriedName OPTIONAL,
// IN PVCN Vcn OPTIONAL,
// IN BOOLEAN IgnoreCase,
// OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupAttributeByName(IrpContext,Fcb,BaseFileReference,QueriedTypeCode,QueriedName,Vcn,IgnoreCase,Context) \
NtfsLookupInFileRecord( IrpContext, \
Fcb, \
BaseFileReference, \
QueriedTypeCode, \
QueriedName, \
Vcn, \
IgnoreCase, \
NULL, \
0, \
Context )
//
// This function continues where the prior left off.
//
// BOOLEAN
// NtfsLookupNextAttributeByName (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// IN PUNICODE_STRING QueriedName OPTIONAL,
// IN BOOLEAN IgnoreCase,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupNextAttributeByName(IrpContext,Fcb,QueriedTypeCode,QueriedName,IgnoreCase,Context) \
LookupNextAttribute( IrpContext, \
Fcb, \
QueriedTypeCode, \
QueriedName, \
IgnoreCase, \
NULL, \
0, \
NULL, \
Context )
//
// The following does a search based on a VCN.
//
//
// BOOLEAN
// NtfsLookupNextAttributeByVcn (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PVCN Vcn OPTIONAL,
// OUT PATTRIBUTE_ENUMERATION_CONTEXT
// );
//
#define NtfsLookupNextAttributeByVcn(IC,F,V,C) \
LookupNextAttribute( (IC), \
(F), \
$UNUSED, \
NULL, \
FALSE, \
NULL, \
FALSE, \
(V), \
(C) )
//
// The following routines find the attribute record for a given Scb.
// And also update the scb from the attribute
//
// VOID
// NtfsLookupAttributeForScb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb,
// IN PVCN Vcn OPTIONAL,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupAttributeForScb(IrpContext,Scb,Vcn,Context) \
if (!NtfsLookupAttributeByName( IrpContext, \
Scb->Fcb, \
&Scb->Fcb->FileReference, \
Scb->AttributeTypeCode, \
&Scb->AttributeName, \
Vcn, \
FALSE, \
Context ) && \
!FlagOn( Scb->ScbState, SCB_STATE_VIEW_INDEX )) { \
\
DebugTrace( 0, 0, ("Could not find attribute for Scb @ %08lx\n", Scb )); \
ASSERTMSG("Could not find attribute for Scb\n", FALSE); \
NtfsRaiseStatus( IrpContext, STATUS_FILE_CORRUPT_ERROR, NULL, Scb->Fcb ); \
}
//
// This routine looks up and returns the next attribute for a given Scb.
//
// BOOLEAN
// NtfsLookupNextAttributeForScb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupNextAttributeForScb(IrpContext,Scb,Context) \
NtfsLookupNextAttributeByName( IrpContext, \
Scb->Fcb, \
Scb->AttributeTypeCode, \
&Scb->AttributeName, \
FALSE, \
Context )
VOID
NtfsUpdateScbFromAttribute (
IN PIRP_CONTEXT IrpContext,
IN OUT PSCB Scb,
IN PATTRIBUTE_RECORD_HEADER AttrHeader OPTIONAL
);
//
// The following routines deal with the Fcb and the duplicated information field.
//
BOOLEAN
NtfsUpdateFcbInfoFromDisk (
IN PIRP_CONTEXT IrpContext,
IN BOOLEAN LoadSecurity,
IN OUT PFCB Fcb,
OUT POLD_SCB_SNAPSHOT UnnamedDataSizes OPTIONAL
);
//
// These routines looks up the first/next attribute, i.e., they may be used
// to retrieve all atributes for a file record.
//
// If the Bcb in the Found Attribute structure changes in the Next call, then
// the previous Bcb is autmatically unpinned and the new one pinned.
//
//
// This routine attempts to find the fist occurrence of an attribute with
// the specified AttributeTypeCode in the specified BaseFileReference. If we
// find one, its attribute record is pinned and returned.
//
// BOOLEAN
// NtfsLookupAttribute (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PFILE_REFERENCE BaseFileReference,
// OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupAttribute(IrpContext,Fcb,BaseFileReference,Context) \
NtfsLookupInFileRecord( IrpContext, \
Fcb, \
BaseFileReference, \
$UNUSED, \
NULL, \
NULL, \
FALSE, \
NULL, \
0, \
Context )
//
// This function continues where the prior left off.
//
// BOOLEAN
// NtfsLookupNextAttribute (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupNextAttribute(IrpContext,Fcb,Context) \
LookupNextAttribute( IrpContext, \
Fcb, \
$UNUSED, \
NULL, \
FALSE, \
NULL, \
0, \
NULL, \
Context )
//
// These routines looks up the first/next attribute of the given type code.
//
// If the Bcb in the Found Attribute structure changes in the Next call, then
// the previous Bcb is autmatically unpinned and the new one pinned.
//
//
// This routine attempts to find the fist occurrence of an attribute with
// the specified AttributeTypeCode in the specified BaseFileReference. If we
// find one, its attribute record is pinned and returned.
//
// BOOLEAN
// NtfsLookupAttributeByCode (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PFILE_REFERENCE BaseFileReference,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupAttributeByCode(IrpContext,Fcb,BaseFileReference,QueriedTypeCode,Context) \
NtfsLookupInFileRecord( IrpContext, \
Fcb, \
BaseFileReference, \
QueriedTypeCode, \
NULL, \
NULL, \
FALSE, \
NULL, \
0, \
Context )
//
// This function continues where the prior left off.
//
// BOOLEAN
// NtfsLookupNextAttributeByCode (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupNextAttributeByCode(IC,F,CODE,C) \
LookupNextAttribute( (IC), \
(F), \
(CODE), \
NULL, \
FALSE, \
NULL, \
0, \
NULL, \
(C) )
//
// These routines looks up the first/next occurrence of an attribute by its
// Attribute Code and exact attribute value (consider using RtlCompareMemory).
// The value contains everything outside of the standard attribute header,
// so for example, to look up the File Name attribute by value, the caller
// must form a record with not only the file name in it, but with the
// ParentDirectory filled in as well. The length should be exact, and not
// include any unused (such as in DOS_NAME) or reserved characters.
//
// If the Bcb changes in the Next call, then the previous Bcb is autmatically
// unpinned and the new one pinned.
//
//
// This routine attempts to find the fist occurrence of an attribute with
// the specified AttributeTypeCode and the specified QueriedValue in the
// specified BaseFileReference. If we find one, its attribute record is
// pinned and returned.
//
// BOOLEAN
// NtfsLookupAttributeByValue (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PFILE_REFERENCE BaseFileReference,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// IN PVOID QueriedValue,
// IN ULONG QueriedValueLength,
// OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupAttributeByValue(IrpContext,Fcb,BaseFileReference,QueriedTypeCode,QueriedValue,QueriedValueLength,Context) \
NtfsLookupInFileRecord( IrpContext, \
Fcb, \
BaseFileReference, \
QueriedTypeCode, \
NULL, \
NULL, \
FALSE, \
QueriedValue, \
QueriedValueLength, \
Context )
//
// This function continues where the prior left off.
//
// BOOLEAN
// NtfsLookupNextAttributeByValue (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN ATTRIBUTE_TYPE_CODE QueriedTypeCode,
// IN PVOID QueriedValue,
// IN ULONG QueriedValueLength,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
// )
//
#define NtfsLookupNextAttributeByValue(IC,F,CODE,V,VL,C) \
LookupNextAttribute( (IC), \
(F), \
(CODE), \
NULL, \
FALSE, \
(V), \
(VL), \
(C) )
VOID
NtfsCleanupAttributeContext(
IN OUT PIRP_CONTEXT IrpContext,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
);
//
//
//
// Here are some routines/macros for dealing with Attribute Enumeration
// Contexts.
//
// VOID
// NtfsInitializeAttributeContext(
// OUT PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
// VOID
// NtfsPinMappedAttribute(
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// IN OUT PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
// PATTRIBUTE_RECORD_HEADER
// NtfsFoundAttribute(
// IN PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
// PBCB
// NtfsFoundBcb(
// IN PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
// PFILE_RECORD
// NtfsContainingFileRecord (
// IN PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
// LONGLONG
// NtfsMftOffset (
// IN PATTRIBUTE_ENUMERATION_CONTEXT AttributeContext
// );
//
#define NtfsInitializeAttributeContext(CTX) { \
RtlZeroMemory( (CTX), sizeof(ATTRIBUTE_ENUMERATION_CONTEXT) ); \
}
#define NtfsPinMappedAttribute(IC,V,CTX) { \
NtfsPinMappedData( (IC), \
(V)->MftScb, \
(CTX)->FoundAttribute.MftFileOffset, \
(V)->BytesPerFileRecordSegment, \
&(CTX)->FoundAttribute.Bcb ); \
}
#define NtfsFoundAttribute(CTX) ( \
(CTX)->FoundAttribute.Attribute \
)
#define NtfsFoundBcb(CTX) ( \
(CTX)->FoundAttribute.Bcb \
)
#define NtfsContainingFileRecord(CTX) ( \
(CTX)->FoundAttribute.FileRecord \
)
#define NtfsMftOffset(CTX) ( \
(CTX)->FoundAttribute.MftFileOffset \
)
//
// This routine returns whether an attribute is resident or not.
//
// BOOLEAN
// NtfsIsAttributeResident (
// IN PATTRIBUTE_RECORD_HEADER Attribute
// );
//
// PVOID
// NtfsAttributeValue (
// IN PATTRIBUTE_RECORD_HEADER Attribute
// );
//
#define NtfsIsAttributeResident(ATTR) ( \
((ATTR)->FormCode == RESIDENT_FORM) \
)
#define NtfsAttributeValue(ATTR) ( \
((PCHAR)(ATTR) + (ULONG)(ATTR)->Form.Resident.ValueOffset) \
)
//
// This routine modifies the valid data length and file size on disk for
// a given Scb.
//
BOOLEAN
NtfsWriteFileSizes (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PLONGLONG ValidDataLength,
IN BOOLEAN AdvanceOnly,
IN BOOLEAN LogIt,
IN BOOLEAN RollbackMemStructures
);
//
// This routine updates the standard information attribute from the
// information in the Fcb.
//
VOID
NtfsUpdateStandardInformation (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
//
// This routine grows and updates the standard information attribute from
// the information in the Fcb.
//
VOID
NtfsGrowStandardInformation (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
//
// Attribute FILE_NAME routines. These routines deal with filename attributes.
//
// VOID
// NtfsBuildFileNameAttribute (
// IN PIRP_CONTEXT IrpContext,
// IN PFILE_REFERENCE ParentDirectory,
// IN UNICODE_STRING FileName,
// IN UCHAR Flags,
// OUT PFILE_NAME FileNameValue
// );
//
#define NtfsBuildFileNameAttribute(IC,PD,FN,FL,PFNA) { \
(PFNA)->ParentDirectory = *(PD); \
(PFNA)->FileNameLength = (UCHAR)((FN).Length >> 1); \
(PFNA)->Flags = FL; \
RtlMoveMemory( (PFNA)->FileName, (FN).Buffer, (ULONG)(FN).Length ); \
}
BOOLEAN
NtfsLookupEntry (
IN PIRP_CONTEXT IrpContext,
IN PSCB ParentScb,
IN BOOLEAN IgnoreCase,
IN OUT PUNICODE_STRING Name,
IN OUT PFILE_NAME *FileNameAttr,
IN OUT PUSHORT FileNameAttrLength,
OUT PQUICK_INDEX QuickIndex OPTIONAL,
OUT PINDEX_ENTRY *IndexEntry,
OUT PBCB *IndexEntryBcb,
OUT PINDEX_CONTEXT IndexContext OPTIONAL
);
//
// Macro to decide when to create an attribute resident.
//
// BOOLEAN
// NtfsShouldAttributeBeResident (
// IN PVCB Vcb,
// IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
// IN ULONG Size
// );
//
#define RS(S) ((S) + SIZEOF_RESIDENT_ATTRIBUTE_HEADER)
#define NtfsShouldAttributeBeResident(VC,FR,S) ( \
(BOOLEAN)((RS(S) <= ((FR)->BytesAvailable - (FR)->FirstFreeByte)) || \
(RS(S) < (VC)->BigEnoughToMove)) \
)
//
// Attribute creation/modification routines
//
// These three routines do *not* presuppose either the Resident or Nonresident
// form, with the single exception that if the attribute is indexed, then
// it must be Resident.
//
// NtfsMapAttributeValue and NtfsChangeAttributeValue implement transparent
// access to small to medium sized attributes (such as $ACL and $EA), and
// work whether the attribute is resident or nonresident. The design target
// is 0-64KB in size. Attributes larger than 256KB (or more accurrately,
// whatever the virtual mapping granularity is in the Cache Manager) will not
// work correctly.
//
VOID
NtfsCreateAttributeWithValue (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ATTRIBUTE_TYPE_CODE AttributeTypeCode,
IN PUNICODE_STRING AttributeName OPTIONAL,
IN PVOID Value OPTIONAL,
IN ULONG ValueLength,
IN USHORT AttributeFlags,
IN PFILE_REFERENCE WhereIndexed OPTIONAL,
IN BOOLEAN LogIt,
OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsMapAttributeValue (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
OUT PVOID *Buffer,
OUT PULONG Length,
OUT PBCB *Bcb,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsChangeAttributeValue (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ULONG ValueOffset,
IN PVOID Value OPTIONAL,
IN ULONG ValueLength,
IN BOOLEAN SetNewLength,
IN BOOLEAN LogNonresidentToo,
IN BOOLEAN CreateSectionUnderway,
IN BOOLEAN PreserveContext,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsConvertToNonresident (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN OUT PATTRIBUTE_RECORD_HEADER Attribute,
IN BOOLEAN CreateSectionUnderway,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context OPTIONAL
);
#define DELETE_LOG_OPERATION 0x00000001
#define DELETE_RELEASE_FILE_RECORD 0x00000002
#define DELETE_RELEASE_ALLOCATION 0x00000004
VOID
NtfsDeleteAttributeRecord (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ULONG Flags,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsDeleteAllocationFromRecord (
PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PATTRIBUTE_ENUMERATION_CONTEXT Context,
IN BOOLEAN BreakupAllowed,
IN BOOLEAN LogIt
);
BOOLEAN
NtfsChangeAttributeSize (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ULONG Length,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsAddToAttributeList (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN MFT_SEGMENT_REFERENCE SegmentReference,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsDeleteFromAttributeList (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
BOOLEAN
NtfsRewriteMftMapping (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
VOID
NtfsSetTotalAllocatedField (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN USHORT TotalAllocatedNeeded
);
VOID
NtfsSetSparseStream (
IN PIRP_CONTEXT IrpContext,
IN PSCB ParentScb OPTIONAL,
IN PSCB Scb
);
NTSTATUS
NtfsZeroRangeInStream (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject OPTIONAL,
IN PSCB Scb,
IN PLONGLONG StartingOffset,
IN LONGLONG FinalZero
);
BOOLEAN
NtfsModifyAttributeFlags (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN USHORT NewAttributeFlags
);
PFCB
NtfsInitializeFileInExtendDirectory (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PCUNICODE_STRING FileName,
IN BOOLEAN ViewIndex,
IN ULONG CreateIfNotExist
);
//
// Use common routines to fill the common query buffers.
//
VOID
NtfsFillBasicInfo (
OUT PFILE_BASIC_INFORMATION Buffer,
IN PSCB Scb
);
VOID
NtfsFillStandardInfo (
OUT PFILE_STANDARD_INFORMATION Buffer,
IN PSCB Scb,
IN PCCB Ccb OPTIONAL
);
VOID
NtfsFillNetworkOpenInfo (
OUT PFILE_NETWORK_OPEN_INFORMATION Buffer,
IN PSCB Scb
);
//
// The following three routines dealing with allocation are to be
// called by allocsup.c only. Other software must call the routines
// in allocsup.c
//
BOOLEAN
NtfsCreateAttributeWithAllocation (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN ATTRIBUTE_TYPE_CODE AttributeTypeCode,
IN PUNICODE_STRING AttributeName OPTIONAL,
IN USHORT AttributeFlags,
IN BOOLEAN LogIt,
IN BOOLEAN UseContext,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context
);
VOID
NtfsAddAttributeAllocation (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context,
IN PVCN StartingVcn OPTIONAL,
IN PVCN ClusterCount OPTIONAL
);
VOID
NtfsDeleteAttributeAllocation (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN BOOLEAN LogIt,
IN PVCN StopOnVcn,
IN OUT PATTRIBUTE_ENUMERATION_CONTEXT Context,
IN BOOLEAN TruncateToVcn
);
//
// To delete a file, you must first ask if it is deleteable from the ParentScb
// used to get there for your caller, and then you can delete it if it is.
//
//
// BOOLEAN
// NtfsIsLinkDeleteable (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// OUT PBOOLEAN NonEmptyIndex,
// OUT PBOOLEAN LastLink
// );
//
#define NtfsIsLinkDeleteable(IC,FC,NEI,LL) ((BOOLEAN) \
(((*(LL) = ((BOOLEAN) (FC)->LinkCount == 1)), (FC)->LinkCount > 1) || \
(NtfsIsFileDeleteable( (IC), (FC), (NEI) ))) \
)
BOOLEAN
NtfsIsFileDeleteable (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
OUT PBOOLEAN NonEmptyIndex
);
VOID
NtfsDeleteFile (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB ParentScb,
IN OUT PBOOLEAN AcquiredParentScb,
IN OUT PNAME_PAIR NamePair OPTIONAL,
IN OUT PNTFS_TUNNELED_DATA TunneledData OPTIONAL
);
VOID
NtfsPrepareForUpdateDuplicate (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN OUT PLCB *Lcb,
IN OUT PSCB *ParentScb,
IN BOOLEAN AcquireShared
);
VOID
NtfsUpdateDuplicateInfo (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PLCB Lcb OPTIONAL,
IN PSCB ParentScb OPTIONAL
);
VOID
NtfsUpdateLcbDuplicateInfo (
IN PFCB Fcb,
IN PLCB Lcb
);
VOID
NtfsUpdateFcb (
IN PFCB Fcb,
IN ULONG ChangeFlags
);
//
// The following routines add and remove links. They also update the name
// flags in particular links.
//
VOID
NtfsAddLink (
IN PIRP_CONTEXT IrpContext,
IN BOOLEAN CreatePrimaryLink,
IN PSCB ParentScb,
IN PFCB Fcb,
IN PFILE_NAME FileNameAttr,
IN PBOOLEAN LogIt OPTIONAL,
OUT PUCHAR FileNameFlags,
OUT PQUICK_INDEX QuickIndex OPTIONAL,
IN PNAME_PAIR NamePair OPTIONAL,
IN PINDEX_CONTEXT IndexContext OPTIONAL
);
VOID
NtfsRemoveLink (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB ParentScb,
IN UNICODE_STRING LinkName,
IN OUT PNAME_PAIR NamePair OPTIONAL,
IN OUT PNTFS_TUNNELED_DATA TunneledData OPTIONAL
);
VOID
NtfsRemoveLinkViaFlags (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB Scb,
IN UCHAR FileNameFlags,
IN OUT PNAME_PAIR NamePair OPTIONAL,
OUT PUNICODE_STRING FileName OPTIONAL
);
VOID
NtfsUpdateFileNameFlags (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB ParentScb,
IN UCHAR FileNameFlags,
IN PFILE_NAME FileNameLink
);
//
// These routines are intended for low-level attribute access, such as within
// attrsup, or for applying update operations from the log during restart.
