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Windows2003-3790/base/ntos/fsrtl/oplock.c
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/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
Oplock.c
Abstract:
The OPLOCK routines provide support to filesystems which implement
opporuntistics locks. The specific actions needed are based on
the current oplocked state of the file (maintained in the OPLOCK
structure) and the Irp the Io system provides to the file systems.
Rather than define separate entry points for each oplock operation
a single generic entry point is defined.
The file systems will maintain a variable of type OPLOCK for
each open file in the system. This variable is initialized
when an unopened file is opened. It is uninitialized when the
last reference to the file is cleared when the Io system calls
the file system with a close call.
The following routines are provided by this package:
o FsRtlInitializeOplock - Initialize a new OPLOCK structure. There
should be one OPLOCK for every opened file. Each OPLOCK structure
must be initialized before it can be used by the system.
o FsRtlUninitializeOplock - Uninitialize an OPLOCK structure. This
call is used to cleanup any anciallary structures allocated and
maintained by the OPLOCK. After being uninitialized the OPLOCK
must again be initialized before it can be used by the system.
Author:
Brian Andrew [BrianAn] 10-Dec-1990
Revision History:
--*/
#include "FsRtlP.h"
//
// Trace level for the module
//
#define Dbg (0x08000000)
//
// Define the compatible filter oplock desired access flags. We won't break
// a filter oplock when these flags are the only flags specified.
//
#define FILTER_OPLOCK_VALID_FLAGS ( \
FILE_READ_ATTRIBUTES | \
FILE_WRITE_ATTRIBUTES | \
FILE_READ_DATA | \
FILE_READ_EA | \
FILE_EXECUTE | \
SYNCHRONIZE | \
READ_CONTROL \
)
//
// We encode the different bits so we can test without having to enumerate
// all of the possible states.
//
// NOTE - The LEVEL_1, BATCH_OPLOCK and FILTER_OPLOCK must be in this order.
// We assume later on that they are in this order.
//
#define NO_OPLOCK (0x00000001)
#define LEVEL_I_OPLOCK (0x00000002)
#define BATCH_OPLOCK (0x00000004)
#define FILTER_OPLOCK (0x00000008)
#define LEVEL_II_OPLOCK (0x00000010)
#define OPLOCK_TYPE_MASK (0x0000001f)
#define EXCLUSIVE (0x00000040)
#define PENDING (0x00000080)
#define OPLOCK_HELD_MASK (0x000000c0)
#define BREAK_TO_II (0x00000100)
#define BREAK_TO_NONE (0x00000200)
#define BREAK_TO_II_TO_NONE (0x00000400)
#define CLOSE_PENDING (0x00000800)
#define OPLOCK_BREAK_MASK (0x00000f00)
//
// The oplock types consist of the appropriate flags.
//
#define NoOplocksHeld (NO_OPLOCK)
#define OplockIGranted (LEVEL_I_OPLOCK | EXCLUSIVE)
#define OpBatchGranted (BATCH_OPLOCK | EXCLUSIVE)
#define OpFilterGranted (FILTER_OPLOCK | EXCLUSIVE)
#define OpFilterReqPending (FILTER_OPLOCK | EXCLUSIVE | PENDING )
#define OplockBreakItoII (LEVEL_I_OPLOCK | EXCLUSIVE | BREAK_TO_II)
#define OpBatchBreaktoII (BATCH_OPLOCK | EXCLUSIVE | BREAK_TO_II)
#define OpFilterBreaktoII (FILTER_OPLOCK | EXCLUSIVE | BREAK_TO_II)
#define OplockBreakItoNone (LEVEL_I_OPLOCK | EXCLUSIVE | BREAK_TO_NONE)
#define OpBatchBreaktoNone (BATCH_OPLOCK | EXCLUSIVE | BREAK_TO_NONE)
#define OpFilterBreaktoNone (FILTER_OPLOCK | EXCLUSIVE | BREAK_TO_NONE)
#define OplockBreakItoIItoNone (LEVEL_I_OPLOCK | EXCLUSIVE | BREAK_TO_II_NONE)
#define OpBatchBreaktoIItoNone (BATCH_OPLOCK | EXCLUSIVE | BREAK_TO_II_NONE)
#define OpFilterBreaktoIItoNone (FILTER_OPLOCK | EXCLUSIVE | BREAK_TO_II_NONE)
#define OpBatchClosePending (BATCH_OPLOCK | EXCLUSIVE | CLOSE_PENDING)
#define OpFilterClosePending (FILTER_OPLOCK | EXCLUSIVE | CLOSE_PENDING)
#define OplockIIGranted (LEVEL_II_OPLOCK)
//
// The oplock state is now just a ULONG.