//
VOID
NtfsRestartInsertAttribute (
IN PIRP_CONTEXT IrpContext,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN ULONG RecordOffset,
IN PATTRIBUTE_RECORD_HEADER Attribute,
IN PUNICODE_STRING AttributeName OPTIONAL,
IN PVOID ValueOrMappingPairs OPTIONAL,
IN ULONG Length
);
VOID
NtfsRestartRemoveAttribute (
IN PIRP_CONTEXT IrpContext,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN ULONG RecordOffset
);
VOID
NtfsRestartChangeAttributeSize (
IN PIRP_CONTEXT IrpContext,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PATTRIBUTE_RECORD_HEADER Attribute,
IN ULONG NewRecordLength
);
VOID
NtfsRestartChangeValue (
IN PIRP_CONTEXT IrpContext,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN ULONG RecordOffset,
IN ULONG AttributeOffset,
IN PVOID Data OPTIONAL,
IN ULONG Length,
IN BOOLEAN SetNewLength
);
VOID
NtfsRestartChangeMapping (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN ULONG RecordOffset,
IN ULONG AttributeOffset,
IN PVOID Data,
IN ULONG Length
);
VOID
NtfsRestartWriteEndOfFileRecord (
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PATTRIBUTE_RECORD_HEADER OldAttribute,
IN PATTRIBUTE_RECORD_HEADER NewAttributes,
IN ULONG SizeOfNewAttributes
);
//
// Bitmap support routines. Implemented in BitmpSup.c
//
//
// The following routines are used for allocating and deallocating clusters
// on the disk. The first routine initializes the allocation support
// routines and must be called for each newly mounted/verified volume.
// The next two routines allocate and deallocate clusters via Mcbs.
// The last three routines are simple query routines.
//
VOID
NtfsInitializeClusterAllocation (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
BOOLEAN
NtfsAllocateClusters (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN OUT PSCB Scb,
IN VCN StartingVcn,
IN BOOLEAN AllocateAll,
IN LONGLONG ClusterCount,
IN PLCN TargetLcn OPTIONAL,
IN OUT PLONGLONG DesiredClusterCount
);
VOID
NtfsAddBadCluster (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN LCN Lcn
);
BOOLEAN
NtfsDeallocateClusters (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PSCB Scb,
IN VCN StartingVcn,
IN VCN EndingVcn,
OUT PLONGLONG TotalAllocated OPTIONAL
);
VOID
NtfsPreAllocateClusters (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN LCN StartingLcn,
IN LONGLONG ClusterCount,
OUT PBOOLEAN AcquiredBitmap,
OUT PBOOLEAN AcquiredMft
);
VOID
NtfsCleanupClusterAllocationHints (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PNTFS_MCB Mcb
);
VOID
NtfsScanEntireBitmap (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN LOGICAL CachedRunsOnly
);
VOID
NtfsModifyBitsInBitmap (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN LONGLONG FirstBit,
IN LONGLONG BeyondFinalBit,
IN ULONG RedoOperation,
IN ULONG UndoOperation
);
typedef enum _NTFS_RUN_STATE {
RunStateUnknown = 1,
RunStateFree,
RunStateAllocated
} NTFS_RUN_STATE;
typedef NTFS_RUN_STATE *PNTFS_RUN_STATE;
BOOLEAN
NtfsAddCachedRun (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN LCN StartingLcn,
IN LONGLONG ClusterCount,
IN NTFS_RUN_STATE RunState
);
//
// The following two routines are called at Restart to make bitmap
// operations in the volume bitmap recoverable.
//
VOID
NtfsRestartSetBitsInBitMap (
IN PIRP_CONTEXT IrpContext,
IN PRTL_BITMAP Bitmap,
IN ULONG BitMapOffset,
IN ULONG NumberOfBits
);
VOID
NtfsRestartClearBitsInBitMap (
IN PIRP_CONTEXT IrpContext,
IN PRTL_BITMAP Bitmap,
IN ULONG BitMapOffset,
IN ULONG NumberOfBits
);
//
// The following routines are for allocating and deallocating records
// based on a bitmap attribute (e.g., allocating mft file records based on
// the bitmap attribute of the mft). If necessary the routines will
// also extend/truncate the data and bitmap attributes to satisfy the
// operation.
//
VOID
NtfsInitializeRecordAllocation (
IN PIRP_CONTEXT IrpContext,
IN PSCB DataScb,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute,
IN ULONG BytesPerRecord,
IN ULONG ExtendGranularity, // In terms of records
IN ULONG TruncateGranularity, // In terms of records
IN OUT PRECORD_ALLOCATION_CONTEXT RecordAllocationContext
);
VOID
NtfsUninitializeRecordAllocation (
IN PIRP_CONTEXT IrpContext,
IN OUT PRECORD_ALLOCATION_CONTEXT RecordAllocationContext
);
ULONG
NtfsAllocateRecord (
IN PIRP_CONTEXT IrpContext,
IN PRECORD_ALLOCATION_CONTEXT RecordAllocationContext,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute
);
VOID
NtfsDeallocateRecord (
IN PIRP_CONTEXT IrpContext,
IN PRECORD_ALLOCATION_CONTEXT RecordAllocationContext,
IN ULONG Index,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute
);
VOID
NtfsReserveMftRecord (
IN PIRP_CONTEXT IrpContext,
IN OUT PVCB Vcb,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute
);
ULONG
NtfsAllocateMftReservedRecord (
IN OUT PIRP_CONTEXT IrpContext,
IN OUT PVCB Vcb,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute
);
VOID
NtfsDeallocateRecordsComplete (
IN PIRP_CONTEXT IrpContext
);
BOOLEAN
NtfsIsRecordAllocated (
IN PIRP_CONTEXT IrpContext,
IN PRECORD_ALLOCATION_CONTEXT RecordAllocationContext,
IN ULONG Index,
IN PATTRIBUTE_ENUMERATION_CONTEXT BitmapAttribute
);
VOID
NtfsScanMftBitmap (
IN PIRP_CONTEXT IrpContext,
IN OUT PVCB Vcb
);
BOOLEAN
NtfsCreateMftHole (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
BOOLEAN
NtfsFindMftFreeTail (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
OUT PLONGLONG FileOffset
);
//
// Routines to handle the cached runs.
//
VOID
NtfsInitializeCachedRuns (
IN PNTFS_CACHED_RUNS CachedRuns
);
VOID
NtfsReinitializeCachedRuns (
IN PNTFS_CACHED_RUNS CachedRuns
);
VOID
NtfsUninitializeCachedRuns (
IN PNTFS_CACHED_RUNS CachedRuns
);
//
// Buffer control routines for data caching using internal attribute
// streams implemented in CacheSup.c
//
#define NtfsCreateInternalAttributeStream(IC,S,U,NM) { \
NtfsCreateInternalStreamCommon((IC),(S),(U),FALSE,(NM)); \
}
#define NtfsCreateInternalCompressedStream(IC,S,U,NM) { \
NtfsCreateInternalStreamCommon((IC),(S),(U),TRUE,(NM)); \
}
#define NtfsClearInternalFilename(_FileObject) { \
(_FileObject)->FileName.MaximumLength = 0; \
(_FileObject)->FileName.Length = 0; \
(_FileObject)->FileName.Buffer = NULL; \
}
VOID
NtfsCreateInternalStreamCommon (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN BOOLEAN UpdateScb,
IN BOOLEAN CompressedStream,
IN UNICODE_STRING const *StreamName
);
BOOLEAN
NtfsDeleteInternalAttributeStream (
IN PSCB Scb,
IN ULONG ForceClose,
IN ULONG CompressedStreamOnly
);
//
// The following routines provide direct access to data in an attribute.
//
VOID
NtfsMapStream (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG Length,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
VOID
NtfsPinMappedData (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG Length,
IN OUT PVOID *Bcb
);
VOID
NtfsPinStream (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG Length,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
VOID
NtfsPreparePinWriteStream (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN LONGLONG FileOffset,
IN ULONG Length,
IN BOOLEAN Zero,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
NTSTATUS
NtfsCompleteMdl (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
BOOLEAN
NtfsZeroData (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PFILE_OBJECT FileObject,
IN LONGLONG StartingZero,
IN LONGLONG ByteCount,
IN OUT PLONGLONG CommittedFileSize OPTIONAL
);
//
// The following is needed when biasing the SetFileSizes call for the Usn Journal.
//
// VOID
// NtfsSetCcFileSizes (
// IN PFILE_OBJECT FileObject,
// IN PSCB Scb,
// IN PCC_FILE_SIZES CcSizes
// );
//
#define NtfsSetCcFileSizes(FO,S,CC) { \
if (FlagOn( (S)->ScbPersist, SCB_PERSIST_USN_JOURNAL )) { \
CC_FILE_SIZES _CcSizes; \
RtlCopyMemory( &_CcSizes, (CC), sizeof( CC_FILE_SIZES )); \
_CcSizes.AllocationSize.QuadPart -= (S)->Vcb->UsnCacheBias; \
_CcSizes.FileSize.QuadPart -= (S)->Vcb->UsnCacheBias; \
CcSetFileSizes( (FO), &_CcSizes ); \
} else { \
CcSetFileSizes( (FO), (CC) ); \
} \
}
//
// VOID
// NtfsFreeBcb (
// IN PIRP_CONTEXT IrpContext,
// IN OUT PBCB *Bcb
// );
//
// VOID
// NtfsUnpinBcb (
// IN PIRP_CONTEXT IrpContext,
// IN OUT PBCB *Bcb,
// );
//
#define NtfsFreeBcb(IC,BC) { \
ASSERT_IRP_CONTEXT(IC); \
if (*(BC) != NULL) \
{ \
CcFreePinnedData(*(BC)); \
*(BC) = NULL; \
} \
}
#ifdef MAPCOUNT_DBG
#define NtfsUnpinBcb(IC,BC) { \
if (*(BC) != NULL) \
{ \
CcUnpinData(*(BC)); \
(IC)->MapCount--; \
*(BC) = NULL; \
} \
}
#else
#define NtfsUnpinBcb(IC,BC) { \
if (*(BC) != NULL) \
{ \
CcUnpinData(*(BC)); \
*(BC) = NULL; \
} \
}
#endif
#ifdef MAPCOUNT_DBG
#define NtfsUnpinBcbForThread(IC,BC,T) { \
if (*(BC) != NULL) \
{ \
CcUnpinDataForThread(*(BC), (T)); \
(IC)->MapCount--; \
*(BC) = NULL; \
} \
}
#else
#define NtfsUnpinBcbForThread(IC,BC,T) { \
if (*(BC) != NULL) \
{ \
CcUnpinDataForThread(*(BC), (T)); \
*(BC) = NULL; \
} \
}
#endif
INLINE
PBCB
NtfsRemapBcb (
IN PIRP_CONTEXT IrpContext,
IN PBCB Bcb
)
{
UNREFERENCED_PARAMETER( IrpContext );
#ifdef MAPCOUNT_DBG
IrpContext->MapCount++;
#endif
return CcRemapBcb( Bcb );
}
//
// Ntfs structure check routines in CheckSup.c
//
BOOLEAN
NtfsCheckFileRecord (
IN PVCB Vcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PFILE_REFERENCE FileReference OPTIONAL,
OUT PULONG CorruptionHint
);
BOOLEAN
NtfsCheckAttributeRecord (
IN PVCB Vcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PATTRIBUTE_RECORD_HEADER Attribute,
IN ULONG CheckHeaderOnly,
OUT PULONG CorruptionHint
);
BOOLEAN
NtfsCheckIndexRoot (
IN PVCB Vcb,
IN PINDEX_ROOT IndexRoot,
IN ULONG AttributeSize
);
BOOLEAN
NtfsCheckIndexBuffer (
IN PSCB Scb,
IN PINDEX_ALLOCATION_BUFFER IndexBuffer
);
BOOLEAN
NtfsCheckIndexHeader (
IN PINDEX_HEADER IndexHeader,
IN ULONG BytesAvailable
);
BOOLEAN
NtfsCheckLogRecord (
IN PNTFS_LOG_RECORD_HEADER LogRecord,
IN ULONG LogRecordLength,
IN TRANSACTION_ID TransactionId,
IN ULONG AttributeEntrySize
);
BOOLEAN
NtfsCheckRestartTable (
IN PRESTART_TABLE RestartTable,
IN ULONG TableSize
);
//
// Collation routines, implemented in ColatSup.c
//
// These routines perform low-level collation operations, primarily
// for IndexSup. All of these routines are dispatched to via dispatch
// tables indexed by the collation rule. The dispatch tables are
// defined here, and the actual implementations are in colatsup.c
//
typedef
FSRTL_COMPARISON_RESULT
(*PCOMPARE_VALUES) (
IN PWCH UnicodeTable,
IN ULONG UnicodeTableSize,
IN PVOID Value,
IN PINDEX_ENTRY IndexEntry,
IN FSRTL_COMPARISON_RESULT WildCardIs,
IN BOOLEAN IgnoreCase
);
typedef
BOOLEAN
(*PIS_IN_EXPRESSION) (
IN PWCH UnicodeTable,
IN PVOID Value,
IN PINDEX_ENTRY IndexEntry,
IN BOOLEAN IgnoreCase
);
typedef
BOOLEAN
(*PARE_EQUAL) (
IN PWCH UnicodeTable,
IN PVOID Value,
IN PINDEX_ENTRY IndexEntry,
IN BOOLEAN IgnoreCase
);
typedef
BOOLEAN
(*PCONTAINS_WILDCARD) (
IN PVOID Value
);
typedef
VOID
(*PUPCASE_VALUE) (
IN PWCH UnicodeTable,
IN ULONG UnicodeTableSize,
IN OUT PVOID Value
);
extern PCOMPARE_VALUES NtfsCompareValues[COLLATION_NUMBER_RULES];
extern PIS_IN_EXPRESSION NtfsIsInExpression[COLLATION_NUMBER_RULES];
extern PARE_EQUAL NtfsIsEqual[COLLATION_NUMBER_RULES];
extern PCONTAINS_WILDCARD NtfsContainsWildcards[COLLATION_NUMBER_RULES];
extern PUPCASE_VALUE NtfsUpcaseValue[COLLATION_NUMBER_RULES];
BOOLEAN
NtfsFileNameIsInExpression (
IN PWCH UnicodeTable,
IN PFILE_NAME ExpressionName,
IN PFILE_NAME FileName,
IN BOOLEAN IgnoreCase
);
BOOLEAN
NtfsFileNameIsEqual (
IN PWCH UnicodeTable,
IN PFILE_NAME ExpressionName,
IN PFILE_NAME FileName,
IN BOOLEAN IgnoreCase
);
//
// Compression on the wire routines in CowSup.c
//
BOOLEAN
NtfsCopyReadC (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
OUT PVOID Buffer,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
OUT PCOMPRESSED_DATA_INFO CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
);
NTSTATUS
NtfsCompressedCopyRead (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
OUT PVOID Buffer,
OUT PMDL *MdlChain,
OUT PCOMPRESSED_DATA_INFO CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject,
IN PNTFS_ADVANCED_FCB_HEADER Header,
IN ULONG CompressionUnitSize,
IN ULONG ChunkSize
);
BOOLEAN
NtfsMdlReadCompleteCompressed (
IN struct _FILE_OBJECT *FileObject,
IN PMDL MdlChain,
IN struct _DEVICE_OBJECT *DeviceObject
);
BOOLEAN
NtfsCopyWriteC (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
IN PVOID Buffer,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
IN PCOMPRESSED_DATA_INFO CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
);
NTSTATUS
NtfsCompressedCopyWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN PVOID Buffer,
OUT PMDL *MdlChain,
IN PCOMPRESSED_DATA_INFO CompressedDataInfo,
IN PDEVICE_OBJECT DeviceObject,
IN PNTFS_ADVANCED_FCB_HEADER Header,
IN ULONG CompressionUnitSize,
IN ULONG ChunkSize,
IN ULONG EngineMatches
);
BOOLEAN
NtfsMdlWriteCompleteCompressed (
IN struct _FILE_OBJECT *FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain,
IN struct _DEVICE_OBJECT *DeviceObject
);
NTSTATUS
NtfsSynchronizeUncompressedIo (
IN PSCB Scb,
IN PLONGLONG FileOffset OPTIONAL,
IN ULONG Length,
IN ULONG WriteAccess,
IN OUT PCOMPRESSION_SYNC *CompressionSync
);
NTSTATUS
NtfsSynchronizeCompressedIo (
IN PSCB Scb,
IN PLONGLONG FileOffset,
IN ULONG Length,
IN ULONG WriteAccess,
IN OUT PCOMPRESSION_SYNC *CompressionSync
);
PCOMPRESSION_SYNC
NtfsAcquireCompressionSync (
IN LONGLONG FileOffset,
IN PSCB Scb,
IN ULONG WriteAccess
);
VOID
NtfsReleaseCompressionSync (
IN PCOMPRESSION_SYNC CompressionSync
);
INLINE
VOID
NtfsSetBothCacheSizes (
IN PFILE_OBJECT FileObject,
IN PCC_FILE_SIZES FileSizes,
IN PSCB Scb
)
{
if (Scb->NonpagedScb->SegmentObject.SharedCacheMap != NULL) {
NtfsSetCcFileSizes( FileObject, Scb, FileSizes );
}
#ifdef COMPRESS_ON_WIRE
if (Scb->Header.FileObjectC != NULL) {
CcSetFileSizes( Scb->Header.FileObjectC, FileSizes );
}
#endif
}
//
// Device I/O routines, implemented in DevIoSup.c
//
// These routines perform the actual device read and writes. They only affect
// the on disk structure and do not alter any other data structures.
//
VOID
NtfsLockUserBuffer (
IN PIRP_CONTEXT IrpContext,
IN OUT PIRP Irp,
IN LOCK_OPERATION Operation,
IN ULONG BufferLength
);
PVOID
NtfsMapUserBuffer (
IN OUT PIRP Irp
);
NTSTATUS
NtfsVolumeDasdIo (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PVCB Vcb,
IN VBO StartingVbo,
IN ULONG ByteCount
);
VOID
NtfsPagingFileIo (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PSCB Scb,
IN VBO StartingVbo,
IN ULONG ByteCount
);
BOOLEAN
NtfsIsReadAheadThread (
);
//
// Values for StreamFlags passed to NtfsNonCachedIo, etc.
//
#define COMPRESSED_STREAM 0x00000001
#define ENCRYPTED_STREAM 0x00000002
NTSTATUS
NtfsNonCachedIo (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PSCB Scb,
IN VBO StartingVbo,
IN ULONG ByteCount,
IN ULONG StreamFlags
);
VOID
NtfsNonCachedNonAlignedIo (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PSCB Scb,
IN VBO StartingVbo,
IN ULONG ByteCount
);
#ifdef EFSDBG
NTSTATUS
NtfsDummyEfsRead (
IN OUT PUCHAR InOutBuffer,
IN PLARGE_INTEGER Offset,
IN ULONG BufferSize,
IN PVOID Context
);
NTSTATUS
NtfsDummyEfsWrite (
IN PUCHAR InBuffer,
OUT PUCHAR OutBuffer,
IN PLARGE_INTEGER Offset,
IN ULONG BufferSize,
IN PUCHAR Context
);
#endif
VOID
NtfsTransformUsaBlock (
IN PSCB Scb,
IN OUT PVOID SystemBuffer,
IN OUT PVOID Buffer,
IN ULONG Length
);
VOID
NtfsCreateMdlAndBuffer (
IN PIRP_CONTEXT IrpContext,
IN PSCB ThisScb,
IN UCHAR NeedTwoBuffers,
IN OUT PULONG Length,
OUT PMDL *Mdl OPTIONAL,
OUT PVOID *Buffer
);
VOID
NtfsDeleteMdlAndBuffer (
IN PMDL Mdl OPTIONAL,
IN PVOID Buffer OPTIONAL
);
VOID
NtfsWriteClusters (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PSCB Scb,
IN VBO StartingVbo,
IN PVOID Buffer,
IN ULONG ClusterCount
);
BOOLEAN
NtfsVerifyAndRevertUsaBlock (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN OUT PVOID Buffer,
IN ULONG Length,
IN LONGLONG FileOffset
);
NTSTATUS
NtfsDefragFile (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsReadFromPlex(
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
//
// The following support routines are contained int Ea.c
//
PFILE_FULL_EA_INFORMATION
NtfsMapExistingEas (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
OUT PBCB *EaBcb,
OUT PULONG EaLength
);
NTSTATUS
NtfsBuildEaList (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN OUT PEA_LIST_HEADER EaListHeader,
IN PFILE_FULL_EA_INFORMATION UserEaList,
OUT PULONG_PTR ErrorOffset
);
VOID
NtfsReplaceFileEas (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PEA_LIST_HEADER EaList
);
//
// The following routines are used to manipulate the fscontext fields
// of the file object, implemented in FilObSup.c
//
typedef enum _TYPE_OF_OPEN {
UnopenedFileObject = 1,
UserFileOpen,
UserDirectoryOpen,
UserVolumeOpen,
StreamFileOpen,
UserViewIndexOpen
} TYPE_OF_OPEN;
VOID
NtfsSetFileObject (
IN PFILE_OBJECT FileObject,
IN TYPE_OF_OPEN TypeOfOpen,
IN PSCB Scb,
IN PCCB Ccb OPTIONAL
);
//
// TYPE_OF_OPEN
// NtfsDecodeFileObject (
// IN PIRP_CONTEXT IrpContext,
// IN PFILE_OBJECT FileObject,
// OUT PVCB *Vcb,
// OUT PFCB *Fcb,
// OUT PSCB *Scb,
// OUT PCCB *Ccb,
// IN BOOLEAN RaiseOnError
// );
//
#ifdef _DECODE_MACRO_
#define NtfsDecodeFileObject(IC,FO,V,F,S,C,R) ( \
( *(S) = (PSCB)(FO)->FsContext), \
((*(S) != NULL) \
? ((*(V) = (*(S))->Vcb), \
(*(C) = (PCCB)(FO)->FsContext2), \
(*(F) = (*(S))->Fcb), \
((R) \
&& !FlagOn((*(V))->VcbState, VCB_STATE_VOLUME_MOUNTED) \
&& ((*(C) == NULL) \
|| ((*(C))->TypeOfOpen != UserVolumeOpen) \
|| !FlagOn((*(V))->VcbState, VCB_STATE_LOCKED)) \
&& NtfsRaiseStatusFunction((IC), (STATUS_VOLUME_DISMOUNTED))), \
((*(C) == NULL) \
? StreamFileOpen \
: (*(C))->TypeOfOpen)) \
: (*(C) = NULL, \
UnopenedFileObject)) \
)
#else // _DECODE_MACRO_
INLINE TYPE_OF_OPEN
NtfsDecodeFileObject (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject,
OUT PVCB *Vcb,
OUT PFCB *Fcb,
OUT PSCB *Scb,
OUT PCCB *Ccb,
IN BOOLEAN RaiseOnError
)
/*++
Routine Description:
This routine decodes a file object into a Vcb, Fcb, Scb, and Ccb.
Arguments:
IrpContext - The Irp context to use for raising on an error.
FileObject - The file object to decode.
Vcb - Where to store the Vcb.
Fcb - Where to store the Fcb.
Scb - Where to store the Scb.
Ccb - Where to store the Ccb.
RaiseOnError - If FALSE, we do not raise if we encounter an error.
Otherwise we do raise if we encounter an error.
Return Value:
Type of open
--*/
{
*Scb = (PSCB)FileObject->FsContext;
if (*Scb != NULL) {
*Vcb = (*Scb)->Vcb;
*Ccb = (PCCB)FileObject->FsContext2;
*Fcb = (*Scb)->Fcb;
//
// If the caller wants us to raise, let's see if there's anything
// we should raise.
//
if (RaiseOnError &&
!FlagOn((*Vcb)->VcbState, VCB_STATE_VOLUME_MOUNTED) &&
((*Ccb == NULL) ||
((*Ccb)->TypeOfOpen != UserVolumeOpen) ||
!FlagOn((*Vcb)->VcbState, VCB_STATE_LOCKED))) {
NtfsRaiseStatusFunction( IrpContext, STATUS_VOLUME_DISMOUNTED );
}
//
// Every open except a StreamFileOpen has a Ccb.
//
if (*Ccb == NULL) {
return StreamFileOpen;
} else {
return (*Ccb)->TypeOfOpen;
}
} else {
//
// No Scb, we assume the file wasn't open.
//
*Ccb = NULL;
return UnopenedFileObject;
}
}
#endif // _DECODE_MACRO_
//
// PSCB
// NtfsFastDecodeUserFileOpen (
// IN PFILE_OBJECT FileObject
// );
//
#define NtfsFastDecodeUserFileOpen(FO) ( \
(((FO)->FsContext2 != NULL) && (((PCCB)(FO)->FsContext2)->TypeOfOpen == UserFileOpen)) ? \
(PSCB)(FO)->FsContext : NULL \
)
VOID
NtfsUpdateScbFromFileObject (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject,
IN PSCB Scb,
IN BOOLEAN CheckTimeStamps
);
//
// Ntfs-private FastIo routines.
//
BOOLEAN
NtfsCopyReadA (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN ULONG LockKey,
OUT PVOID Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsCopyWriteA (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN ULONG LockKey,
IN PVOID Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsMdlReadA (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsPrepareMdlWriteA (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG LockKey,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsWaitForIoAtEof (
IN PNTFS_ADVANCED_FCB_HEADER Header,
IN OUT PLARGE_INTEGER FileOffset,
IN ULONG Length
);
VOID
NtfsFinishIoAtEof (
IN PNTFS_ADVANCED_FCB_HEADER Header
);
//
// VOID
// FsRtlLockFsRtlHeader (
// IN PNTFS_ADVANCED_FCB_HEADER FsRtlHeader
// );
//
// VOID
// FsRtlUnlockFsRtlHeader (
// IN PNTFS_ADVANCED_FCB_HEADER FsRtlHeader
// );
//
#define FsRtlLockFsRtlHeader(H) { \
ExAcquireFastMutex( (H)->FastMutex ); \
if (((H)->Flags & FSRTL_FLAG_EOF_ADVANCE_ACTIVE)) { \
NtfsWaitForIoAtEof( (H), &LiEof, 0 ); \
} \
(H)->Flags |= FSRTL_FLAG_EOF_ADVANCE_ACTIVE; \
ExReleaseFastMutex( (H)->FastMutex ); \
}
#define FsRtlUnlockFsRtlHeader(H) { \
ExAcquireFastMutex( (H)->FastMutex ); \
NtfsFinishIoAtEof( (H) ); \
ExReleaseFastMutex( (H)->FastMutex ); \
}
//
// Volume locking/unlocking routines, implemented in FsCtrl.c.
//
NTSTATUS
NtfsLockVolumeInternal (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_OBJECT FileObjectWithVcbLocked,
IN OUT PULONG Retrying
);
NTSTATUS
NtfsUnlockVolumeInternal (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
//
// Indexing routine interfaces, implemented in IndexSup.c.
//
VOID
NtfsCreateIndex (
IN PIRP_CONTEXT IrpContext,
IN OUT PFCB Fcb,
IN ATTRIBUTE_TYPE_CODE IndexedAttributeType,
IN COLLATION_RULE CollationRule,
IN ULONG BytesPerIndexBuffer,
IN UCHAR BlocksPerIndexBuffer,
IN PATTRIBUTE_ENUMERATION_CONTEXT Context OPTIONAL,
IN USHORT AttributeFlags,
IN BOOLEAN NewIndex,
IN BOOLEAN LogIt
);
VOID
NtfsUpdateIndexScbFromAttribute (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PATTRIBUTE_RECORD_HEADER IndexRootAttr,
IN ULONG MustBeFileName
);
BOOLEAN
NtfsFindIndexEntry (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PVOID Value,
IN BOOLEAN IgnoreCase,
OUT PQUICK_INDEX QuickIndex OPTIONAL,
OUT PBCB *Bcb,
OUT PINDEX_ENTRY *IndexEntry,
OUT PINDEX_CONTEXT IndexContext OPTIONAL
);
VOID
NtfsUpdateFileNameInIndex (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PFILE_NAME FileName,
IN PDUPLICATED_INFORMATION Info,
IN OUT PQUICK_INDEX QuickIndex OPTIONAL
);
VOID
NtfsAddIndexEntry (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PVOID Value,
IN ULONG ValueLength,
IN PFILE_REFERENCE FileReference,
IN PINDEX_CONTEXT IndexContext OPTIONAL,
OUT PQUICK_INDEX QuickIndex OPTIONAL
);
VOID
NtfsDeleteIndexEntry (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PVOID Value,
IN PFILE_REFERENCE FileReference
);
VOID
NtfsPushIndexRoot (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
BOOLEAN
NtfsRestartIndexEnumeration (
IN PIRP_CONTEXT IrpContext,
IN PCCB Ccb,
IN PSCB Scb,
IN PVOID Value,
IN BOOLEAN IgnoreCase,
IN BOOLEAN NextFlag,
OUT PINDEX_ENTRY *IndexEntry,
IN PFCB AcquiredFcb OPTIONAL
);
BOOLEAN
NtfsContinueIndexEnumeration (
IN PIRP_CONTEXT IrpContext,
IN PCCB Ccb,
IN PSCB Scb,
IN BOOLEAN NextFlag,
OUT PINDEX_ENTRY *IndexEntry
);
PFILE_NAME
NtfsRetrieveOtherFileName (
IN PIRP_CONTEXT IrpContext,
IN PCCB Ccb,
IN PSCB Scb,
IN PINDEX_ENTRY IndexEntry,
IN OUT PINDEX_CONTEXT OtherContext,
IN PFCB AcquiredFcb OPTIONAL,
OUT PBOOLEAN SynchronizationError
);
VOID
NtfsCleanupAfterEnumeration (
IN PIRP_CONTEXT IrpContext,
IN PCCB Ccb
);
BOOLEAN
NtfsIsIndexEmpty (
IN PIRP_CONTEXT IrpContext,
IN PATTRIBUTE_RECORD_HEADER Attribute
);
VOID
NtfsDeleteIndex (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PUNICODE_STRING AttributeName
);
VOID
NtfsInitializeIndexContext (
OUT PINDEX_CONTEXT IndexContext
);
VOID
NtfsCleanupIndexContext (
IN PIRP_CONTEXT IrpContext,
OUT PINDEX_CONTEXT IndexContext
);
VOID
NtfsReinitializeIndexContext (
IN PIRP_CONTEXT IrpContext,
OUT PINDEX_CONTEXT IndexContext
);
//
// PVOID
// NtfsFoundIndexEntry (
// IN PIRP_CONTEXT IrpContext,
// IN PINDEX_ENTRY IndexEntry
// );
//
#define NtfsFoundIndexEntry(IE) ((PVOID) \
((PUCHAR) (IE) + sizeof( INDEX_ENTRY )) \
)
//
// Restart routines for IndexSup
//
VOID
NtfsRestartInsertSimpleRoot (
IN PIRP_CONTEXT IrpContext,
IN PINDEX_ENTRY InsertIndexEntry,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PATTRIBUTE_RECORD_HEADER Attribute,
IN PINDEX_ENTRY BeforeIndexEntry
);
VOID
NtfsRestartInsertSimpleAllocation (
IN PINDEX_ENTRY InsertIndexEntry,
IN PINDEX_ALLOCATION_BUFFER IndexBuffer,
IN PINDEX_ENTRY BeforeIndexEntry
);
VOID
NtfsRestartWriteEndOfIndex (
IN PINDEX_HEADER IndexHeader,
IN PINDEX_ENTRY OverwriteIndexEntry,
IN PINDEX_ENTRY FirstNewIndexEntry,
IN ULONG Length
);
VOID
NtfsRestartSetIndexBlock(
IN PINDEX_ENTRY IndexEntry,
IN LONGLONG IndexBlock
);
VOID
NtfsRestartUpdateFileName(
IN PINDEX_ENTRY IndexEntry,
IN PDUPLICATED_INFORMATION Info
);
VOID
NtfsRestartDeleteSimpleRoot (
IN PIRP_CONTEXT IrpContext,
IN PINDEX_ENTRY IndexEntry,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PATTRIBUTE_RECORD_HEADER Attribute
);
VOID
NtfsRestartDeleteSimpleAllocation (
IN PINDEX_ENTRY IndexEntry,
IN PINDEX_ALLOCATION_BUFFER IndexBuffer
);
VOID
NtOfsRestartUpdateDataInIndex(
IN PINDEX_ENTRY IndexEntry,
IN PVOID IndexData,
IN ULONG Length );
//
// Ntfs hashing routines, implemented in HashSup.c
//
VOID
NtfsInitializeHashTable (
IN OUT PNTFS_HASH_TABLE Table
);
VOID
NtfsUninitializeHashTable (
IN OUT PNTFS_HASH_TABLE Table
);
PLCB
NtfsFindPrefixHashEntry (
IN PIRP_CONTEXT IrpContext,
IN PNTFS_HASH_TABLE Table,
IN PSCB ParentScb,
IN OUT PULONG CreateFlags,
IN OUT PFCB *CurrentFcb,
OUT PULONG FileHashValue,
OUT PULONG FileNameLength,
OUT PULONG ParentHashValue,
OUT PULONG ParentNameLength,
IN OUT PUNICODE_STRING RemainingName
);
VOID
NtfsInsertHashEntry (
IN PNTFS_HASH_TABLE Table,
IN PLCB HashLcb,
IN ULONG NameLength,
IN ULONG HashValue
);
VOID
NtfsRemoveHashEntry (
IN PNTFS_HASH_TABLE Table,
IN PLCB HashLcb
);
//
// VOID
// NtfsRemoveHashEntriesForLcb (
// IN PLCB Lcb
// );
//
#define NtfsRemoveHashEntriesForLcb(L) { \
if (FlagOn( (L)->LcbState, LCB_STATE_VALID_HASH_VALUE )) { \
NtfsRemoveHashEntry( &(L)->Fcb->Vcb->HashTable, \
(L) ); \
} \
}
//
// Ntfs Logging Routine interfaces in LogSup.c
//
LSN
NtfsWriteLog (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PBCB Bcb OPTIONAL,
IN NTFS_LOG_OPERATION RedoOperation,
IN PVOID RedoBuffer OPTIONAL,
IN ULONG RedoLength,
IN NTFS_LOG_OPERATION UndoOperation,
IN PVOID UndoBuffer OPTIONAL,
IN ULONG UndoLength,
IN LONGLONG StreamOffset,
IN ULONG RecordOffset,
IN ULONG AttributeOffset,
IN ULONG StructureSize
);
VOID
NtfsCheckpointVolume (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN OwnsCheckpoint,
IN BOOLEAN CleanVolume,
IN BOOLEAN FlushVolume,
IN ULONG LfsFlags,
IN LSN LastKnownLsn
);
VOID
NtfsCheckpointForLogFileFull (
IN PIRP_CONTEXT IrpContext
);
NTSTATUS
NtfsCheckpointForVolumeSnapshot (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsCleanCheckpoint (
IN PVCB Vcb
);
VOID
NtfsCommitCurrentTransaction (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsCheckpointCurrentTransaction (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsInitializeLogging (
);
VOID
NtfsStartLogFile (
IN PSCB LogFileScb,
IN PVCB Vcb
);
VOID
NtfsStopLogFile (
IN PVCB Vcb
);
VOID
NtfsInitializeRestartTable (
IN ULONG EntrySize,
IN ULONG NumberEntries,
OUT PRESTART_POINTERS TablePointer
);
VOID
InitializeNewTable (
IN ULONG EntrySize,
IN ULONG NumberEntries,
OUT PRESTART_POINTERS TablePointer
);
VOID
NtfsFreeRestartTable (
IN PRESTART_POINTERS TablePointer
);
VOID
NtfsExtendRestartTable (
IN PRESTART_POINTERS TablePointer,
IN ULONG NumberNewEntries,
IN ULONG FreeGoal
);
ULONG
NtfsAllocateRestartTableIndex (
IN PRESTART_POINTERS TablePointer,
IN ULONG Exclusive
);
PVOID
NtfsAllocateRestartTableFromIndex (
IN PRESTART_POINTERS TablePointer,
IN ULONG Index
);
VOID
NtfsFreeRestartTableIndex (
IN PRESTART_POINTERS TablePointer,
IN ULONG Index
);
PVOID
NtfsGetFirstRestartTable (
IN PRESTART_POINTERS TablePointer
);
PVOID
NtfsGetNextRestartTable (
IN PRESTART_POINTERS TablePointer,
IN PVOID Current
);
VOID
NtfsUpdateOatVersion (
IN PVCB Vcb,
IN ULONG NewRestartVersion
);
VOID
NtfsFreeRecentlyDeallocated (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PLSN BaseLsn,
IN ULONG CleanVolume
);
//
//
// VOID
// NtfsFreeOpenAttributeData (
// IN POPEN_ATTRIBUTE_DATA Entry
// );
//
#define NtfsFreeOpenAttributeData(E) { \
RemoveEntryList( &(E)->Links ); \
NtfsFreePool( E ); \
}
//
// VOID
// NtfsNormalizeAndCleanupTransaction (
// IN PIRP_CONTEXT IrpContext,
// IN NTSTATUS *Status,
// IN BOOLEAN AlwaysRaise,
// IN NTSTATUS NormalizeStatus
// );
//
#define NtfsNormalizeAndCleanupTransaction(IC,PSTAT,RAISE,NORM_STAT) { \
if (!NT_SUCCESS( (IC)->TopLevelIrpContext->ExceptionStatus )) { \
NtfsRaiseStatus( (IC), (IC)->TopLevelIrpContext->ExceptionStatus, NULL, NULL ); \
} else if (!NT_SUCCESS( *(PSTAT) )) { \
*(PSTAT) = FsRtlNormalizeNtstatus( *(PSTAT), (NORM_STAT) ); \
if ((RAISE) || ((IC)->TopLevelIrpContext->TransactionId != 0)) { \
NtfsRaiseStatus( (IC), *(PSTAT), NULL, NULL ); \
} \
} \
}
//
// VOID
// NtfsCleanupTransaction (
// IN PIRP_CONTEXT IrpContext,
// IN NTSTATUS Status,
// IN BOOLEAN AlwaysRaise
// );
//
#define NtfsCleanupTransaction(IC,STAT,RAISE) { \
if (!NT_SUCCESS( (IC)->TopLevelIrpContext->ExceptionStatus )) { \
NtfsRaiseStatus( (IC), (IC)->TopLevelIrpContext->ExceptionStatus, NULL, NULL ); \
} else if (!NT_SUCCESS( STAT ) && \
((RAISE) || ((IC)->TopLevelIrpContext->TransactionId != 0))) { \
NtfsRaiseStatus( (IC), (STAT), NULL, NULL ); \
} else if (((IC)->Usn.NewReasons != 0) || ((IC)->Usn.RemovedSourceInfo != 0)) { \
NtfsWriteUsnJournalChanges( (IC) ); \
NtfsCommitCurrentTransaction( (IC) ); \
} \
}
//
// VOID
// NtfsCleanupTransactionAndCommit (
// IN PIRP_CONTEXT IrpContext,
// IN NTSTATUS Status,
// IN BOOLEAN AlwaysRaise
// );
//
#define NtfsCleanupTransactionAndCommit(IC,STAT,RAISE) { \
if (!NT_SUCCESS( (IC)->TopLevelIrpContext->ExceptionStatus )) { \
NtfsRaiseStatus( (IC), (IC)->TopLevelIrpContext->ExceptionStatus, NULL, NULL ); \
} else if (!NT_SUCCESS( STAT ) && \
((RAISE) || ((IC)->TopLevelIrpContext->TransactionId != 0))) { \
NtfsRaiseStatus( (IC), (STAT), NULL, NULL ); \
} else if (((IC)->Usn.NewReasons != 0) || ((IC)->Usn.RemovedSourceInfo != 0)) { \
NtfsWriteUsnJournalChanges( (IC) ); \
NtfsCommitCurrentTransaction( (IC) ); \
} else { \
NtfsCommitCurrentTransaction( (IC) ); \
} \
}
VOID
NtfsCleanupFailedTransaction (
IN PIRP_CONTEXT IrpContext
);
//
// NTFS MCB support routine, implemented in McbSup.c
//
//
// An Ntfs Mcb is a superset of the regular mcb package. In
// addition to the regular Mcb functions it will unload mapping
// information to keep it overall memory usage down
//
VOID
NtfsInitializeNtfsMcb (
IN PNTFS_MCB Mcb,
IN PNTFS_ADVANCED_FCB_HEADER FcbHeader,
IN PNTFS_MCB_INITIAL_STRUCTS McbStructs,
IN POOL_TYPE PoolType
);
VOID
NtfsUninitializeNtfsMcb (
IN PNTFS_MCB Mcb
);
VOID
NtfsRemoveNtfsMcbEntry (
IN PNTFS_MCB Mcb,
IN LONGLONG Vcn,
IN LONGLONG Count
);
VOID
NtfsUnloadNtfsMcbRange (
IN PNTFS_MCB Mcb,
IN LONGLONG StartingVcn,
IN LONGLONG EndingVcn,
IN BOOLEAN TruncateOnly,
IN BOOLEAN AlreadySynchronized
);
ULONG
NtfsNumberOfRangesInNtfsMcb (
IN PNTFS_MCB Mcb
);
BOOLEAN
NtfsNumberOfRunsInRange(
IN PNTFS_MCB Mcb,
IN PVOID RangePtr,
OUT PULONG NumberOfRuns
);
BOOLEAN
NtfsLookupLastNtfsMcbEntry (
IN PNTFS_MCB Mcb,
OUT PLONGLONG Vcn,
OUT PLONGLONG Lcn
);
ULONG
NtfsMcbLookupArrayIndex (
IN PNTFS_MCB Mcb,
IN VCN Vcn
);
BOOLEAN
NtfsSplitNtfsMcb (
IN PNTFS_MCB Mcb,
IN LONGLONG Vcn,
IN LONGLONG Amount
);
BOOLEAN
NtfsAddNtfsMcbEntry (
IN PNTFS_MCB Mcb,
IN LONGLONG Vcn,
IN LONGLONG Lcn,
IN LONGLONG RunCount,
IN BOOLEAN AlreadySynchronized
);
BOOLEAN
NtfsLookupNtfsMcbEntry (
IN PNTFS_MCB Mcb,
IN LONGLONG Vcn,
OUT PLONGLONG Lcn OPTIONAL,
OUT PLONGLONG CountFromLcn OPTIONAL,
OUT PLONGLONG StartingLcn OPTIONAL,
OUT PLONGLONG CountFromStartingLcn OPTIONAL,
OUT PVOID *RangePtr OPTIONAL,
OUT PULONG RunIndex OPTIONAL
);
BOOLEAN
NtfsGetNextNtfsMcbEntry (
IN PNTFS_MCB Mcb,
IN PVOID *RangePtr,
IN ULONG RunIndex,
OUT PLONGLONG Vcn,
OUT PLONGLONG Lcn,
OUT PLONGLONG Count
);
//
// BOOLEAN
// NtfsGetSequentialMcbEntry (
// IN PNTFS_MCB Mcb,
// IN PVOID *RangePtr,
// IN ULONG RunIndex,
// OUT PLONGLONG Vcn,
// OUT PLONGLONG Lcn,
// OUT PLONGLONG Count
// );
//
#define NtfsGetSequentialMcbEntry(MC,RGI,RNI,V,L,C) ( \
NtfsGetNextNtfsMcbEntry(MC,RGI,RNI,V,L,C) || \
(RNI = 0) || \
NtfsGetNextNtfsMcbEntry(MC,RGI,MAXULONG,V,L,C) || \
((RNI = MAXULONG) == 0) \
)
VOID
NtfsDefineNtfsMcbRange (
IN PNTFS_MCB Mcb,
IN LONGLONG StartingVcn,
IN LONGLONG EndingVcn,
IN BOOLEAN AlreadySynchronized
);
VOID
NtfsSwapMcbs (
IN PNTFS_MCB McbTarget,
IN PNTFS_MCB McbSource
);
//
// VOID
// NtfsAcquireNtfsMcbMutex (
// IN PNTFS_MCB Mcb
// );
//
// VOID
// NtfsReleaseNtfsMcbMutex (
// IN PNTFS_MCB Mcb
// );
//
#define NtfsAcquireNtfsMcbMutex(M) { \
ExAcquireFastMutex((M)->FastMutex); \
}
#define NtfsReleaseNtfsMcbMutex(M) { \
ExReleaseFastMutex((M)->FastMutex); \
}
//
// MFT access routines, implemented in MftSup.c
//
//
// Mft map cache routines. We maintain a cache of active maps in the
// IRP_CONTEXT and consult this if we need to map a file record.