//
typedef ULONG OPLOCK_STATE;
//
// The non-opaque definition of an OPLOCK is a pointer to a privately
// defined structure.
//
typedef struct _NONOPAQUE_OPLOCK {
//
// This is the Irp used to successfully request a level I oplock or
// batch oplock. It is completed to initiate the Oplock I break
// procedure.
//
PIRP IrpExclusiveOplock;
//
// This is a pointer to the original file object used when granting
// an Oplock I or batch oplock.
//
PFILE_OBJECT FileObject;
//
// The start of a linked list of Irps used to successfully request
// a level II oplock.
//
LIST_ENTRY IrpOplocksII;
//
// The following links the Irps waiting to be completed on a queue
// of Irps.
//
LIST_ENTRY WaitingIrps;
//
// Oplock state. This indicates the current oplock state.
//
OPLOCK_STATE OplockState;
//
// This FastMutex is used to control access to this structure.
//
PFAST_MUTEX FastMutex;
} NONOPAQUE_OPLOCK, *PNONOPAQUE_OPLOCK;
//
// Each Waiting Irp record corresponds to an Irp that is waiting for an
// oplock break to be acknowledged and is maintained in a queue off of the
// Oplock's WaitingIrps list.
//
typedef struct _WAITING_IRP {
//
// The link structures for the list of waiting irps.
//
LIST_ENTRY Links;
//
// This is the Irp attached to this structure.
//
PIRP Irp;
//
// This is the routine to call when we are done with an Irp we
// held on a waiting queue. (We originally returned STATUS_PENDING).
//
POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine;
//
// The context field to use when we are done with the Irp.
//
PVOID Context;
//
// This points to an event object used when we do not want to
// give up this thread.
//
PKEVENT Event;
//
// This field contains a copy of the Irp Iosb.Information field.
// We copy it here so that we can store the Oplock address in the
// Irp.
//
ULONG Information;
} WAITING_IRP, *PWAITING_IRP;
//
// Define a tag for general pool allocations from this module
//
#undef MODULE_POOL_TAG
#define MODULE_POOL_TAG ('orSF')
//
// Local support routines
//
PNONOPAQUE_OPLOCK
FsRtlAllocateOplock (
);
NTSTATUS
FsRtlRequestExclusiveOplock (
IN OUT PNONOPAQUE_OPLOCK *Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp OPTIONAL,
IN OPLOCK_STATE NextOplockState
);
NTSTATUS
FsRtlRequestOplockII (
IN OUT PNONOPAQUE_OPLOCK *Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
);
NTSTATUS
FsRtlAcknowledgeOplockBreak (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN BOOLEAN GrantLevelII
);
NTSTATUS
FsRtlOpBatchBreakClosePending (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
);
NTSTATUS
FsRtlOplockBreakNotify (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
);
VOID
FsRtlOplockCleanup (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp
);
NTSTATUS
FsRtlOplockBreakToII (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL
);
NTSTATUS
FsRtlOplockBreakToNone (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL
);
VOID
FsRtlRemoveAndCompleteIrp (
IN PLIST_ENTRY Link
);
NTSTATUS
FsRtlWaitOnIrp (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL,
IN PKEVENT Event
);
VOID
FsRtlCompletionRoutinePriv (
IN PVOID Context,
IN PIRP Irp
);
VOID
FsRtlCancelWaitIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);
VOID
FsRtlCancelOplockIIIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);
VOID
FsRtlCancelExclusiveIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);
VOID
FsRtlRemoveAndCompleteWaitIrp (
IN PWAITING_IRP WaitingIrp
);
VOID
FsRtlNotifyCompletion (
IN PVOID Context,
IN PIRP Irp
);
#ifdef ALLOC_PRAGMA
#pragma alloc_text(PAGE, FsRtlAllocateOplock)
#pragma alloc_text(PAGE, FsRtlCompletionRoutinePriv)
#pragma alloc_text(PAGE, FsRtlCurrentBatchOplock)
#pragma alloc_text(PAGE, FsRtlInitializeOplock)
#pragma alloc_text(PAGE, FsRtlNotifyCompletion)
#pragma alloc_text(PAGE, FsRtlOpBatchBreakClosePending)
#pragma alloc_text(PAGE, FsRtlOplockBreakNotify)
#pragma alloc_text(PAGE, FsRtlOplockFsctrl)
#pragma alloc_text(PAGE, FsRtlOplockIsFastIoPossible)
#endif
VOID
FsRtlInitializeOplock (
IN OUT POPLOCK Oplock
)
/*++
Routine Description:
This routine initializes a new OPLOCK structure. This call must
precede any other call to this entry point with this OPLOCK
structure. In addition, this routine will have exclusive access
to the Oplock structure.