//
INLINE
PIRP_FILE_RECORD_CACHE_ENTRY
NtfsFindFileRecordCacheEntry (
IN PIRP_CONTEXT IrpContext,
IN ULONG UnsafeSegmentNumber
)
{
#if (IRP_FILE_RECORD_MAP_CACHE_SIZE <= 4)
#define PROBECACHE(ic,sn,i) \
ASSERT((ic)->FileRecordCache[(i)].FileRecordBcb != NULL); \
if ((ic)->FileRecordCache[(i)].UnsafeSegmentNumber == (sn)) \
{ \
return IrpContext->FileRecordCache + (i); \
}
// DebugTrace( 0, 0, ("Context %08x finding %x\n", IrpContext, UnsafeSegmentNumber ));
ASSERT(IrpContext->CacheCount <= 4);
switch (IrpContext->CacheCount) {
case 4:
PROBECACHE( IrpContext, UnsafeSegmentNumber, 3 );
// Fallthru
case 3:
PROBECACHE( IrpContext, UnsafeSegmentNumber, 2 );
// Fallthru
case 2:
PROBECACHE( IrpContext, UnsafeSegmentNumber, 1 );
// Fallthru
case 1:
PROBECACHE( IrpContext, UnsafeSegmentNumber, 0 );
// Fallthru
case 0:
//
// redundant default case (and matching assert above) added to quiet
// warning 4715:
//
// "not all control paths return a value."
//
default:
return NULL;
}
#else
PIRP_FILE_RECORD_CACHE_ENTRY Entry;
for (Entry = IrpContext->FileRecordCache;
Entry < IrpContext->FileRecordCache + IrpContext->CacheCount;
Entry++) {
ASSERT( Entry->FileRecordBcb != NULL);
if (Entry->UnsafeSegmentNumber == UnsafeSegmentNumber) {
return Entry;
}
}
return NULL;
#endif
}
INLINE
VOID
NtfsRemoveFromFileRecordCache (
IN PIRP_CONTEXT IrpContext,
IN ULONG UnsafeSegmentNumber
)
{
PIRP_FILE_RECORD_CACHE_ENTRY Entry =
NtfsFindFileRecordCacheEntry( IrpContext, UnsafeSegmentNumber );
// DebugTrace( 0, 0, ("Context %08x removing %x\n", IrpContext, Entry ));
if (Entry != NULL) {
ASSERT( Entry->FileRecordBcb != NULL );
//
// We delete the entry at position [i] by dereferencing the Bcb and
// copying the entire structure from [IrpContext->CacheCount]
//
NtfsUnpinBcb( IrpContext, &Entry->FileRecordBcb );
//
// Decrement the active count. If there are no more cache entries,
// then we're done.
//
IrpContext->CacheCount--;
if (IrpContext->FileRecordCache + IrpContext->CacheCount != Entry) {
*Entry = IrpContext->FileRecordCache[IrpContext->CacheCount];
}
}
}
#ifndef KDEXT
INLINE
VOID
NtfsAddToFileRecordCache (
IN PIRP_CONTEXT IrpContext,
IN ULONG UnsafeSegmentNumber,
IN PBCB FileRecordBcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord
)
{
PAGED_CODE( );
if (IrpContext->CacheCount < IRP_FILE_RECORD_MAP_CACHE_SIZE) {
// DebugTrace( 0, 0, ("Context %08x adding %x at %x\n", IrpContext, UnsafeSegmentNumber,
// IrpContext->FileRecordCache + IrpContext->CacheCount ));
IrpContext->FileRecordCache[IrpContext->CacheCount].UnsafeSegmentNumber =
UnsafeSegmentNumber;
IrpContext->FileRecordCache[IrpContext->CacheCount].FileRecordBcb =
NtfsRemapBcb( IrpContext, FileRecordBcb );
IrpContext->FileRecordCache[IrpContext->CacheCount].FileRecord = FileRecord;
IrpContext->CacheCount++;
}
}
#endif
INLINE
VOID
NtfsPurgeFileRecordCache (
IN PIRP_CONTEXT IrpContext
)
{
while (IrpContext->CacheCount) {
IrpContext->CacheCount --;
// DebugTrace( 0, 0, ("Context %08x purging %x\n", IrpContext, IrpContext->FileRecordCache + IrpContext->CacheCount ));
NtfsUnpinBcb( IrpContext, &IrpContext->FileRecordCache[IrpContext->CacheCount].FileRecordBcb );
}
}
#if DBG
extern ULONG FileRecordCacheHitArray[IRP_FILE_RECORD_MAP_CACHE_SIZE];
#endif // DBG
INLINE
BOOLEAN
NtfsFindCachedFileRecord (
IN PIRP_CONTEXT IrpContext,
IN ULONG UnsafeSegmentNumber,
OUT PBCB *Bcb,
OUT PFILE_RECORD_SEGMENT_HEADER *FileRecord
)
{
PIRP_FILE_RECORD_CACHE_ENTRY Entry =
NtfsFindFileRecordCacheEntry( IrpContext, UnsafeSegmentNumber );
// DebugTrace( 0, 0, ("Context %x finding %x = %x\n", IrpContext, UnsafeSegmentNumber, Entry ));
if (Entry == NULL) {
return FALSE;
}
*Bcb = NtfsRemapBcb( IrpContext, Entry->FileRecordBcb );
*FileRecord = Entry->FileRecord;
return TRUE;
}
//
// This routine may only be used to read the Base file record segment, and
// it checks that this is true.
//
VOID
NtfsReadFileRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_REFERENCE FileReference,
OUT PBCB *Bcb,
OUT PFILE_RECORD_SEGMENT_HEADER *BaseFileRecord,
OUT PATTRIBUTE_RECORD_HEADER *FirstAttribute,
OUT PLONGLONG MftFileOffset OPTIONAL
);
//
// These routines can read/pin any record in the MFT.
//
VOID
NtfsReadMftRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PMFT_SEGMENT_REFERENCE SegmentReference,
IN BOOLEAN CheckRecord,
OUT PBCB *Bcb,
OUT PFILE_RECORD_SEGMENT_HEADER *FileRecord,
OUT PLONGLONG MftFileOffset OPTIONAL
);
VOID
NtfsPinMftRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PMFT_SEGMENT_REFERENCE SegmentReference,
IN BOOLEAN PreparingToWrite,
OUT PBCB *Bcb,
OUT PFILE_RECORD_SEGMENT_HEADER *FileRecord,
OUT PLONGLONG MftFileOffset OPTIONAL
);
//
// The following routines are used to setup, allocate, and deallocate
// file records in the Mft.
//
MFT_SEGMENT_REFERENCE
NtfsAllocateMftRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN MftData
);
VOID
NtfsInitializeMftRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN OUT PMFT_SEGMENT_REFERENCE MftSegment,
IN OUT PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PBCB Bcb,
IN BOOLEAN Directory
);
VOID
NtfsDeallocateMftRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG FileNumber
);
BOOLEAN
NtfsIsMftIndexInHole (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG Index,
OUT PULONG HoleLength OPTIONAL
);
VOID
NtfsFillMftHole (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG Index
);
VOID
NtfsLogMftFileRecord (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN LONGLONG MftOffset,
IN PBCB FileRecordBcb,
IN BOOLEAN RedoOperation
);
BOOLEAN
NtfsDefragMft (
IN PDEFRAG_MFT DefragMft
);
VOID
NtfsCheckForDefrag (
IN OUT PVCB Vcb
);
VOID
NtfsInitializeMftHoleRecords (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG FirstIndex,
IN ULONG RecordCount
);
//
// Name support routines, implemented in NameSup.c
//
typedef enum _PARSE_TERMINATION_REASON {
EndOfPathReached,
NonSimpleName,
IllegalCharacterInName,
MalFormedName,
AttributeOnly,
VersionNumberPresent
} PARSE_TERMINATION_REASON;
#define NtfsDissectName(Path,FirstName,RemainingName) \
( FsRtlDissectName( Path, FirstName, RemainingName ) )
BOOLEAN
NtfsParseName (
IN const UNICODE_STRING Name,
IN BOOLEAN WildCardsPermissible,
OUT PBOOLEAN FoundIllegalCharacter,
OUT PNTFS_NAME_DESCRIPTOR ParsedName
);
PARSE_TERMINATION_REASON
NtfsParsePath (
IN UNICODE_STRING Path,
IN BOOLEAN WildCardsPermissible,
OUT PUNICODE_STRING FirstPart,
OUT PNTFS_NAME_DESCRIPTOR Name,
OUT PUNICODE_STRING RemainingPart
);
VOID
NtfsPreprocessName (
IN UNICODE_STRING InputString,
OUT PUNICODE_STRING FirstPart,
OUT PUNICODE_STRING AttributeCode,
OUT PUNICODE_STRING AttributeName,
OUT PBOOLEAN TrailingBackslash
);
VOID
NtfsUpcaseName (
IN PWCH UpcaseTable,
IN ULONG UpcaseTableSize,
IN OUT PUNICODE_STRING InputString
);
FSRTL_COMPARISON_RESULT
NtfsCollateNames (
IN PCWCH UpcaseTable,
IN ULONG UpcaseTableSize,
IN PCUNICODE_STRING Expression,
IN PCUNICODE_STRING Name,
IN FSRTL_COMPARISON_RESULT WildIs,
IN BOOLEAN IgnoreCase
);
#define NtfsIsNameInExpression(UC,EX,NM,IC) \
FsRtlIsNameInExpression( (EX), (NM), (IC), (UC) )
BOOLEAN
NtfsIsFileNameValid (
IN PUNICODE_STRING FileName,
IN BOOLEAN WildCardsPermissible
);
BOOLEAN
NtfsIsFatNameValid (
IN PUNICODE_STRING FileName,
IN BOOLEAN WildCardsPermissible
);
//
// Ntfs works very hard to make sure that all names are kept in upper case
// so that most comparisons are done case SENSITIVE. Name testing for
// case SENSITIVE can be very quick since RtlEqualMemory is an inline operation
// on several processors.
//
// NtfsAreNamesEqual is used when the caller does not know for sure whether
// or not case is important. In the case where IgnoreCase is a known value,
// the compiler can easily optimize the relevant clause.
//
#define NtfsAreNamesEqual(UpcaseTable,Name1,Name2,IgnoreCase) \
((IgnoreCase) ? FsRtlAreNamesEqual( (Name1), (Name2), (IgnoreCase), (UpcaseTable) ) \
: ((Name1)->Length == (Name2)->Length && \
RtlEqualMemory( (Name1)->Buffer, (Name2)->Buffer, (Name1)->Length )))
//
// Object id support routines, implemented in ObjIdSup.c
//
VOID
NtfsInitializeObjectIdIndex (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PVCB Vcb
);
NTSTATUS
NtfsSetObjectId (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsSetObjectIdExtendedInfo (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsSetObjectIdInternal (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PVCB Vcb,
IN PFILE_OBJECTID_BUFFER ObjectIdBuffer
);
NTSTATUS
NtfsCreateOrGetObjectId (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsGetObjectId (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsGetObjectIdInternal (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN BOOLEAN GetExtendedInfo,
OUT FILE_OBJECTID_BUFFER *OutputBuffer
);
NTSTATUS
NtfsGetObjectIdExtendedInfo (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN UCHAR *ObjectId,
IN OUT UCHAR *ExtendedInfo
);
NTSTATUS
NtfsDeleteObjectId (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsDeleteObjectIdInternal (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PVCB Vcb,
IN BOOLEAN DeleteFileAttribute
);
VOID
NtfsRepairObjectId (
IN PIRP_CONTEXT IrpContext,
IN PVOID Context
);
//
// Mount point support routines, implemented in MountSup.c
//
VOID
NtfsInitializeReparsePointIndex (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PVCB Vcb
);
//
// Largest matching prefix searching routines, implemented in PrefxSup.c
//
VOID
NtfsInsertPrefix (
IN PLCB Lcb,
IN ULONG CreateFlags
);
VOID
NtfsRemovePrefix (
IN PLCB Lcb
);
PLCB
NtfsFindPrefix (
IN PIRP_CONTEXT IrpContext,
IN PSCB StartingScb,
OUT PFCB *CurrentFcb,
OUT PLCB *LcbForTeardown,
IN OUT UNICODE_STRING FullFileName,
IN OUT PULONG CreateFlags,
OUT PUNICODE_STRING RemainingName
);
BOOLEAN
NtfsInsertNameLink (
IN PRTL_SPLAY_LINKS *RootNode,
IN PNAME_LINK NameLink
);
//
// VOID
// NtfsRemoveNameLink (
// IN PRTL_SPLAY_LINKS *RootNode,
// IN PNAME_LINK NameLink
// );
//
#define NtfsRemoveNameLink(RN,NL) { \
*(RN) = RtlDelete( &(NL)->Links ); \
}
PNAME_LINK
NtfsFindNameLink (
IN PRTL_SPLAY_LINKS *RootNode,
IN PUNICODE_STRING Name
);
//
// The following macro is useful for traversing the queue of Prefixes
// attached to a given Lcb
//
// PPREFIX_ENTRY
// NtfsGetNextPrefix (
// IN PIRP_CONTEXT IrpContext,
// IN PLCB Lcb,
// IN PPREFIX_ENTRY PreviousPrefixEntry
// );
//
#define NtfsGetNextPrefix(IC,LC,PPE) ((PPREFIX_ENTRY) \
((PPE) == NULL ? \
(IsListEmpty(&(LC)->PrefixQueue) ? \
NULL \
: \
CONTAINING_RECORD((LC)->PrefixQueue.Flink, PREFIX_ENTRY, LcbLinks.Flink) \
) \
: \
((PVOID)((PPREFIX_ENTRY)(PPE))->LcbLinks.Flink == &(LC)->PrefixQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PPREFIX_ENTRY)(PPE))->LcbLinks.Flink, PREFIX_ENTRY, LcbLinks.Flink) \
) \
) \
)
//
// Resources support routines/macros, implemented in ResrcSup.c
//
//
// Flags used in the acquire routines
//
#define ACQUIRE_NO_DELETE_CHECK (0x00000001)
#define ACQUIRE_DONT_WAIT (0x00000002)
#define ACQUIRE_HOLD_BITMAP (0x00000004)
#define ACQUIRE_WAIT (0x00000008)
//
// VOID
// NtfsAcquireExclusiveGlobal (
// IN PIRP_CONTEXT IrpContext,
// IN BOOLEAN Wait
// );
//
// BOOLEAN
// NtfsAcquireSharedGlobal (
// IN PIRP_CONTEXT IrpContext,
// IN BOOLEAN Wait
// );
//
#define NtfsAcquireSharedGlobal( I, W ) ExAcquireResourceSharedLite( &NtfsData.Resource, (W) )
#define NtfsAcquireExclusiveGlobal( I, W ) ExAcquireResourceExclusiveLite( &NtfsData.Resource, (W) )
VOID
NtfsAcquireCheckpointSynchronization (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
VOID
NtfsReleaseCheckpointSynchronization (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
//
// VOID
// NtfsLockNtfsData (
// );
//
// VOID
// NtfsUnlockNtfsData (
// );
//
#define NtfsLockNtfsData() { \
ExAcquireFastMutex( &NtfsData.NtfsDataLock ); \
}
#define NtfsUnlockNtfsData() { \
ExReleaseFastMutex( &NtfsData.NtfsDataLock ); \
}
VOID
NtfsAcquireAllFiles (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG Exclusive,
IN ULONG AcquirePagingIo,
IN ULONG AcquireAndDrop
);
VOID
NtfsReleaseAllFiles (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN ReleasePagingIo
);
BOOLEAN
NtfsAcquireExclusiveVcb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN RaiseOnCantWait
);
BOOLEAN
NtfsAcquireSharedVcb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN RaiseOnCantWait
);
#define NtfsAcquireExclusivePagingIo(IC,FCB) { \
ASSERT((IC)->CleanupStructure == NULL); \
ExAcquireResourceExclusiveLite(((PFCB)(FCB))->PagingIoResource, TRUE); \
(IC)->CleanupStructure = (FCB); \
}
#define NtfsReleasePagingIo(IC,FCB) { \
ASSERT((IC)->CleanupStructure == (FCB)); \
ExReleaseResourceLite(((PFCB)(FCB))->PagingIoResource); \
(IC)->CleanupStructure = NULL; \
}
BOOLEAN
NtfsAcquireFcbWithPaging (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ULONG AcquireFlags
);
VOID
NtfsReleaseFcbWithPaging (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
VOID
NtfsReleaseScbWithPaging (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
BOOLEAN
NtfsAcquireExclusiveFcb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB Scb OPTIONAL,
IN ULONG AcquireFlags
);
VOID
NtfsAcquireSharedFcb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB Scb OPTIONAL,
IN ULONG AcquireFlags
);
BOOLEAN
NtfsAcquireSharedFcbCheckWait (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ULONG AcquireFlags
);
VOID
NtfsReleaseFcb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
VOID
NtfsAcquireExclusiveScb (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
#ifdef NTFSDBG
BOOLEAN
NtfsAcquireResourceExclusive (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb,
IN BOOLEAN Wait
);
#else
INLINE
BOOLEAN
NtfsAcquireResourceExclusive (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb,
IN BOOLEAN Wait
)
{
UNREFERENCED_PARAMETER( IrpContext );
if (NTFS_NTC_FCB == ((PFCB)FcbOrScb)->NodeTypeCode) {
return ExAcquireResourceExclusiveLite( ((PFCB)FcbOrScb)->Resource, Wait );
} else {
return ExAcquireResourceExclusiveLite( ((PSCB)(FcbOrScb))->Header.Resource, Wait );
}
}
#endif
INLINE
BOOLEAN
NtfsAcquirePagingResourceSharedWaitForExclusive (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb,
IN BOOLEAN Wait
)
{
BOOLEAN Result;
UNREFERENCED_PARAMETER( IrpContext );
if (NTFS_NTC_FCB == ((PFCB)FcbOrScb)->NodeTypeCode) {
Result = ExAcquireSharedWaitForExclusive( ((PFCB)FcbOrScb)->PagingIoResource, Wait );
} else {
Result = ExAcquireSharedWaitForExclusive( ((PSCB)(FcbOrScb))->Header.PagingIoResource, Wait );
}
return Result;
}
#ifdef NTFSDBG
BOOLEAN
NtfsAcquireResourceShared (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb,
IN BOOLEAN Wait
);
#else
INLINE
BOOLEAN
NtfsAcquireResourceShared (
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb,
IN BOOLEAN Wait
)
{
BOOLEAN Result;
UNREFERENCED_PARAMETER( IrpContext );
if (NTFS_NTC_FCB == ((PFCB)FcbOrScb)->NodeTypeCode) {
Result = ExAcquireResourceSharedLite( ((PFCB)FcbOrScb)->Resource, Wait );
} else {
ASSERT_SCB( FcbOrScb );
Result = ExAcquireResourceSharedLite( ((PSCB)(FcbOrScb))->Header.Resource, Wait );
}
return Result;
}
#endif
//
// VOID
// NtfsReleaseResource(
// IN PIRP_CONTEXT IrpContext OPTIONAL,
// IN PVOID FcbOrScb
// };
//
#ifdef NTFSDBG
VOID
NtfsReleaseResource(
IN PIRP_CONTEXT IrpContext OPTIONAL,
IN PVOID FcbOrScb
);
#else
#define NtfsReleaseResource( IC, F ) { \
if (NTFS_NTC_FCB == ((PFCB)(F))->NodeTypeCode) { \
ExReleaseResourceLite( ((PFCB)(F))->Resource ); \
} else { \
ExReleaseResourceLite( ((PSCB)(F))->Header.Resource ); \
} \
}
#endif
VOID
NtfsAcquireSharedScbForTransaction (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
VOID
NtfsReleaseSharedResources (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsReleaseAllResources (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsAcquireIndexCcb (
IN PSCB Scb,
IN PCCB Ccb,
IN PEOF_WAIT_BLOCK EofWaitBlock
);
VOID
NtfsReleaseIndexCcb (
IN PSCB Scb,
IN PCCB Ccb
);
//
// VOID
// NtfsAcquireSharedScb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb
// );
//
// VOID
// NtfsReleaseScb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb
// );
//
// VOID
// NtfsReleaseGlobal (
// IN PIRP_CONTEXT IrpContext
// );
//
// VOID
// NtfsAcquireFcbTable (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// );
//
// VOID
// NtfsReleaseFcbTable (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsLockVcb (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsUnlockVcb (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsLockFcb (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb
// );
//
// VOID
// NtfsUnlockFcb (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb
// );
//
// VOID
// NtfsAcquireFcbSecurity (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// );
//
// VOID
// NtfsReleaseFcbSecurity (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsAcquireHashTable (
// IN PVCB Vcb
// );
//
// VOID
// NtfsReleaseHashTable (
// IN PVCB Vcb
// );
//
// VOID
// NtfsAcquireCheckpoint (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// );
//
// VOID
// NtfsReleaseCheckpoint (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsWaitOnCheckpointNotify (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsSetCheckpointNotify (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsResetCheckpointNotify (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsAcquireReservedClusters (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsReleaseReservedClusters (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
// VOID
// NtfsAcquireUsnNotify (
// IN PVCB Vcb
// );
//
// VOID
// NtfsDeleteUsnNotify (
// IN PVCB Vcb
// );
//
// VOID NtfsAcquireFsrtlHeader (
// IN PSCB Scb
// );
//
// VOID NtfsReleaseFsrtlHeader (
// IN PSCB Scb
// );
//
// VOID
// NtfsReleaseVcb (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb
// );
//
VOID
NtfsReleaseVcbCheckDelete (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN UCHAR MajorCode,
IN PFILE_OBJECT FileObject OPTIONAL
);
#define NtfsAcquireSharedScb(IC,S) { \
NtfsAcquireSharedFcb((IC),(S)->Fcb, S, 0); \
}
#define NtfsReleaseScb(IC,S) { \
NtfsReleaseFcb((IC),(S)->Fcb); \
}
#define NtfsReleaseGlobal(IC) { \
ExReleaseResourceLite( &NtfsData.Resource ); \
}
#define NtfsAcquireFcbTable(IC,V) { \
ExAcquireFastMutexUnsafe( &(V)->FcbTableMutex ); \
}
#define NtfsReleaseFcbTable(IC,V) { \
ExReleaseFastMutexUnsafe( &(V)->FcbTableMutex ); \
}
#define NtfsLockVcb(IC,V) { \
ExAcquireFastMutexUnsafe( &(V)->FcbSecurityMutex ); \
}
#define NtfsUnlockVcb(IC,V) { \
ExReleaseFastMutexUnsafe( &(V)->FcbSecurityMutex ); \
}
#define NtfsLockFcb(IC,F) { \
ExAcquireFastMutex( (F)->FcbMutex ); \
}
#define NtfsUnlockFcb(IC,F) { \
ExReleaseFastMutex( (F)->FcbMutex ); \
}
#define NtfsAcquireFcbSecurity(V) { \
ExAcquireFastMutexUnsafe( &(V)->FcbSecurityMutex ); \
}
#define NtfsReleaseFcbSecurity(V) { \
ExReleaseFastMutexUnsafe( &(V)->FcbSecurityMutex ); \
}
#define NtfsAcquireHashTable(V) { \
ExAcquireFastMutexUnsafe( &(V)->HashTableMutex ); \
}
#define NtfsReleaseHashTable(V) { \
ExReleaseFastMutexUnsafe( &(V)->HashTableMutex ); \
}
#define NtfsAcquireCheckpoint(IC,V) { \
ExAcquireFastMutexUnsafe( &(V)->CheckpointMutex ); \
}
#define NtfsReleaseCheckpoint(IC,V) { \
ExReleaseFastMutexUnsafe( &(V)->CheckpointMutex ); \
}
#define NtfsWaitOnCheckpointNotify(IC,V) { \
NTSTATUS _Status; \
_Status = KeWaitForSingleObject( &(V)->CheckpointNotifyEvent, \
Executive, \
KernelMode, \
FALSE, \
NULL ); \
if (!NT_SUCCESS( _Status )) { \
NtfsRaiseStatus( IrpContext, _Status, NULL, NULL ); \
} \
}
#define NtfsSetCheckpointNotify(IC,V) { \
(V)->CheckpointOwnerThread = NULL; \
KeSetEvent( &(V)->CheckpointNotifyEvent, 0, FALSE ); \
}
#define NtfsResetCheckpointNotify(IC,V) { \
(V)->CheckpointOwnerThread = (PVOID) PsGetCurrentThread(); \
KeClearEvent( &(V)->CheckpointNotifyEvent ); \
}
#define NtfsAcquireUsnNotify(V) { \
ExAcquireFastMutex( &(V)->CheckpointMutex ); \
}
#define NtfsReleaseUsnNotify(V) { \
ExReleaseFastMutex( &(V)->CheckpointMutex ); \
}
#define NtfsAcquireReservedClusters(V) { \
ExAcquireFastMutexUnsafe( &(V)->ReservedClustersMutex );\
}
#define NtfsReleaseReservedClusters(V) { \
ExReleaseFastMutexUnsafe( &(V)->ReservedClustersMutex );\
}
#define NtfsAcquireFsrtlHeader(S) { \
ExAcquireFastMutex((S)->Header.FastMutex); \
}
#define NtfsReleaseFsrtlHeader(S) { \
ExReleaseFastMutex((S)->Header.FastMutex); \
}
#ifdef NTFSDBG
VOID NtfsReleaseVcb(
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
#else
#define NtfsReleaseVcb(IC,V) { \
ExReleaseResourceLite( &(V)->Resource ); \
}
#endif
//
// Macros to test resources for exclusivity.
//
#define NtfsIsExclusiveResource(R) ( \
ExIsResourceAcquiredExclusiveLite(R) \
)
#define NtfsIsExclusiveFcb(F) ( \
(NtfsIsExclusiveResource((F)->Resource)) \
)
#define NtfsIsExclusiveFcbPagingIo(F) ( \
(NtfsIsExclusiveResource((F)->PagingIoResource)) \
)
#define NtfsIsExclusiveScbPagingIo(S) ( \
(NtfsIsExclusiveFcbPagingIo((S)->Fcb)) \
)
#define NtfsIsExclusiveScb(S) ( \
(NtfsIsExclusiveFcb((S)->Fcb)) \
)
#define NtfsIsExclusiveVcb(V) ( \
(NtfsIsExclusiveResource(&(V)->Resource)) \
)
//
// Macros to test resources for shared acquire
//
#define NtfsIsSharedResource(R) ( \
ExIsResourceAcquiredSharedLite(R) \
)
#define NtfsIsSharedFcb(F) ( \
(NtfsIsSharedResource((F)->Resource)) \
)
#define NtfsIsSharedFcbPagingIo(F) ( \
(NtfsIsSharedResource((F)->PagingIoResource)) \
)
#define NtfsIsSharedScbPagingIo(S) ( \
(NtfsIsSharedFcbPagingIo((S)->Fcb)) \
)
#define NtfsIsSharedScb(S) ( \
(NtfsIsSharedFcb((S)->Fcb)) \
)
#define NtfsIsSharedVcb(V) ( \
(NtfsIsSharedResource(&(V)->Resource)) \
)
__inline
VOID
NtfsReleaseExclusiveScbIfOwned(
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
)
/*++
Routine Description:
This routine is called release an Scb that may or may not be currently
owned exclusive.
Arguments:
IrpContext - Context of call
Scb - Scb to be released
Return Value:
None.
--*/
{
if (Scb->Fcb->ExclusiveFcbLinks.Flink != NULL &&
NtfsIsExclusiveScb( Scb )) {
NtfsReleaseScb( IrpContext, Scb );
}
}
//
// The following are cache manager call backs. They return FALSE
// if the resource cannot be acquired with waiting and wait is false.
//
BOOLEAN
NtfsAcquireScbForLazyWrite (
IN PVOID Null,
IN BOOLEAN Wait
);
VOID
NtfsReleaseScbFromLazyWrite (
IN PVOID Null
);
NTSTATUS
NtfsAcquireFileForModWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER EndingOffset,
OUT PERESOURCE *ResourceToRelease,
IN PDEVICE_OBJECT DeviceObject
);
NTSTATUS
NtfsAcquireFileForCcFlush (
IN PFILE_OBJECT FileObject,
IN PDEVICE_OBJECT DeviceObject
);
NTSTATUS
NtfsReleaseFileForCcFlush (
IN PFILE_OBJECT FileObject,
IN PDEVICE_OBJECT DeviceObject
);
VOID
NtfsAcquireForCreateSection (
IN PFILE_OBJECT FileObject
);
VOID
NtfsReleaseForCreateSection (
IN PFILE_OBJECT FileObject
);
BOOLEAN
NtfsAcquireScbForReadAhead (
IN PVOID Null,
IN BOOLEAN Wait
);
VOID
NtfsReleaseScbFromReadAhead (
IN PVOID Null
);
BOOLEAN
NtfsAcquireVolumeFileForLazyWrite (
IN PVOID Vcb,
IN BOOLEAN Wait
);
VOID
NtfsReleaseVolumeFileFromLazyWrite (
IN PVOID Vcb
);
//
// Ntfs Logging Routine interfaces in RestrSup.c
//
BOOLEAN
NtfsRestartVolume (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
OUT PBOOLEAN UnrecognizedRestart
);
VOID
NtfsAbortTransaction (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PTRANSACTION_ENTRY Transaction OPTIONAL
);
NTSTATUS
NtfsCloseAttributesFromRestart (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
//
// Security support routines, implemented in SecurSup.c
//
//
// VOID
// NtfsTraverseCheck (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB ParentFcb,
// IN PIRP Irp
// );
//
// VOID
// NtfsOpenCheck (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PFCB ParentFcb OPTIONAL,
// IN PIRP Irp
// );
//
// VOID
// NtfsCreateCheck (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB ParentFcb,
// IN PIRP Irp
// );
//
#define NtfsTraverseCheck(IC,F,IR) { \
NtfsAccessCheck( IC, \
F, \
NULL, \
IR, \
FILE_TRAVERSE, \
TRUE ); \
}
#define NtfsOpenCheck(IC,F,PF,IR) { \
NtfsAccessCheck( IC, \
F, \
PF, \
IR, \
IoGetCurrentIrpStackLocation(IR)->Parameters.Create.SecurityContext->DesiredAccess, \
FALSE ); \
}
#define NtfsCreateCheck(IC,PF,IR) { \
NtfsAccessCheck( IC, \
PF, \
NULL, \
IR, \
(FlagOn(IoGetCurrentIrpStackLocation(IR)->Parameters.Create.Options, FILE_DIRECTORY_FILE) ? \
FILE_ADD_SUBDIRECTORY : FILE_ADD_FILE), \
TRUE ); \
}
VOID
NtfsAssignSecurity (
IN PIRP_CONTEXT IrpContext,
IN PFCB ParentFcb,
IN PIRP Irp,
IN PFCB NewFcb,
IN PFILE_RECORD_SEGMENT_HEADER FileRecord,
IN PBCB FileRecordBcb,
IN LONGLONG FileOffset,
IN OUT PBOOLEAN LogIt
);
NTSTATUS
NtfsModifySecurity (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSECURITY_INFORMATION SecurityInformation,
OUT PSECURITY_DESCRIPTOR SecurityDescriptor
);
NTSTATUS
NtfsQuerySecurity (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSECURITY_INFORMATION SecurityInformation,
OUT PSECURITY_DESCRIPTOR SecurityDescriptor,
IN OUT PULONG SecurityDescriptorLength
);
VOID
NtfsAccessCheck (
PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PFCB ParentFcb OPTIONAL,
IN PIRP Irp,
IN ACCESS_MASK DesiredAccess,
IN BOOLEAN CheckOnly
);
BOOLEAN
NtfsCanAdministerVolume (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PFCB Fcb,
IN PSECURITY_DESCRIPTOR TestSecurityDescriptor OPTIONAL,
IN PULONG TestDesiredAccess OPTIONAL
);
NTSTATUS
NtfsCheckFileForDelete (
IN PIRP_CONTEXT IrpContext,
IN PSCB ParentScb,
IN PFCB ThisFcb,
IN BOOLEAN FcbExisted,
IN PINDEX_ENTRY IndexEntry
);
VOID
NtfsCheckIndexForAddOrDelete (
IN PIRP_CONTEXT IrpContext,
IN PFCB ParentFcb,
IN ACCESS_MASK DesiredAccess,
IN ULONG CreatePrivileges
);
VOID
NtfsSetFcbSecurityFromDescriptor (
IN PIRP_CONTEXT IrpContext,
IN OUT PFCB Fcb,
IN PSECURITY_DESCRIPTOR SecurityDescriptor,
IN ULONG SecurityDescriptorLength,
IN BOOLEAN RaiseIfInvalid
);
INLINE
VOID
RemoveReferenceSharedSecurityUnsafe (
IN OUT PSHARED_SECURITY *SharedSecurity
)
/*++
Routine Description:
This routine is called to manage the reference count on a shared security
descriptor. If the reference count goes to zero, the shared security is
freed.
Arguments:
SharedSecurity - security that is being dereferenced.
Return Value:
None.