Arguments:
Oplock - Supplies the address of an opaque OPLOCK structure.
Return Value:
None.
--*/
{
UNREFERENCED_PARAMETER( Oplock );
PAGED_CODE();
DebugTrace(+1, Dbg, "FsRtlInitializeOplock: Oplock -> %08lx\n", *Oplock );
//
// No action is taken at this time.
//
DebugTrace(-1, Dbg, "FsRtlInitializeOplock: Exit\n", 0);
return;
}
VOID
FsRtlUninitializeOplock (
IN OUT POPLOCK Oplock
)
/*++
Routine Description:
This routine uninitializes an OPLOCK structure. After calling this
routine, the OPLOCK structure must be reinitialized before being
used again.
Arguments:
Oplock - Supplies the address of an opaque OPLOCK structure.
Return Value:
None.
--*/
{
PNONOPAQUE_OPLOCK ThisOplock;
DebugTrace(+1, Dbg, "FsRtlUninitializeOplock: Oplock -> %08lx\n", *Oplock );
//
// If the Oplock structure has not been allocated, there is no action
// to take.
//
if (*Oplock != NULL) {
//
// Remove this from the user's structure.
//
ThisOplock = (PNONOPAQUE_OPLOCK) *Oplock;
*Oplock = NULL;
//
// Grab the waiting lock queue mutex to exclude anyone from messing
// with the queue while we're using it
//
ExAcquireFastMutexUnsafe( ThisOplock->FastMutex );
try {
PIRP Irp;
//
// Release any waiting Irps held.
//
while (!IsListEmpty( &ThisOplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
PIRP ThisIrp;
WaitingIrp = CONTAINING_RECORD( ThisOplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
RemoveHeadList( &ThisOplock->WaitingIrps );
ThisIrp = WaitingIrp->Irp;
IoAcquireCancelSpinLock( &ThisIrp->CancelIrql );
IoSetCancelRoutine( ThisIrp, NULL );
IoReleaseCancelSpinLock( ThisIrp->CancelIrql );
ThisIrp->IoStatus.Information = 0;
//
// Call the completion routine in the Waiting Irp.
//
WaitingIrp->CompletionRoutine( WaitingIrp->Context,
WaitingIrp->Irp );
ExFreePool( WaitingIrp );
}
//
// Release any oplock II irps held.
//
while (!IsListEmpty( &ThisOplock->IrpOplocksII )) {
Irp = CONTAINING_RECORD( ThisOplock->IrpOplocksII.Flink,
IRP,
Tail.Overlay.ListEntry );
RemoveHeadList( &ThisOplock->IrpOplocksII );
IoAcquireCancelSpinLock( &Irp->CancelIrql );
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// Complete the oplock II Irp.
//
ObDereferenceObject( IoGetCurrentIrpStackLocation( Irp )->FileObject );
Irp->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Irp, STATUS_SUCCESS );
}
//
// Release any exclusive oplock held.
//
if (ThisOplock->IrpExclusiveOplock != NULL) {
Irp = ThisOplock->IrpExclusiveOplock;
IoAcquireCancelSpinLock( &Irp->CancelIrql );
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
Irp->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Irp, STATUS_SUCCESS );
ThisOplock->IrpExclusiveOplock = NULL;
if (ThisOplock->FileObject != NULL) {
ObDereferenceObject( ThisOplock->FileObject );
}
}
} finally {
//
// No matter how we complete the preceding statements we will
// now release the waiting lock queue mutex
//
ExReleaseFastMutexUnsafe( ThisOplock->FastMutex );
}
//
// Deallocate the mutex.