--*/
{
DebugTrace( 0, (DEBUG_TRACE_SECURSUP | DEBUG_TRACE_ACLINDEX),
( "RemoveReferenceSharedSecurityUnsafe( %08x )\n", *SharedSecurity ));
//
// Note that there will be one less reference shortly
//
ASSERT( (*SharedSecurity)->ReferenceCount != 0 );
(*SharedSecurity)->ReferenceCount--;
if ((*SharedSecurity)->ReferenceCount == 0) {
DebugTrace( 0, (DEBUG_TRACE_SECURSUP | DEBUG_TRACE_ACLINDEX),
( "RemoveReferenceSharedSecurityUnsafe freeing\n" ));
NtfsFreePool( *SharedSecurity );
}
*SharedSecurity = NULL;
}
BOOLEAN
NtfsNotifyTraverseCheck (
IN PCCB Ccb,
IN PFCB Fcb,
IN PSECURITY_SUBJECT_CONTEXT SubjectContext
);
VOID
NtfsLoadSecurityDescriptor (
PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
VOID
NtfsStoreSecurityDescriptor (
PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN BOOLEAN LogIt
);
VOID
NtfsInitializeSecurity (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFCB Fcb
);
VOID
NtOfsPurgeSecurityCache (
IN PVCB Vcb
);
PSHARED_SECURITY
NtfsCacheSharedSecurityBySecurityId (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN SECURITY_ID SecurityId
);
PSHARED_SECURITY
NtfsCacheSharedSecurityForCreate (
IN PIRP_CONTEXT IrpContext,
IN PFCB ParentFcb
);
SECURITY_ID
GetSecurityIdFromSecurityDescriptorUnsafe (
PIRP_CONTEXT IrpContext,
IN OUT PSHARED_SECURITY SharedSecurity
);
FSRTL_COMPARISON_RESULT
NtOfsCollateSecurityHash (
IN PINDEX_KEY Key1,
IN PINDEX_KEY Key2,
IN PVOID CollationData
);
#ifdef NTFS_CACHE_RIGHTS
VOID
NtfsGetCachedRightsById (
IN PVCB Vcb,
IN PLUID TokenId,
IN PLUID ModifiedId,
IN PSECURITY_SUBJECT_CONTEXT SubjectSecurityContext,
IN PSHARED_SECURITY SharedSecurity,
OUT PBOOLEAN EntryCached OPTIONAL,
OUT PACCESS_MASK Rights
);
NTSTATUS
NtfsGetCachedRights (
IN PVCB Vcb,
IN PSECURITY_SUBJECT_CONTEXT SubjectSecurityContext,
IN PSHARED_SECURITY SharedSecurity,
OUT PACCESS_MASK Rights,
OUT PBOOLEAN EntryCached OPTIONAL,
OUT PLUID TokenId OPTIONAL,
OUT PLUID ModifiedId OPTIONAL
);
#endif
//
// In-memory structure support routine, implemented in StrucSup.c
//
//
// Routines to create and destroy the Vcb
//
VOID
NtfsInitializeVcb (
IN PIRP_CONTEXT IrpContext,
IN OUT PVCB Vcb,
IN PDEVICE_OBJECT TargetDeviceObject,
IN PVPB Vpb
);
BOOLEAN
NtfsDeleteVcb (
IN PIRP_CONTEXT IrpContext,
IN OUT PVCB *Vcb
);
//
// Routines to create and destroy the Fcb
//
PFCB
NtfsCreateRootFcb ( // also creates the root lcb
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
PFCB
NtfsCreateFcb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN FILE_REFERENCE FileReference,
IN BOOLEAN IsPagingFile,
IN BOOLEAN LargeFcb,
OUT PBOOLEAN ReturnedExistingFcb OPTIONAL
);
VOID
NtfsDeleteFcb (
IN PIRP_CONTEXT IrpContext,
IN OUT PFCB *Fcb,
OUT PBOOLEAN AcquiredFcbTable
);
PFCB
NtfsGetNextFcbTableEntry (
IN PVCB Vcb,
IN PVOID *RestartKey
);
//
// Routines to create and destroy the Scb
//
PSCB
NtfsCreateScb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN ATTRIBUTE_TYPE_CODE AttributeTypeCode,
IN PCUNICODE_STRING AttributeName,
IN BOOLEAN ReturnExistingOnly,
OUT PBOOLEAN ReturnedExistingScb OPTIONAL
);
PSCB
NtfsCreatePrerestartScb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_REFERENCE FileReference,
IN ATTRIBUTE_TYPE_CODE AttributeTypeCode,
IN PUNICODE_STRING AttributeName OPTIONAL,
IN ULONG BytesPerIndexBuffer
);
VOID
NtfsFreeScbAttributeName (
IN PWSTR AttributeNameBuffer
);
VOID
NtfsDeleteScb (
IN PIRP_CONTEXT IrpContext,
IN OUT PSCB *Scb
);
BOOLEAN
NtfsUpdateNormalizedName (
IN PIRP_CONTEXT IrpContext,
IN PSCB ParentScb,
IN PSCB Scb,
IN PFILE_NAME FileName OPTIONAL,
IN BOOLEAN CheckBufferSizeOnly
);
VOID
NtfsDeleteNormalizedName (
IN PSCB Scb
);
typedef
NTSTATUS
(*NTFSWALKUPFUNCTION)(
PIRP_CONTEXT IrpContext,
PFCB Fcb,
PSCB Scb,
PFILE_NAME FileName,
PVOID Context );
NTSTATUS
NtfsWalkUpTree (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN NTFSWALKUPFUNCTION WalkUpFunction,
IN OUT PVOID Context
);
typedef struct {
UNICODE_STRING Name;
FILE_REFERENCE Scope;
BOOLEAN IsRoot;
#ifdef BENL_DBG
PFCB StartFcb;
#endif
} SCOPE_CONTEXT, *PSCOPE_CONTEXT;
NTSTATUS
NtfsBuildRelativeName (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB Scb,
IN PFILE_NAME FileName,
IN OUT PVOID Context
);
VOID
NtfsBuildNormalizedName (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB IndexScb OPTIONAL,
OUT PUNICODE_STRING FileName
);
VOID
NtfsSnapshotScb (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
VOID
NtfsUpdateScbSnapshots (
IN PIRP_CONTEXT IrpContext
);
VOID
NtfsRestoreScbSnapshots (
IN PIRP_CONTEXT IrpContext,
IN BOOLEAN Higher
);
VOID
NtfsMungeScbSnapshot (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN LONGLONG FileSize
);
VOID
NtfsFreeSnapshotsForFcb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
BOOLEAN
NtfsCreateFileLock (
IN PSCB Scb,
IN BOOLEAN RaiseOnError
);
//
//
// A general purpose teardown routine that helps cleanup the
// the Fcb/Scb structures
//
VOID
NtfsTeardownStructures (
IN PIRP_CONTEXT IrpContext,
IN PVOID FcbOrScb,
IN PLCB Lcb OPTIONAL,
IN BOOLEAN CheckForAttributeTable,
IN ULONG AcquireFlags,
OUT PBOOLEAN RemovedFcb OPTIONAL
);
//
// Routines to create, destroy and walk through the Lcbs
//
PLCB
NtfsCreateLcb (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PFCB Fcb,
IN UNICODE_STRING LastComponentFileName,
IN UCHAR FileNameFlags,
IN OUT PBOOLEAN ReturnedExistingLcb OPTIONAL
);
VOID
NtfsDeleteLcb (
IN PIRP_CONTEXT IrpContext,
IN OUT PLCB *Lcb
);
VOID
NtfsMoveLcb ( // also munges the ccb and fileobjects filenames
IN PIRP_CONTEXT IrpContext,
IN PLCB Lcb,
IN PSCB Scb,
IN PFCB Fcb,
IN PUNICODE_STRING TargetDirectoryName,
IN PUNICODE_STRING LastComponentName,
IN UCHAR FileNameFlags,
IN BOOLEAN CheckBufferSizeOnly
);
VOID
NtfsRenameLcb ( // also munges the ccb and fileobjects filenames
IN PIRP_CONTEXT IrpContext,
IN PLCB Lcb,
IN PUNICODE_STRING LastComponentFileName,
IN UCHAR FileNameFlags,
IN BOOLEAN CheckBufferSizeOnly
);
VOID
NtfsCombineLcbs (
IN PIRP_CONTEXT IrpContext,
IN PLCB PrimaryLcb,
IN PLCB AuxLcb
);
PLCB
NtfsLookupLcbByFlags (
IN PFCB Fcb,
IN UCHAR FileNameFlags
);
ULONG
NtfsLookupNameLengthViaLcb (
IN PFCB Fcb,
OUT PBOOLEAN LeadingBackslash
);
VOID
NtfsFileNameViaLcb (
IN PFCB Fcb,
IN PWCHAR FileName,
ULONG Length,
ULONG BytesToCopy
);
//
// VOID
// NtfsLinkCcbToLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PCCB Ccb,
// IN PLCB Lcb
// );
//
#define NtfsLinkCcbToLcb(IC,C,L) { \
InsertTailList( &(L)->CcbQueue, &(C)->LcbLinks ); \
(C)->Lcb = (L); \
}
//
// VOID
// NtfsUnlinkCcbFromLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PCCB Ccb
// );
//
#define NtfsUnlinkCcbFromLcb(IC,C) { \
if ((C)->Lcb != NULL) { \
RemoveEntryList( &(C)->LcbLinks ); \
(C)->Lcb = NULL; \
} \
}
//
// Routines to create and destroy the Ccb
//
PCCB
NtfsCreateCcb (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB Scb,
IN BOOLEAN Indexed,
IN USHORT EaModificationCount,
IN ULONG Flags,
IN PFILE_OBJECT FileObject,
IN ULONG LastFileNameOffset
);
VOID
NtfsDeleteCcb (
IN PFCB Fcb,
IN OUT PCCB *Ccb
);
//
// Routines to create and destroy the IrpContext
//
VOID
NtfsInitializeIrpContext (
IN PIRP Irp OPTIONAL,
IN BOOLEAN Wait,
IN OUT PIRP_CONTEXT *IrpContext
);
VOID
NtfsCleanupIrpContext (
IN OUT PIRP_CONTEXT IrpContext,
IN ULONG Retry
);
//
// Routine for scanning the Fcbs within the graph hierarchy
//
PSCB
NtfsGetNextScb (
IN PSCB Scb,
IN PSCB TerminationScb
);
//
// The following macros are useful for traversing the queues interconnecting
// fcbs, scb, and lcbs.
//
// PSCB
// NtfsGetNextChildScb (
// IN PFCB Fcb,
// IN PSCB PreviousChildScb
// );
//
// PLCB
// NtfsGetNextParentLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PLCB PreviousParentLcb
// );
//
// PLCB
// NtfsGetNextChildLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb,
// IN PLCB PreviousChildLcb
// );
//
// PLCB
// NtfsGetPrevChildLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PSCB Scb,
// IN PLCB PreviousChildLcb
// );
//
// PLCB
// NtfsGetNextParentLcb (
// IN PIRP_CONTEXT IrpContext,
// IN PFCB Fcb,
// IN PLCB PreviousChildLcb
// );
//
// PCCB
// NtfsGetNextCcb (
// IN PIRP_CONTEXT IrpContext,
// IN PLCB Lcb,
// IN PCCB PreviousCcb
// );
//
#define NtfsGetNextChildScb(F,P) ((PSCB) \
((P) == NULL ? \
(IsListEmpty(&(F)->ScbQueue) ? \
NULL \
: \
CONTAINING_RECORD((F)->ScbQueue.Flink, SCB, FcbLinks.Flink) \
) \
: \
((PVOID)((PSCB)(P))->FcbLinks.Flink == &(F)->ScbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PSCB)(P))->FcbLinks.Flink, SCB, FcbLinks.Flink) \
) \
) \
)
#define NtfsGetNextParentLcb(F,P) ((PLCB) \
((P) == NULL ? \
(IsListEmpty(&(F)->LcbQueue) ? \
NULL \
: \
CONTAINING_RECORD((F)->LcbQueue.Flink, LCB, FcbLinks.Flink) \
) \
: \
((PVOID)((PLCB)(P))->FcbLinks.Flink == &(F)->LcbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PLCB)(P))->FcbLinks.Flink, LCB, FcbLinks.Flink) \
) \
) \
)
#define NtfsGetNextChildLcb(S,P) ((PLCB) \
((P) == NULL ? \
((((NodeType(S) == NTFS_NTC_SCB_DATA) || (NodeType(S) == NTFS_NTC_SCB_MFT)) \
|| IsListEmpty(&(S)->ScbType.Index.LcbQueue)) ? \
NULL \
: \
CONTAINING_RECORD((S)->ScbType.Index.LcbQueue.Flink, LCB, ScbLinks.Flink) \
) \
: \
((PVOID)((PLCB)(P))->ScbLinks.Flink == &(S)->ScbType.Index.LcbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PLCB)(P))->ScbLinks.Flink, LCB, ScbLinks.Flink) \
) \
) \
)
#define NtfsGetPrevChildLcb(S,P) ((PLCB) \
((P) == NULL ? \
((((NodeType(S) == NTFS_NTC_SCB_DATA) || (NodeType(S) == NTFS_NTC_SCB_MFT)) \
|| IsListEmpty(&(S)->ScbType.Index.LcbQueue)) ? \
NULL \
: \
CONTAINING_RECORD((S)->ScbType.Index.LcbQueue.Blink, LCB, ScbLinks.Flink) \
) \
: \
((PVOID)((PLCB)(P))->ScbLinks.Blink == &(S)->ScbType.Index.LcbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PLCB)(P))->ScbLinks.Blink, LCB, ScbLinks.Flink) \
) \
) \
)
#define NtfsGetNextParentLcb(F,P) ((PLCB) \
((P) == NULL ? \
(IsListEmpty(&(F)->LcbQueue) ? \
NULL \
: \
CONTAINING_RECORD((F)->LcbQueue.Flink, LCB, FcbLinks.Flink) \
) \
: \
((PVOID)((PLCB)(P))->FcbLinks.Flink == &(F)->LcbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PLCB)(P))->FcbLinks.Flink, LCB, FcbLinks.Flink) \
) \
) \
)
#define NtfsGetNextCcb(L,P) ((PCCB) \
((P) == NULL ? \
(IsListEmpty(&(L)->CcbQueue) ? \
NULL \
: \
CONTAINING_RECORD((L)->CcbQueue.Flink, CCB, LcbLinks.Flink) \
) \
: \
((PVOID)((PCCB)(P))->LcbLinks.Flink == &(L)->CcbQueue.Flink ? \
NULL \
: \
CONTAINING_RECORD(((PCCB)(P))->LcbLinks.Flink, CCB, LcbLinks.Flink) \
) \
) \
)
#define NtfsGetFirstCcbEntry(S) \
(IsListEmpty( &(S)->CcbQueue ) \
? NULL \
: CONTAINING_RECORD( (S)->CcbQueue.Flink, CCB, CcbLinks.Flink ))
#define NtfsGetNextCcbEntry(S,C) \
( (PVOID)&(S)->CcbQueue.Flink == (PVOID)(C)->CcbLinks.Flink \
? NULL \
: CONTAINING_RECORD( (C)->CcbLinks.Flink, CCB, CcbLinks.Flink ))
//
// VOID
// NtfsDeleteFcbTableEntry (
// IN PVCB Vcb,
// IN FILE_REFERENCE FileReference
// );
//
#if (defined( NTFS_FREE_ASSERTS ))
#define NtfsDeleteFcbTableEntry(V,FR) { \
FCB_TABLE_ELEMENT _Key; \
BOOLEAN _RemovedEntry; \
_Key.FileReference = FR; \
_RemovedEntry = RtlDeleteElementGenericTable( &(V)->FcbTable, &_Key ); \
ASSERT( _RemovedEntry ); \
}
#else
#define NtfsDeleteFcbTableEntry(V,FR) { \
FCB_TABLE_ELEMENT _Key; \
_Key.FileReference = FR; \
RtlDeleteElementGenericTable( &(V)->FcbTable, &_Key ); \
}
#endif
//
// Routines for allocating and deallocating the compression synchronization structures.
//
PVOID
NtfsAllocateCompressionSync (
IN POOL_TYPE PoolType,
IN SIZE_T NumberOfBytes,
IN ULONG Tag
);
VOID
NtfsDeallocateCompressionSync (
IN PVOID CompressionSync
);
//
// The following four routines are for incrementing and decrementing the cleanup
// counts and the close counts. In all of the structures
//
VOID
NtfsIncrementCleanupCounts (
IN PSCB Scb,
IN PLCB Lcb OPTIONAL,
IN BOOLEAN NonCachedHandle
);
VOID
NtfsIncrementCloseCounts (
IN PSCB Scb,
IN BOOLEAN SystemFile,
IN BOOLEAN ReadOnly
);
VOID
NtfsDecrementCleanupCounts (
IN PSCB Scb,
IN PLCB Lcb OPTIONAL,
IN BOOLEAN NonCachedHandle
);
BOOLEAN
NtfsDecrementCloseCounts (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PLCB Lcb OPTIONAL,
IN BOOLEAN SystemFile,
IN BOOLEAN ReadOnly,
IN BOOLEAN DecrementCountsOnly
);
PERESOURCE
NtfsAllocateEresource (
);
VOID
NtfsFreeEresource (
IN PERESOURCE Eresource
);
PVOID
NtfsAllocateFcbTableEntry (
IN PRTL_GENERIC_TABLE FcbTable,
IN CLONG ByteSize
);
VOID
NtfsFreeFcbTableEntry (
IN PRTL_GENERIC_TABLE FcbTable,
IN PVOID Buffer
);
VOID
NtfsPostToNewLengthQueue (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
VOID
NtfsProcessNewLengthQueue (
IN PIRP_CONTEXT IrpContext,
IN BOOLEAN CleanupOnly
);
//
// Useful debug routines
//
VOID
NtfsTestStatusProc (
);
//
// Usn Support routines in UsnSup.c
//
NTSTATUS
NtfsReadUsnJournal (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN BOOLEAN ProbeInput
);
ULONG
NtfsPostUsnChange (
IN PIRP_CONTEXT IrpContext,
IN PVOID ScborFcb,
IN ULONG Reason
);
VOID
NtfsWriteUsnJournalChanges (
PIRP_CONTEXT IrpContext
);
VOID
NtfsSetupUsnJournal (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFCB Fcb,
IN ULONG CreateIfNotExist,
IN ULONG Restamp,
IN PCREATE_USN_JOURNAL_DATA JournalData
);
VOID
NtfsTrimUsnJournal (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
NTSTATUS
NtfsQueryUsnJournal (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsDeleteUsnJournal (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
VOID
NtfsDeleteUsnSpecial (
IN PIRP_CONTEXT IrpContext,
IN PVOID Context
);
//
// NtOfs support routines in vattrsup.c
//
NTFSAPI
NTSTATUS
NtfsHoldIrpForNewLength (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PIRP Irp,
IN LONGLONG Length,
IN PDRIVER_CANCEL CancelRoutine,
IN PVOID CapturedData OPTIONAL,
OUT PVOID *CopyCapturedData OPTIONAL,
IN ULONG CapturedDataLength
);
//
// Time conversion support routines, implemented as a macro
//
// VOID
// NtfsGetCurrentTime (
// IN PIRP_CONTEXT IrpContext,
// IN LONGLONG Time
// );
//
#define NtfsGetCurrentTime(_IC,_T) { \
ASSERT_IRP_CONTEXT(_IC); \
KeQuerySystemTime((PLARGE_INTEGER)&(_T)); \
}
//
// Time routine to check if last access should be updated.
//
// BOOLEAN
// NtfsCheckLastAccess (
// IN PIRP_CONTEXT IrpContext,
// IN OUT PFCB Fcb
// );
//
#define NtfsCheckLastAccess(_IC,_FCB) ( \
((NtfsLastAccess + (_FCB)->Info.LastAccessTime) < (_FCB)->CurrentLastAccess) || \
((_FCB)->CurrentLastAccess < (_FCB)->Info.LastAccessTime) \
)
//
// Macro and #defines to decide whether a given feature is supported on a
// given volume version. Currently, all features either work on all Ntfs
// volumes, or work on all volumes with major version greater than 1. In
// some future version, some features may require version 4.x volumes, etc.
//
// This macro is used to decide whether to fail a user request with
// STATUS_VOLUME_NOT_UPGRADED, and also helps us set the FILE_SUPPORTS_xxx
// flags correctly in NtfsQueryFsAttributeInfo.
//
#define NTFS_ENCRYPTION_VERSION 2
#define NTFS_OBJECT_ID_VERSION 2
#define NTFS_QUOTA_VERSION 2
#define NTFS_REPARSE_POINT_VERSION 2
#define NTFS_SPARSE_FILE_VERSION 2
#define NtfsVolumeVersionCheck(VCB,VERSION) ( \
((VCB)->MajorVersion >= VERSION) \
)
//
// Low level verification routines, implemented in VerfySup.c
//
BOOLEAN
NtfsPerformVerifyOperation (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
VOID
NtfsPerformDismountOnVcb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN DoCompleteDismount,
OUT PVPB *NewVpbReturn OPTIONAL
);
BOOLEAN
NtfsPingVolume (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN OUT PBOOLEAN OwnsVcb OPTIONAL
);
VOID
NtfsVolumeCheckpointDpc (
IN PKDPC Dpc,
IN PVOID DeferredContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
);
VOID
NtfsCheckpointAllVolumes (
PVOID Parameter
);
VOID
NtfsUsnTimeOutDpc (
IN PKDPC Dpc,
IN PVOID DeferredContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
);
VOID
NtfsCheckUsnTimeOut (
PVOID Parameter
);
NTSTATUS
NtfsIoCallSelf (
IN PIRP_CONTEXT IrpContext,
IN PFILE_OBJECT FileObject,
IN UCHAR MajorFunction
);
BOOLEAN
NtfsLogEvent (
IN PIRP_CONTEXT IrpContext,
IN PQUOTA_USER_DATA UserData OPTIONAL,
IN NTSTATUS LogCode,
IN NTSTATUS FinalStatus
);
VOID
NtfsMarkVolumeDirty (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN UpdateWithinTransaction
);
VOID
NtfsSetVolumeInfoFlagState (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG FlagsToSet,
IN BOOLEAN NewState,
IN BOOLEAN UpdateWithinTransaction
);
BOOLEAN
NtfsUpdateVolumeInfo (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN UCHAR DiskMajorVersion,
IN UCHAR DiskMinorVersion
);
VOID
NtfsPostVcbIsCorrupt (
IN PIRP_CONTEXT IrpContext,
IN NTSTATUS Status OPTIONAL,
IN PFILE_REFERENCE FileReference OPTIONAL,
IN PFCB Fcb OPTIONAL
);
VOID
NtOfsCloseAttributeSafe (
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb
);
NTSTATUS
NtfsDeviceIoControlAsync (
IN PIRP_CONTEXT IrpContext,
IN PDEVICE_OBJECT DeviceObject,
IN ULONG IoCtl,
IN OUT PVOID Buffer OPTIONAL,
IN ULONG BufferSize
);
//
// Work queue routines for posting and retrieving an Irp, implemented in
// workque.c
//
VOID
NtfsOplockComplete (
IN PVOID Context,
IN PIRP Irp
);
VOID
NtfsPrePostIrp (
IN PVOID Context,
IN PIRP Irp OPTIONAL
);
VOID
NtfsAddToWorkque (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp OPTIONAL
);
NTSTATUS
NtfsPostRequest (
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp OPTIONAL
);
//
// Miscellaneous support macros.
//
// ULONG_PTR
// WordAlign (
// IN ULONG_PTR Pointer
// );
//
// ULONG_PTR
// LongAlign (
// IN ULONG_PTR Pointer
// );
//
// ULONG_PTR
// QuadAlign (
// IN ULONG_PTR Pointer
// );
//
// UCHAR
// CopyUchar1 (
// IN PUCHAR Destination,
// IN PUCHAR Source
// );
//
// UCHAR
// CopyUchar2 (
// IN PUSHORT Destination,
// IN PUCHAR Source
// );
//
// UCHAR
// CopyUchar4 (
// IN PULONG Destination,
// IN PUCHAR Source
// );
//
// PVOID
// Add2Ptr (
// IN PVOID Pointer,
// IN ULONG Increment
// );
//
// ULONG
// PtrOffset (
// IN PVOID BasePtr,
// IN PVOID OffsetPtr
// );
//
#define WordAlignPtr(P) ( \
(PVOID)((((ULONG_PTR)(P)) + 1) & (-2)) \
)
#define LongAlignPtr(P) ( \
(PVOID)((((ULONG_PTR)(P)) + 3) & (-4)) \
)
#define QuadAlignPtr(P) ( \
(PVOID)((((ULONG_PTR)(P)) + 7) & (-8)) \
)
#define WordAlign(P) ( \
((((P)) + 1) & (-2)) \
)
#define LongAlign(P) ( \
((((P)) + 3) & (-4)) \
)
#define QuadAlign(P) ( \
((((P)) + 7) & (-8)) \
)
#define IsWordAligned(P) ((ULONG_PTR)(P) == WordAlign( (ULONG_PTR)(P) ))
#define IsLongAligned(P) ((ULONG_PTR)(P) == LongAlign( (ULONG_PTR)(P) ))
#define IsQuadAligned(P) ((ULONG_PTR)(P) == QuadAlign( (ULONG_PTR)(P) ))
//
// A note on structure alignment checking:
//
// In a perfect world, we would just use TYPE_ALIGNMENT straight out of the box
// to check the alignment requirements for a given structure.
//
// On 32-bit platforms including Alpha, alignment faults are handled by the
// OS. There are many places in the NTFS code where a structure requires
// quadword alignment (on Alpha) but only dword alignment is enforced. To
// change this on Alpha32 would introduce compatibility problems, so on 32-bit
// platforms we do not want to use an alignment value greater than 4.
//
// In other places, enforcing ULONG alignment is more restrictive than
// necessary. For example, a structure that contains nothing bigger than a
// USHORT can get by with 16-bit alignment. However, there is no reason to
// relax these alignment restrictions, so on all platforms we do not want to
// use an alignment value of less than 4.
//
// This means that NTFS_TYPE_ALIGNMENT always resolves to 4 on 32-bit platforms,
// and to at least four on 64-bit platforms.
//
#ifdef _WIN64
#define NTFS_TYPE_ALIGNMENT(T) \
((TYPE_ALIGNMENT( T ) < TYPE_ALIGNMENT(ULONG)) ? TYPE_ALIGNMENT( ULONG ) : TYPE_ALIGNMENT( T ))
#else
#define NTFS_TYPE_ALIGNMENT(T) TYPE_ALIGNMENT( ULONG )
#endif
//
// BlockAlign(): Aligns P on the next V boundary.
// BlockAlignTruncate(): Aligns P on the prev V boundary.
//
#define BlockAlign(P,V) (((P)) + (V-1) & (-(V)))
#define BlockAlignTruncate(P,V) ((P) & (-(V)))
//
// BlockOffset(): Calculates offset within V of P
//
#define BlockOffset(P,V) ((P) & (V-1))
//
// TypeAlign(): Aligns P according to the alignment requirements of type T
//
#define TypeAlign(P,T) BlockAlign( P, NTFS_TYPE_ALIGNMENT(T) )
//
// IsTypeAligned(): Determines whether P is aligned according to the
// requirements of type T
//
#define IsTypeAligned(P,T) \
((ULONG_PTR)(P) == TypeAlign( (ULONG_PTR)(P), T ))
//
// Conversions between bytes and clusters. Typically we will round up to the
// next cluster unless the macro specifies trucate.
//
#define ClusterAlign(V,P) ( \
((((ULONG)(P)) + (V)->ClusterMask) & (V)->InverseClusterMask) \
)
#define ClusterOffset(V,P) ( \
(((ULONG)(P)) & (V)->ClusterMask) \
)
#define ClustersFromBytes(V,P) ( \
(((ULONG)(P)) + (V)->ClusterMask) >> (V)->ClusterShift \
)
#define ClustersFromBytesTruncate(V,P) ( \
((ULONG)(P)) >> (V)->ClusterShift \
)
#define BytesFromClusters(V,P) ( \
((ULONG)(P)) << (V)->ClusterShift \
)
#define LlClustersFromBytes(V,L) ( \
Int64ShraMod32(((L) + (LONGLONG) (V)->ClusterMask), (CCHAR)(V)->ClusterShift) \
)
#define LlClustersFromBytesTruncate(V,L) ( \
Int64ShraMod32((L), (CCHAR)(V)->ClusterShift) \
)
#define LlBytesFromClusters(V,C) ( \
Int64ShllMod32((C), (CCHAR)(V)->ClusterShift) \
)
//
// Conversions between bytes and file records
//
#define BytesFromFileRecords(V,B) ( \
((ULONG)(B)) << (V)->MftShift \
)
#define FileRecordsFromBytes(V,F) ( \
((ULONG)(F)) >> (V)->MftShift \
)
#define LlBytesFromFileRecords(V,F) ( \
Int64ShllMod32((F), (CCHAR)(V)->MftShift) \
)
#define LlFileRecordsFromBytes(V,B) ( \
Int64ShraMod32((B), (CCHAR)(V)->MftShift) \
)
//
// Conversions between bytes and index blocks
//
#define BytesFromIndexBlocks(B,S) ( \
((ULONG)(B)) << (S) \
)
#define LlBytesFromIndexBlocks(B,S) ( \
Int64ShllMod32((B), (S)) \
)
//
// Conversions between bytes and log blocks (512 byte blocks)
//
#define BytesFromLogBlocks(B) ( \
((ULONG) (B)) << DEFAULT_INDEX_BLOCK_BYTE_SHIFT \
)
#define LogBlocksFromBytesTruncate(B) ( \
((ULONG) (B)) >> DEFAULT_INDEX_BLOCK_BYTE_SHIFT \
)
#define Add2Ptr(P,I) ((PVOID)((PUCHAR)(P) + (I)))
#define PtrOffset(B,O) ((ULONG)((ULONG_PTR)(O) - (ULONG_PTR)(B)))
//
// The following support macros deal with dir notify support.
//
// ULONG
// NtfsBuildDirNotifyFilter (
// IN PIRP_CONTEXT IrpContext,
// IN ULONG Flags
// );
//
// VOID
// NtfsReportDirNotify (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// IN PUNICODE_STRING FullFileName,
// IN USHORT TargetNameOffset,
// IN PUNICODE_STRING StreamName OPTIONAL,
// IN PUNICODE_STRING NormalizedParentName OPTIONAL,
// IN ULONG Filter,
// IN ULONG Action,
// IN PFCB ParentFcb OPTIONAL
// );
//
// VOID
// NtfsUnsafeReportDirNotify (
// IN PIRP_CONTEXT IrpContext,
// IN PVCB Vcb,
// IN PUNICODE_STRING FullFileName,
// IN USHORT TargetNameOffset,
// IN PUNICODE_STRING StreamName OPTIONAL,
// IN PUNICODE_STRING NormalizedParentName OPTIONAL,
// IN ULONG Filter,
// IN ULONG Action,
// IN PFCB ParentFcb OPTIONAL
// );
//
#define NtfsBuildDirNotifyFilter(IC,F) ( \
FlagOn( (F), FCB_INFO_CHANGED_ALLOC_SIZE ) ? \
(FlagOn( (F), FCB_INFO_VALID_NOTIFY_FLAGS ) | FILE_NOTIFY_CHANGE_SIZE) : \
FlagOn( (F), FCB_INFO_VALID_NOTIFY_FLAGS ) \
)
#define NtfsReportDirNotify(IC,V,FN,O,SN,NPN,F,A,PF) { \
try { \
FsRtlNotifyFilterReportChange( (V)->NotifySync, \
&(V)->DirNotifyList, \
(PSTRING) (FN), \
(USHORT) (O), \
(PSTRING) (SN), \
(PSTRING) (NPN), \
F, \
A, \
PF, \
NULL ); \
} except (FsRtlIsNtstatusExpected( GetExceptionCode() ) ? \
EXCEPTION_EXECUTE_HANDLER : \
EXCEPTION_CONTINUE_SEARCH) { \
NOTHING; \
} \
}
#define NtfsUnsafeReportDirNotify(IC,V,FN,O,SN,NPN,F,A,PF) { \
FsRtlNotifyFilterReportChange( (V)->NotifySync, \
&(V)->DirNotifyList, \
(PSTRING) (FN), \
(USHORT) (O), \
(PSTRING) (SN), \
(PSTRING) (NPN), \
F, \
A, \
PF, \
NULL ); \
}
//
// The following types and macros are used to help unpack the packed and
// misaligned fields found in the Bios parameter block
//
typedef union _UCHAR1 {
UCHAR Uchar[1];
UCHAR ForceAlignment;
} UCHAR1, *PUCHAR1;
typedef union _UCHAR2 {
UCHAR Uchar[2];
USHORT ForceAlignment;
} UCHAR2, *PUCHAR2;
typedef union _UCHAR4 {
UCHAR Uchar[4];
ULONG ForceAlignment;
} UCHAR4, *PUCHAR4;
#define CopyUchar1(D,S) { \
*((UCHAR1 *)(D)) = *((UNALIGNED UCHAR1 *)(S)); \
}
#define CopyUchar2(D,S) { \
*((UCHAR2 *)(D)) = *((UNALIGNED UCHAR2 *)(S)); \
}
#define CopyUchar4(D,S) { \
*((UCHAR4 *)(D)) = *((UNALIGNED UCHAR4 *)(S)); \
}
//
// The following routines are used to set up and restore the top level
// irp field in the local thread. They are contained in ntfsdata.c
//
PTOP_LEVEL_CONTEXT
NtfsInitializeTopLevelIrp (
IN PTOP_LEVEL_CONTEXT TopLevelContext,
IN BOOLEAN ForceTopLevel,
IN BOOLEAN SetTopLevel
);
//
// BOOLEAN
// NtfsIsTopLevelRequest (
// IN PIRP_CONTEXT IrpContext
// );
//
// BOOLEAN
// NtfsIsTopLevelNtfs (
// IN PIRP_CONTEXT IrpContext
// );
//
// VOID
// NtfsRestoreTopLevelIrp (
// );
//
// PTOP_LEVEL_CONTEXT
// NtfsGetTopLevelContext (
// );
//
// PSCB
// NtfsGetTopLevelHotFixScb (
// );
//
// VCN
// NtfsGetTopLevelHotFixVcn (
// );
//
// BOOLEAN
// NtfsIsTopLevelHotFixScb (
// IN PSCB Scb
// );
//
// VOID
// NtfsUpdateIrpContextWithTopLevel (
// IN PIRP_CONTEXT IrpContext,
// IN PTOP_LEVEL_CONTEXT TopLevelContext
// );
//
#define NtfsRestoreTopLevelIrp() { \
PTOP_LEVEL_CONTEXT TLC; \
TLC = (PTOP_LEVEL_CONTEXT) IoGetTopLevelIrp(); \
ASSERT( (TLC)->ThreadIrpContext != NULL ); \
(TLC)->Ntfs = 0; \
(TLC)->ThreadIrpContext = NULL; \
IoSetTopLevelIrp( (PIRP) (TLC)->SavedTopLevelIrp ); \
}
#define NtfsGetTopLevelContext() ( \
(PTOP_LEVEL_CONTEXT) IoGetTopLevelIrp() \
)
#define NtfsIsTopLevelRequest(IC) ( \
((IC) == (IC)->TopLevelIrpContext) && \
NtfsGetTopLevelContext()->TopLevelRequest \
)
#define NtfsIsTopLevelNtfs(IC) ( \
(IC) == (IC)->TopLevelIrpContext \
)
#define NtfsGetTopLevelHotFixScb() ( \
(NtfsGetTopLevelContext())->ScbBeingHotFixed \
)
#define NtfsGetTopLevelHotFixVcn() ( \
(NtfsGetTopLevelContext())->VboBeingHotFixed \
)
#define NtfsIsTopLevelHotFixScb(S) ( \
((BOOLEAN) (NtfsGetTopLevelHotFixScb() == (S))) \
)
#define NtfsUpdateIrpContextWithTopLevel(IC,TLC) { \
if ((TLC)->ThreadIrpContext == NULL) { \
(TLC)->Ntfs = 0x5346544e; \
(TLC)->ThreadIrpContext = (IC); \
SetFlag( (IC)->State, IRP_CONTEXT_STATE_OWNS_TOP_LEVEL ); \
IoSetTopLevelIrp( (PIRP) (TLC) ); \
} \
(IC)->TopLevelIrpContext = (TLC)->ThreadIrpContext; \
}
BOOLEAN
NtfsSetCancelRoutine (
IN PIRP Irp,
IN PDRIVER_CANCEL CancelRoutine,
IN ULONG_PTR IrpInformation,
IN ULONG Async
);
BOOLEAN
NtfsClearCancelRoutine (
IN PIRP Irp
);
#ifdef NTFS_CHECK_BITMAP
VOID
NtfsBadBitmapCopy (
IN PIRP_CONTEXT IrpContext,
IN ULONG BadBit,
IN ULONG Length
);
BOOLEAN
NtfsCheckBitmap (
IN PVCB Vcb,
IN ULONG Lcn,
IN ULONG Count,
IN BOOLEAN Set
);
#endif
//
// The FSD Level dispatch routines. These routines are called by the
// I/O system via the dispatch table in the Driver Object.
//
// They each accept as input a pointer to a device object (actually most
// expect a volume device object, with the exception of the file system
// control function which can also take a file system device object), and
// a pointer to the IRP. They either perform the function at the FSD level
// or post the request to the FSP work queue for FSP level processing.
//
NTSTATUS
NtfsFsdDispatch ( // implemented in ntfsdata.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdDispatchWait ( // implemented in ntfsdata.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdCleanup ( // implemented in Cleanup.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdClose ( // implemented in Close.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdCreate ( // implemented in Create.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsDeviceIoControl ( // implemented in FsCtrl.c
IN PIRP_CONTEXT IrpContext,
IN PDEVICE_OBJECT DeviceObject,
IN ULONG IoCtl,
IN PVOID InputBuffer OPTIONAL,
IN ULONG InputBufferLength,
IN PVOID OutputBuffer OPTIONAL,
IN ULONG OutputBufferLength,
OUT PULONG_PTR IosbInformation OPTIONAL
);
NTSTATUS
NtfsFsdDirectoryControl ( // implemented in DirCtrl.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdPnp ( // implemented in Pnp.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdFlushBuffers ( // implemented in Flush.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFlushUserStream ( // implemented in Flush.c
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PLONGLONG FileOffset OPTIONAL,
IN ULONG Length
);
NTSTATUS
NtfsFlushVolume ( // implemented in Flush.c
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN FlushCache,
IN BOOLEAN PurgeFromCache,
IN BOOLEAN ReleaseAllFiles,
IN BOOLEAN MarkFilesForDismount
);
NTSTATUS
NtfsFlushLsnStreams ( // implemented in Flush.c
IN PVCB Vcb
);
VOID
NtfsFlushAndPurgeFcb ( // implemented in Flush.c
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
VOID
NtfsFlushAndPurgeScb ( // implemented in Flush.c
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN PSCB ParentScb OPTIONAL
);
NTSTATUS
NtfsFsdFileSystemControl ( // implemented in FsCtrl.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdLockControl ( // implemented in LockCtrl.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdRead ( // implemented in Read.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdSetInformation ( // implemented in FileInfo.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdShutdown ( // implemented in Shutdown.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdQueryVolumeInformation ( // implemented in VolInfo.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdSetVolumeInformation ( // implemented in VolInfo.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
NTSTATUS
NtfsFsdWrite ( // implemented in Write.c
IN PVOLUME_DEVICE_OBJECT VolumeDeviceObject,
IN PIRP Irp
);
//
// The following macro is used to determine if an FSD thread can block
// for I/O or wait for a resource. It returns TRUE if the thread can
// block and FALSE otherwise. This attribute can then be used to call
// the FSD & FSP common work routine with the proper wait value.
//
//
// BOOLEAN
// CanFsdWait (
// IN PIRP Irp
// );
//
#define CanFsdWait(I) IoIsOperationSynchronous(I)
//
// The FSP level dispatch/main routine. This is the routine that takes
// IRP's off of the work queue and calls the appropriate FSP level
// work routine.
//
VOID
NtfsFspDispatch ( // implemented in FspDisp.c
IN PVOID Context
);
//
// The following routines are the FSP work routines that are called
// by the preceding NtfsFspDispath routine. Each takes as input a pointer
// to the IRP, perform the function, and return a pointer to the volume
// device object that they just finished servicing (if any). The return
// pointer is then used by the main Fsp dispatch routine to check for
// additional IRPs in the volume's overflow queue.
//
// Each of the following routines is also responsible for completing the IRP.
// We moved this responsibility from the main loop to the individual routines
// to allow them the ability to complete the IRP and continue post processing
// actions.