//
ExFreePool( ThisOplock->FastMutex );
//
// Deallocate the Oplock structure.
//
ExFreePool( ThisOplock );
}
DebugTrace( -1, Dbg, "FsRtlUninitializeOplock: Exit\n", 0 );
return;
}
NTSTATUS
FsRtlOplockFsctrl (
IN POPLOCK Oplock,
IN PIRP Irp,
IN ULONG OpenCount
)
/*++
Routine Description:
This is the interface with the filesystems for Fsctl calls, it handles
oplock requests, break acknowledgement and break notify.
Arguments:
Oplock - Supplies the address of the opaque OPLOCK structure.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
OpenCount - This is the number of user handles on the file if we are requsting
an exclusive oplock. A non-zero value for a level II request indicates
that there are locks on the file.
Return Value:
NTSTATUS - Returns the result of this operation. If this is an Oplock
request which is granted, then STATUS_PENDING is returned.
If the Oplock isn't granted then STATUS_OPLOCK_NOT_GRANTED
is returned. If this is an Oplock I break to no oplock,
then STATUS_SUCCESS. If this is an Oplock I break to
Oplock II then STATUS_PENDING is returned. Other
error codes returned depend on the nature of the error.
STATUS_CANCELLED is returned if the Irp is cancelled during
this operation.
STATUS_SUCCESS is returned if this is a create asking for
a filter oplock.
--*/
{
NTSTATUS Status;
PIO_STACK_LOCATION IrpSp;
OPLOCK_STATE OplockState;
PAGED_CODE();
//
// Get the current IRP stack location
//
IrpSp = IoGetCurrentIrpStackLocation( Irp );
DebugTrace(+1, Dbg, "FsRtlOplockFsctrl: Entered\n", 0);
DebugTrace( 0, Dbg, "FsRtlOplockFsctrl: Oplock -> %08lx\n", *Oplock );
DebugTrace( 0, Dbg, "FsRtlOplockFsctrl: Irp -> %08lx\n", Irp );
//
// Check if this is the create case where the user is requesting a pending
// filter oplock.
//
if (IrpSp->MajorFunction == IRP_MJ_CREATE) {
//
// Check that all the conditions hold to grant this oplock.
// The conditions that must hold are:
//
// - This is the only opener of the file.
// - Desired Access must be exactly FILE_READ_ATTRIBUTES.
// This will insure an asynch open since the SYNCHRONIZE
// flag can't be set.
// - Share access is precisely
// (FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE)
//
if ((OpenCount != 1) ||
(FlagOn( IrpSp->Parameters.Create.SecurityContext->DesiredAccess,
~(FILE_READ_ATTRIBUTES))) ||
((IrpSp->Parameters.Create.ShareAccess &
(FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE)) !=
(FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE))) {
Status = STATUS_OPLOCK_NOT_GRANTED;
} else {
Status = FsRtlRequestExclusiveOplock( (PNONOPAQUE_OPLOCK *) Oplock,
IrpSp,
NULL,
OpFilterReqPending );
}
//
// Case on the FsControlFile code control code.
//
} else {
//
// Assume this is an OplockLevel I.
//
// NOTE - This code depends on the defined bits for these oplock types.
// FILTER_OPLOCK = 4 * LEVEL_I_OPLOCK
// BATCH_OPLOCK = 2 * LEVEL_I_OPLOCK
//
OplockState = LEVEL_I_OPLOCK;
switch (IrpSp->Parameters.FileSystemControl.FsControlCode) {
case FSCTL_REQUEST_FILTER_OPLOCK :
OplockState *= 2;
case FSCTL_REQUEST_BATCH_OPLOCK :
OplockState *= 2;
case FSCTL_REQUEST_OPLOCK_LEVEL_1 :
//
// Set the other flags for an exclusive oplock.
//
SetFlag( OplockState, EXCLUSIVE );
//
// We short circuit the request if this request is treated
// synchronously or the open count is not 1. Otherwise the Io system
// will hold the return code until the Irp is completed.
//
// Also fail this if the flag is set which indicates that
// the IO system should copy data back to a user's buffer.
//
// If cleanup has occurrred on this file, then we refuse
// the oplock request.
//
if ((OpenCount != 1) ||
IoIsOperationSynchronous( Irp ) ||
FlagOn( Irp->Flags, IRP_INPUT_OPERATION ) ||
FlagOn( IrpSp->FileObject->Flags, FO_CLEANUP_COMPLETE )) {
FsRtlCompleteRequest( Irp, STATUS_OPLOCK_NOT_GRANTED );
Status = STATUS_OPLOCK_NOT_GRANTED;
} else {
Status = FsRtlRequestExclusiveOplock( (PNONOPAQUE_OPLOCK *) Oplock,
IrpSp,
Irp,
OplockState );
}
break;
case FSCTL_REQUEST_OPLOCK_LEVEL_2 :
//
// We short circuit the request if this request is treated
// synchronously. Otherwise the Io system will hold the return
// code until the Irp is completed.
//
// If cleanup has occurrred on this file, then we refuse
// the oplock request.
//
// Also fail this if the flag is set which indicates that
// the IO system should copy data back to a user's buffer.
//
// A non-zero open count in this case indicates that there are
// file locks on the file. We will also fail the request in
// this case.
//
if ((OpenCount != 0) ||
IoIsOperationSynchronous( Irp ) ||
FlagOn( Irp->Flags, IRP_INPUT_OPERATION ) ||
FlagOn( IrpSp->FileObject->Flags, FO_CLEANUP_COMPLETE )) {
FsRtlCompleteRequest( Irp, STATUS_OPLOCK_NOT_GRANTED );
Status = STATUS_OPLOCK_NOT_GRANTED;
} else {
Status = FsRtlRequestOplockII( (PNONOPAQUE_OPLOCK *) Oplock,
IrpSp,
Irp );
}
break;
case FSCTL_OPLOCK_BREAK_ACKNOWLEDGE :
Status = FsRtlAcknowledgeOplockBreak( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp,
TRUE );
break;
case FSCTL_OPLOCK_BREAK_ACK_NO_2 :
Status = FsRtlAcknowledgeOplockBreak( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp,
FALSE );
break;
case FSCTL_OPBATCH_ACK_CLOSE_PENDING :
Status = FsRtlOpBatchBreakClosePending( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp );
break;
case FSCTL_OPLOCK_BREAK_NOTIFY :
Status = FsRtlOplockBreakNotify( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp );
break;
default :
DebugTrace( 0,
Dbg,
"Invalid Control Code\n",
0);
FsRtlCompleteRequest( Irp, STATUS_INVALID_PARAMETER );
Status = STATUS_INVALID_PARAMETER;
}
}
DebugTrace(-1, Dbg, "FsRtlOplockFsctrl: Exit -> %08lx\n", Status );
return Status;
}
NTSTATUS
FsRtlCheckOplock (
IN POPLOCK Oplock,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL
)
/*++
Routine Description:
This routine is called as a support routine from a file system.
It is used to synchronize I/O requests with the current Oplock
state of a file. If the I/O operation will cause the Oplock to
break, that action is initiated. If the operation cannot continue
until the Oplock break is complete, STATUS_PENDING is returned and
the caller supplied routine is called.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Context - This value is passed as a parameter to the completion routine.
CompletionRoutine - This is the routine which is called if this
Irp must wait for an Oplock to break. This
is a synchronous operation if not specified
and we block in this thread waiting on
an event.
PostIrpRoutine - This is the routine to call before we put anything
on our waiting Irp queue.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_PENDING if we return here but hold the Irp.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PNONOPAQUE_OPLOCK ThisOplock = *Oplock;
PIO_STACK_LOCATION IrpSp;
DebugTrace( +1, Dbg, "FsRtlCheckOplock: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// If there is no oplock structure or this is system I/O, we allow
// the operation to continue. Otherwise we check the major function code.
//
if ((ThisOplock != NULL) &&
!FlagOn( Irp->Flags, IRP_PAGING_IO )) {
OPLOCK_STATE OplockState;
PFILE_OBJECT OplockFileObject;
BOOLEAN BreakToII;
BOOLEAN BreakToNone;
ULONG CreateDisposition;
//
// Capture the file object first and then the oplock state to perform
// the unsafe checks below. We capture the file object first in case
// there is an exclusive oplock break in progress. Otherwise the oplock
// state may indicate break in progress but it could complete by
// the time we snap the file object.