//
NTSTATUS
NtfsCommonCleanup ( // implemented in Cleanup.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
LONG
NtfsCleanupExceptionFilter ( // implemented in Cleanup.c
IN PIRP_CONTEXT IrpContext,
IN PEXCEPTION_POINTERS ExceptionPointer,
OUT PNTSTATUS Status
);
VOID
NtfsFspClose ( // implemented in Close.c
IN PVCB ThisVcb OPTIONAL
);
BOOLEAN
NtfsAddScbToFspClose ( // implemented in Close.c
IN PIRP_CONTEXT IrpContext,
IN PSCB Scb,
IN BOOLEAN DelayClose
);
BOOLEAN
NtfsNetworkOpenCreate ( // implemented in Create.c
IN PIRP Irp,
OUT PFILE_NETWORK_OPEN_INFORMATION Buffer,
IN PDEVICE_OBJECT VolumeDeviceObject
);
NTSTATUS
NtfsCommonCreate ( // implemented in Create.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN IN POPLOCK_CLEANUP OplockCleanup,
OUT PFILE_NETWORK_OPEN_INFORMATION NetworkInfo OPTIONAL
);
VOID
NtfsInitializeFcbAndStdInfo (
IN PIRP_CONTEXT IrpContext,
IN PFCB ThisFcb,
IN BOOLEAN Directory,
IN BOOLEAN ViewIndex,
IN BOOLEAN Compressed,
IN ULONG FileAttributes,
IN PNTFS_TUNNELED_DATA SetTunnelData OPTIONAL
);
NTSTATUS
NtfsCommonVolumeOpen ( // implemented in Create.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonDeviceControl ( // implemented in DevCtrl.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonDirectoryControl ( // implemented in DirCtrl.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
VOID
NtfsReportViewIndexNotify ( // implemented in DirCtrl.c
IN PVCB Vcb,
IN PFCB Fcb,
IN ULONG FilterMatch,
IN ULONG Action,
IN PVOID ChangeInfoBuffer,
IN USHORT ChangeInfoBufferLength
);
NTSTATUS
NtfsCommonQueryEa ( // implemented in Ea.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonSetEa ( // implemented in Ea.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonQueryInformation ( // implemented in FileInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonSetInformation ( // implemented in FileInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS // implemented in FsCtrl.c
NtfsGetTunneledData (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN OUT PNTFS_TUNNELED_DATA TunneledData
);
NTSTATUS // implemented in FsCtrl.c
NtfsSetTunneledData (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PNTFS_TUNNELED_DATA TunneledData
);
NTSTATUS
NtfsCommonQueryQuota ( // implemented in Quota.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonSetQuota ( // implemented in Quota.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonFlushBuffers ( // implemented in Flush.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonFileSystemControl ( // implemented in FsCtrl.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonLockControl ( // implemented in LockCtrl.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonRead ( // implemented in Read.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN BOOLEAN AcquireScb
);
NTSTATUS
NtfsCommonQuerySecurityInfo ( // implemented in SeInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonSetSecurityInfo ( // implemented in SeInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsQueryViewIndex ( // implemented in ViewSup.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp,
IN PVCB Vcb,
IN PSCB Scb,
IN PCCB Ccb
);
NTSTATUS
NtfsCommonQueryVolumeInfo ( // implemented in VolInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonSetVolumeInfo ( // implemented in VolInfo.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
NTSTATUS
NtfsCommonWrite ( // implemented in Write.c
IN PIRP_CONTEXT IrpContext,
IN PIRP Irp
);
//
// The following procedure is used by the FSP and FSD routines to complete
// an IRP. Either the Irp or IrpContext may be NULL depending on whether
// this is being done for a user or for a FS service.
//
// This would typically be done in order to pass a "naked" IrpContext off to
// the Fsp for post processing, such as read ahead.
//
VOID
NtfsCompleteRequest (
IN OUT PIRP_CONTEXT IrpContext OPTIONAL,
IN OUT PIRP Irp OPTIONAL,
IN NTSTATUS Status
);
//
// Here are the callbacks used by the I/O system for checking for fast I/O or
// doing a fast query info call, or doing fast lock calls.
//
BOOLEAN
NtfsFastIoCheckIfPossible (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN ULONG LockKey,
IN BOOLEAN CheckForReadOperation,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastQueryBasicInfo (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
IN OUT PFILE_BASIC_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastQueryStdInfo (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
IN OUT PFILE_STANDARD_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastLock (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PLARGE_INTEGER Length,
PEPROCESS ProcessId,
ULONG Key,
BOOLEAN FailImmediately,
BOOLEAN ExclusiveLock,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastUnlockSingle (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PLARGE_INTEGER Length,
PEPROCESS ProcessId,
ULONG Key,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastUnlockAll (
IN PFILE_OBJECT FileObject,
PEPROCESS ProcessId,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastUnlockAllByKey (
IN PFILE_OBJECT FileObject,
PVOID ProcessId,
ULONG Key,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);
BOOLEAN
NtfsFastQueryNetworkOpenInfo (
IN struct _FILE_OBJECT *FileObject,
IN BOOLEAN Wait,
OUT struct _FILE_NETWORK_OPEN_INFORMATION *Buffer,
OUT struct _IO_STATUS_BLOCK *IoStatus,
IN struct _DEVICE_OBJECT *DeviceObject
);
VOID
NtfsFastIoQueryCompressionInfo (
IN PFILE_OBJECT FileObject,
OUT PFILE_COMPRESSION_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus
);
VOID
NtfsFastIoQueryCompressedSize (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
OUT PULONG CompressedSize
);
//
// The following macro is used by the dispatch routines to determine if
// an operation is to be done with or without WriteThrough.
//
// BOOLEAN
// IsFileWriteThrough (
// IN PFILE_OBJECT FileObject,
// IN PVCB Vcb
// );
//
#define IsFileWriteThrough(FO,V) ( \
FlagOn((FO)->Flags, FO_WRITE_THROUGH) \
)
//
// The following macro is used to set the is fast i/o possible field in
// the common part of the non paged fcb
//
// NotPossible - Volume not mounted
// - Oplock state prevents it
//
// Possible - Not compressed or sparse
// - No file locks
// - Not a read only volume
// - No Usn journal for this volume
//
// Questionable - All other cases
//
//
// BOOLEAN
// NtfsIsFastIoPossible (
// IN PSCB Scb
// );
//
#define NtfsIsFastIoPossible(S) (BOOLEAN) ( \
(!FlagOn((S)->Vcb->VcbState, VCB_STATE_VOLUME_MOUNTED) || \
!FsRtlOplockIsFastIoPossible( &(S)->ScbType.Data.Oplock )) ? \
\
FastIoIsNotPossible : \
\
((((S)->CompressionUnit == 0) && \
(((S)->ScbType.Data.FileLock == NULL) || \
!FsRtlAreThereCurrentFileLocks( (S)->ScbType.Data.FileLock )) && \
!NtfsIsVolumeReadOnly( (S)->Vcb ) && \
((S)->Vcb->UsnJournal == NULL)) ? \
\
FastIoIsPossible : \
\
FastIoIsQuestionable) \
)
//
// The following macro is used to detemine if the file object is opened
// for read only access (i.e., it is not also opened for write access or
// delete access).
//
// BOOLEAN
// IsFileObjectReadOnly (
// IN PFILE_OBJECT FileObject
// );
//
#define IsFileObjectReadOnly(FO) (!((FO)->WriteAccess | (FO)->DeleteAccess))
//
// The following macros are used to establish the semantics needed
// to do a return from within a try-finally clause. As a rule every
// try clause must end with a label call try_exit. For example,
//
// try {
// :
// :
//
// try_exit: NOTHING;
// } finally {
//
// :
// :
// }
//
// Every return statement executed inside of a try clause should use the
// try_return macro. If the compiler fully supports the try-finally construct
// then the macro should be
//
// #define try_return(S) { return(S); }
//
// If the compiler does not support the try-finally construct then the macro
// should be
//
// #define try_return(S) { S; goto try_exit; }
//
#define try_return(S) { S; goto try_exit; }
//
// Simple initialization for a name pair
//
// VOID
// NtfsInitializeNamePair(PNAME_PAIR PNp);
//
#define NtfsInitializeNamePair(PNp) { \
(PNp)->Short.Buffer = (PNp)->ShortBuffer; \
(PNp)->Long.Buffer = (PNp)->LongBuffer; \
(PNp)->Short.Length = 0; \
(PNp)->Long.Length = 0; \
(PNp)->Short.MaximumLength = sizeof((PNp)->ShortBuffer); \
(PNp)->Long.MaximumLength = sizeof((PNp)->LongBuffer); \
}
//
// Copy a length of WCHARs into a side of a name pair. Only copy the first name
// that fits to avoid useless work if more than three links are encountered (per
// BrianAn), very rare case. We use the filename flags to figure out what kind of
// name we have.
//
// VOID
// NtfsCopyNameToNamePair(
// PNAME_PAIR PNp,
// WCHAR Source,
// ULONG SourceLen,
// UCHAR NameFlags);
//
#define NtfsCopyNameToNamePair(PNp, Source, SourceLen, NameFlags) { \
if (!FlagOn((NameFlags), FILE_NAME_DOS)) { \
if ((PNp)->Long.Length == 0) { \
if ((PNp)->Long.MaximumLength < ((SourceLen)*sizeof(WCHAR))) { \
if ((PNp)->Long.Buffer != (PNp)->LongBuffer) { \
NtfsFreePool((PNp)->Long.Buffer); \
(PNp)->Long.Buffer = (PNp)->LongBuffer; \
(PNp)->Long.MaximumLength = sizeof((PNp)->LongBuffer); \
} \
(PNp)->Long.Buffer = NtfsAllocatePool(PagedPool,(SourceLen)*sizeof(WCHAR)); \
(PNp)->Long.MaximumLength = (SourceLen)*sizeof(WCHAR); \
} \
RtlCopyMemory((PNp)->Long.Buffer, (Source), (SourceLen)*sizeof(WCHAR)); \
(PNp)->Long.Length = (SourceLen)*sizeof(WCHAR); \
} \
} else { \
ASSERT((PNp)->Short.Buffer == (PNp)->ShortBuffer); \
if ((PNp)->Short.Length == 0) { \
RtlCopyMemory((PNp)->Short.Buffer, (Source), (SourceLen)*sizeof(WCHAR)); \
(PNp)->Short.Length = (SourceLen)*sizeof(WCHAR); \
} \
} \
}
//
// Set up a previously used name pair for reuse.
//
// VOID
// NtfsResetNamePair(PNAME_PAIR PNp);
//
#define NtfsResetNamePair(PNp) { \
if ((PNp)->Long.Buffer != (PNp)->LongBuffer) { \
NtfsFreePool((PNp)->Long.Buffer); \
} \
NtfsInitializeNamePair(PNp); \
}
//
// Cairo support stuff.
//
typedef NTSTATUS
(*FILE_RECORD_WALK) (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN OUT PVOID Context
);
NTSTATUS
NtfsIterateMft (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN OUT PFILE_REFERENCE FileReference,
IN FILE_RECORD_WALK FileRecordFunction,
IN PVOID Context
);
VOID
NtfsPostSpecial (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN POST_SPECIAL_CALLOUT PostSpecialCallout,
IN PVOID Context
);
VOID
NtfsSpecialDispatch (
PVOID Context
);
VOID
NtfsLoadAddOns (
IN struct _DRIVER_OBJECT *DriverObject,
IN PVOID Context,
IN ULONG Count
);
NTSTATUS
NtfsTryOpenFcb (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
OUT PFCB *CurrentFcb,
IN FILE_REFERENCE FileReference
);
//
// The following define controls whether quota operations are done
// on this FCB.
//
#define NtfsPerformQuotaOperation(FCB) ((FCB)->QuotaControl != NULL)
VOID
NtfsAcquireQuotaControl (
IN PIRP_CONTEXT IrpContext,
IN PQUOTA_CONTROL_BLOCK QuotaControl
);
VOID
NtfsCalculateQuotaAdjustment (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
OUT PLONGLONG Delta
);
VOID
NtfsDereferenceQuotaControlBlock (
IN PVCB Vcb,
IN PQUOTA_CONTROL_BLOCK *QuotaControl
);
VOID
NtfsFixupQuota (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
);
NTSTATUS
NtfsFsQuotaQueryInfo (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN ULONG StartingId,
IN BOOLEAN ReturnSingleEntry,
IN PFILE_QUOTA_INFORMATION *FileQuotaInfo,
IN OUT PULONG Length,
IN OUT PCCB Ccb OPTIONAL
);
NTSTATUS
NtfsFsQuotaSetInfo (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_QUOTA_INFORMATION FileQuotaInfo,
IN ULONG Length
);
VOID
NtfsGetRemainingQuota (
IN PIRP_CONTEXT IrpContext,
IN ULONG OwnerId,
OUT PULONGLONG RemainingQuota,
OUT PULONGLONG TotalQuota,
IN OUT PQUICK_INDEX_HINT QuickIndexHint OPTIONAL
);
ULONG
NtfsGetCallersUserId (
IN PIRP_CONTEXT IrpContext
);
ULONG
NtfsGetOwnerId (
IN PIRP_CONTEXT IrpContext,
IN PSID Sid,
IN BOOLEAN CreateNew,
IN PFILE_QUOTA_INFORMATION FileQuotaInfo OPTIONAL
);
PQUOTA_CONTROL_BLOCK
NtfsInitializeQuotaControlBlock (
IN PVCB Vcb,
IN ULONG OwnerId
);
VOID
NtfsInitializeQuotaIndex (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PVCB Vcb
);
VOID
NtfsMarkQuotaCorrupt (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
VOID
NtfsRepairQuotaIndex (
IN PIRP_CONTEXT IrpContext,
IN PVOID Context
);
VOID
NtfsMoveQuotaOwner (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSECURITY_DESCRIPTOR Security
);
VOID
NtfsPostRepairQuotaIndex (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
NTSTATUS
NtfsQueryQuotaUserSidList (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_GET_QUOTA_INFORMATION SidList,
OUT PFILE_QUOTA_INFORMATION QuotaBuffer,
IN OUT PULONG BufferLength,
IN BOOLEAN ReturnSingleEntry
);
VOID
NtfsReleaseQuotaControl (
IN PIRP_CONTEXT IrpContext,
IN PQUOTA_CONTROL_BLOCK QuotaControl
);
VOID
NtfsUpdateFileQuota (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PLONGLONG Delta,
IN LOGICAL LogIt,
IN LOGICAL CheckQuota
);
VOID
NtfsUpdateQuotaDefaults (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN PFILE_FS_CONTROL_INFORMATION FileQuotaInfo
);
INLINE
VOID
NtfsConditionallyFixupQuota (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb
)
{
if (FlagOn( Fcb->Vcb->QuotaFlags, QUOTA_FLAG_TRACKING_ENABLED )) {
NtfsFixupQuota ( IrpContext, Fcb );
}
}
INLINE
VOID
NtfsConditionallyUpdateQuota (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PLONGLONG Delta,
IN LOGICAL LogIt,
IN LOGICAL CheckQuota
)
{
if (NtfsPerformQuotaOperation( Fcb ) &&
!FlagOn( IrpContext->State, IRP_CONTEXT_STATE_QUOTA_DISABLE )) {
NtfsUpdateFileQuota( IrpContext, Fcb, Delta, LogIt, CheckQuota );
}
}
extern BOOLEAN NtfsAllowFixups;
INLINE
VOID
NtfsReleaseQuotaIndex (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb,
IN BOOLEAN Acquired
)
{
if (Acquired) {
NtfsReleaseScb( IrpContext, Vcb->QuotaTableScb );
}
}
//
// Define the quota charge for resident streams.
//
#define NtfsResidentStreamQuota( Vcb ) ((LONG) Vcb->BytesPerFileRecordSegment)
//
// The following macro tests to see if it is ok for an internal routine to
// write to the volume.
//
#define NtfsIsVcbAvailable( Vcb ) (FlagOn( Vcb->VcbState, \
VCB_STATE_VOLUME_MOUNTED | \
VCB_STATE_FLAG_SHUTDOWN | \
VCB_STATE_PERFORMED_DISMOUNT | \
VCB_STATE_LOCKED) == VCB_STATE_VOLUME_MOUNTED)
//
// Test to see if the volume is mounted read only.
//
#define NtfsIsVolumeReadOnly( Vcb ) (FlagOn( (Vcb)->VcbState, VCB_STATE_MOUNT_READ_ONLY ))
//
// Processing required so reg. exception filter works if another one is being used
// to handle an exception that could be raise via NtfsRaiseStatus. If its always
// rethrown this is not necc.
//
#define NtfsMinimumExceptionProcessing(I) { \
if((I) != NULL) { \
ClearFlag( (I)->Flags, IRP_CONTEXT_FLAG_RAISED_STATUS ); \
} \
}
#ifdef NTFSDBG
BOOLEAN
NtfsChangeResourceOrderState(
IN PIRP_CONTEXT IrpContext,
IN NTFS_RESOURCE_NAME NewResource,
IN BOOLEAN Release,
IN ULONG UnsafeTransition
);
NTFS_RESOURCE_NAME
NtfsIdentifyFcb (
IN PVCB Vcb,
IN PFCB Fcb
);
#endif
//
// Size of a normalized name which is long enough to be freed at cleanup
//
#define LONGNAME_THRESHOLD 0x200
VOID
NtfsTrimNormalizedNames (
IN PIRP_CONTEXT IrpContext,
IN PFCB Fcb,
IN PSCB ParentScb
);
#define NtfsSnapshotFileSizesTest( I, S ) (FlagOn( (S)->ScbState, SCB_STATE_MODIFIED_NO_WRITE | SCB_STATE_CONVERT_UNDERWAY ) || \
((S) == (I)->CleanupStructure) || \
((S)->Fcb == (I)->CleanupStructure))
//
// Reservation needed = AllocationSize
// largest transfer size - this is because in a single transfer we cannot reuse clusters we freed from the totalallocated piece of the calculation
// metadata charge for new clusters
// minus the already allocated space
//
//
// One problem with the reservation strategy, is that we cannot precisely reserve
// for metadata. If we reserve too much, we will return premature disk full, if
// we reserve too little, the Lazy Writer can get an error. As we add compression
// units to a file, large files will eventually require additional File Records.
// If each compression unit required 0x20 bytes of run information (fairly pessimistic)
// then a 0x400 size file record would fill up with less than 0x20 runs requiring
// (worst case) two additional clusters for another file record. So each 0x20
// compression units require 0x200 reserved clusters, and a separate 2 cluster
// file record. 0x200/2 = 0x100. So the calculations below tack a 1/0x100 (about
// .4% "surcharge" on the amount reserved both in the Scb and the Vcb, to solve
// the Lazy Writer popups like the ones Alan Morris gets in the print lab.
//
#define NtfsCalculateNeededReservedSpace( S ) \
((S)->Header.AllocationSize.QuadPart + \
MM_MAXIMUM_DISK_IO_SIZE + \
(S)->CompressionUnit - \
(FlagOn( (S)->Vcb->VcbState, VCB_STATE_RESTART_IN_PROGRESS ) ? \
(S)->Header.AllocationSize.QuadPart : \
(S)->TotalAllocated) + \
(Int64ShraMod32( (S)->ScbType.Data.TotalReserved, 8 )))
PDEALLOCATED_CLUSTERS
NtfsGetDeallocatedClusters (
IN PIRP_CONTEXT IrpContext,
IN PVCB Vcb
);
//
// Dynamically allocate stack space for local variables.
//
#define NtfsAllocateFromStack(S) _alloca(S)
//
// Common Create Flag definitions
//
#define CREATE_FLAG_DOS_ONLY_COMPONENT (0x00000001)
#define CREATE_FLAG_CREATE_FILE_CASE (0x00000002)
#define CREATE_FLAG_DELETE_ON_CLOSE (0x00000004)
#define CREATE_FLAG_TRAILING_BACKSLASH (0x00000008)
#define CREATE_FLAG_TRAVERSE_CHECK (0x00000010)
#define CREATE_FLAG_IGNORE_CASE (0x00000020)
#define CREATE_FLAG_OPEN_BY_ID (0x00000040)
#define CREATE_FLAG_ACQUIRED_OBJECT_ID_INDEX (0x00000080)
#define CREATE_FLAG_BACKOUT_FAILED_OPENS (0x00000100)
#define CREATE_FLAG_INSPECT_NAME_FOR_REPARSE (0x00000200)
#define CREATE_FLAG_SHARED_PARENT_FCB (0x00000400)
#define CREATE_FLAG_ACQUIRED_VCB (0x00000800)
#define CREATE_FLAG_CHECK_FOR_VALID_NAME (0x00001000)
#define CREATE_FLAG_FIRST_PASS (0x00002000)
#define CREATE_FLAG_FOUND_ENTRY (0x00004000)
#endif // _NTFSPROC_