//
OplockFileObject = ThisOplock->FileObject;
OplockState = ThisOplock->OplockState;
//
// Examine the Irp for the appropriate action provided there are
// current oplocks on the file.
//
if (OplockState != NoOplocksHeld) {
BreakToII = FALSE;
BreakToNone = FALSE;
IrpSp = IoGetCurrentIrpStackLocation( Irp );
//
// Determine whether we are going to BreakToII or BreakToNone.
//
switch (IrpSp->MajorFunction) {
case IRP_MJ_CREATE :
//
// If we are opening for attribute access only, we
// return status success. Always break the oplock if this caller
// wants a filter oplock.
//
if (!FlagOn( IrpSp->Parameters.Create.SecurityContext->DesiredAccess,
~(FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES | SYNCHRONIZE) ) &&
!FlagOn( IrpSp->Parameters.Create.Options, FILE_RESERVE_OPFILTER )) {
break;
}
//
// If there is a filter oplock granted and this create iS reading
// the file then don't break the oplock as long as we share
// for reads.
//
if (FlagOn( OplockState, FILTER_OPLOCK ) &&
!FlagOn( IrpSp->Parameters.Create.SecurityContext->DesiredAccess,
~FILTER_OPLOCK_VALID_FLAGS ) &&
FlagOn( IrpSp->Parameters.Create.ShareAccess, FILE_SHARE_READ )) {
break;
}
//
// We we are superseding or overwriting, then break to none.
//
CreateDisposition = (IrpSp->Parameters.Create.Options >> 24) & 0x000000ff;
if ((CreateDisposition == FILE_SUPERSEDE) ||
(CreateDisposition == FILE_OVERWRITE) ||
(CreateDisposition == FILE_OVERWRITE_IF) ||
FlagOn( IrpSp->Parameters.Create.Options, FILE_RESERVE_OPFILTER )) {
BreakToNone = TRUE;
} else {
BreakToII = TRUE;
}
break;
case IRP_MJ_READ :
//
// If a filter oplock has been granted then do nothing.
// We will assume the oplock will have been broken
// if this create needed to do that.
//
if (!FlagOn( OplockState, FILTER_OPLOCK )) {
BreakToII = TRUE;
}
break;
case IRP_MJ_FLUSH_BUFFERS :
BreakToII = TRUE;
break;
case IRP_MJ_CLEANUP :
FsRtlOplockCleanup( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp );
break;
case IRP_MJ_LOCK_CONTROL :
//
// If a filter oplock has been granted then do nothing.
// We will assume the oplock will have been broken
// if this create needed to do that.
//
if (FlagOn( OplockState, FILTER_OPLOCK )) {
break;
}
case IRP_MJ_WRITE :
BreakToNone = TRUE;
break;
case IRP_MJ_SET_INFORMATION :
//
// We are only interested in calls that shrink the file size
// or breaking batch oplocks for the rename case.
//
switch (IrpSp->Parameters.SetFile.FileInformationClass) {
case FileEndOfFileInformation :
//
// Break immediately if this is the lazy writer callback.
//
if (IrpSp->Parameters.SetFile.AdvanceOnly) {
break;
}
case FileAllocationInformation :
BreakToNone = TRUE;
break;
case FileRenameInformation :
case FileLinkInformation :
case FileShortNameInformation :
if (FlagOn( OplockState, BATCH_OPLOCK | FILTER_OPLOCK )) {
BreakToNone = TRUE;
}
break;
}
case IRP_MJ_FILE_SYSTEM_CONTROL :
//
// We need to break to none if this is a zeroing operation.
//
if (IrpSp->Parameters.FileSystemControl.FsControlCode == FSCTL_SET_ZERO_DATA) {
BreakToNone = TRUE;
}
}
if (BreakToII) {
//
// If there are no outstanding oplocks or level II oplocks are held,
// we can return immediately. If the first two tests fail then there
// is an exclusive oplock. If the file objects match we allow the
// operation to continue.
//
if ((OplockState != OplockIIGranted) &&
(OplockFileObject != IrpSp->FileObject)) {
Status = FsRtlOplockBreakToII( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp,
Context,
CompletionRoutine,
PostIrpRoutine );
}
} else if (BreakToNone) {
//
// If there are no oplocks, we can return immediately.
// Otherwise if there is no level 2 oplock and this file
// object matches the owning file object then this write is
// on behalf of the owner of the oplock.
//
if ((OplockState == OplockIIGranted) ||
(OplockFileObject != IrpSp->FileObject)) {
Status = FsRtlOplockBreakToNone( (PNONOPAQUE_OPLOCK) *Oplock,
IrpSp,
Irp,
Context,
CompletionRoutine,
PostIrpRoutine );
}
}
}
}
DebugTrace( -1, Dbg, "FsRtlCheckOplock: Exit -> %08lx\n", Status );
return Status;
}
BOOLEAN
FsRtlOplockIsFastIoPossible (
IN POPLOCK Oplock
)
/*++
Routine Description:
This routine indicates to the caller where there are any outstanding
oplocks which prevent fast Io from happening.
Arguments:
OpLock - Supplies the oplock being queried
Return Value:
BOOLEAN - TRUE if there are outstanding oplocks and FALSE otherwise
--*/
{
BOOLEAN FastIoPossible = TRUE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FsRtlOplockIsFastIoPossible: Oplock -> %08lx\n", *Oplock);
//
// There are not any current oplocks if the variable is null or
// the state is no oplocks held. If an exclusive oplock was granted
// but no break is in progress then allow the Fast IO.
//
if (*Oplock != NULL) {
OPLOCK_STATE OplockState;
OplockState = ((PNONOPAQUE_OPLOCK) *Oplock)->OplockState;
if (FlagOn( OplockState, LEVEL_II_OPLOCK | OPLOCK_BREAK_MASK )) {
FastIoPossible = FALSE;
}
}
DebugTrace(-1, Dbg, "FsRtlOplockIsFastIoPossible: Exit -> %08lx\n", FastIoPossible);
return FastIoPossible;
}
BOOLEAN
FsRtlCurrentBatchOplock (
IN POPLOCK Oplock
)
/*++
Routine Description:
This routines indicates whether there are current outstanding
batch oplocks.
Arguments:
OpLock - Supplies the oplock being queried
Return Value:
BOOLEAN - TRUE if there are outstanding batch oplocks and FALSE otherwise
--*/
{
BOOLEAN BatchOplocks = FALSE;
PAGED_CODE();
DebugTrace(+1, Dbg, "FsRtlCurrentBatchOplock: Oplock -> %08lx\n", *Oplock);
//
// There are not any current oplocks if the variable is null or
// the state is no oplocks held. We check whether there are batch
// oplocks or filter oplocks which have not been broken.
//
if ((*Oplock != NULL) &&
FlagOn( ((PNONOPAQUE_OPLOCK) *Oplock)->OplockState,
BATCH_OPLOCK | FILTER_OPLOCK )) {
BatchOplocks = TRUE;
}
DebugTrace(-1, Dbg, "FsRtlCurrentBatchOplock: Exit -> %08lx\n", BatchOplocks);
return BatchOplocks;
}
//
// Local support routine.
//
PNONOPAQUE_OPLOCK
FsRtlAllocateOplock (
)
/*++
Routine Description:
This routine is called to initialize and allocate an opaque oplock
structure. After allocation, the two events are set to the signalled
state. The oplock state is set to NoOplocksHeld and the other
fields are filled with zeroes.
If the allocation fails, the appropriate status is raised.
Arguments:
None.
Return Value:
PNONOPAQUE_OPLOCK - A pointer to the allocated structure.
--*/
{
PNONOPAQUE_OPLOCK NewOplock = NULL;
PAGED_CODE();
DebugTrace( +1, Dbg, "FsRtlAllocateOplock: Entered\n", 0);
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// Raise an error status if the allocation is unsuccessful.
// The structure is allocated out of non-paged pool.
//
NewOplock = FsRtlpAllocatePool( PagedPool|POOL_COLD_ALLOCATION, sizeof( NONOPAQUE_OPLOCK ));
RtlZeroMemory( NewOplock, sizeof( NONOPAQUE_OPLOCK ));
NewOplock->FastMutex = FsRtlpAllocatePool( NonPagedPool, sizeof( FAST_MUTEX ));
ExInitializeFastMutex( NewOplock->FastMutex );
InitializeListHead( &NewOplock->IrpOplocksII );
InitializeListHead( &NewOplock->WaitingIrps );
NewOplock->OplockState = NoOplocksHeld;
} finally {
//
// Cleanup the oplock if abnormal termination.
//
if (AbnormalTermination() && NewOplock != NULL) {
ExFreePool( NewOplock );
}
DebugTrace(-1, Dbg, "GetOplockStructure: Exit -> %08lx\n", NewOplock);
}
return NewOplock;
}
//
// Local support routine.
//
NTSTATUS
FsRtlRequestExclusiveOplock (
IN OUT PNONOPAQUE_OPLOCK *Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp OPTIONAL,
IN OPLOCK_STATE NextOplockState
)
/*++
Routine Description:
This routine is called whenever a user is requesting either a batch/filter
oplock or a level I oplock. The request is granted if there are currently
no oplocks on the file or we are completing the filter oplock request.
NOTE - We already know that the open count on this file is exactly one.
If the caller is requesting a PendingFilter Oplock then the state
must be NoOplockHeld.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation. This is not specified if we are granting a pending
filter oplock (during a create).
NextOplockState - Indicates the type of oplock being requested.
Return Value:
STATUS_PENDING if the oplock is granted (although it may be immediately cancelled).
STATUS_SUCCESS if a pending filter oplock is requested and tentatively granted.
STATUS_OPLOCK_NOT_GRANTED if the request is denied.
--*/
{
NTSTATUS Status;
PNONOPAQUE_OPLOCK ThisOplock;
LOGICAL AcquiredMutex;
DebugTrace( +1, Dbg, "FsRtlRequestExclusiveOplock: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
DebugTrace( 0, Dbg, "BatchOplock -> %01x\n", BatchOplock );
//
// We can grant the oplock if no one else owns a level I or level II
// oplock on this file. If the oplock pointer is NULL then there
// are no oplocks on the file. Otherwise we need to check the
// oplock state in an existing oplock structure.
//
if (*Oplock == NULL) {
DebugTrace( 0,
Dbg,
"Oplock currently not allocated\n",
0);
ThisOplock = FsRtlAllocateOplock();
*Oplock = ThisOplock;
} else {
ThisOplock = *Oplock;
}
//
// Grab the synchronization object for the oplock.
//
Status = STATUS_SUCCESS;
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( ThisOplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If we are requesting a PendingFilter Oplock then it must be
// safe to grant. There is only one open handle and we are in
// the process of opening it.
//
if (NextOplockState == OpFilterReqPending) {
ASSERT( FlagOn( ThisOplock->OplockState, NO_OPLOCK | PENDING ));
ThisOplock->IrpExclusiveOplock = Irp;
ThisOplock->FileObject = IrpSp->FileObject;
ThisOplock->OplockState = OpFilterReqPending;
//
// If the current oplock state is no oplocks held then we
// will grant the oplock to this requestor. If the state is
// either of the OpFilter states then also grant the request.
// We won't check for a matching file object because there can
// only be one file object. Grant the request anyway.
//
// If the current state is OplockII granted then it must
// be owned by this request. Break the oplock II and grant
// the exclusive lock.
//
} else if (FlagOn( ThisOplock->OplockState,
LEVEL_II_OPLOCK | NO_OPLOCK | PENDING )) {
PFAST_MUTEX OplockFastMutex;
if (ThisOplock->OplockState == OplockIIGranted) {
ASSERT( ThisOplock->IrpOplocksII.Flink == ThisOplock->IrpOplocksII.Blink );
FsRtlRemoveAndCompleteIrp( ThisOplock->IrpOplocksII.Flink );
}
//
// Put the address of the fast mutex on the stack.
//
OplockFastMutex = ThisOplock->FastMutex;
//
// We store this Irp in the Oplocks structure.
// We set the oplock state to the correct exclusive oplock.
//
ThisOplock->IrpExclusiveOplock = Irp;
ThisOplock->FileObject = IrpSp->FileObject;
ThisOplock->OplockState = NextOplockState;
IoMarkIrpPending( Irp );
ObReferenceObject( IrpSp->FileObject );
Irp->IoStatus.Information = (ULONG_PTR) ThisOplock;
IoAcquireCancelSpinLock( &Irp->CancelIrql );
//
// Now if the irp is cancelled then we'll call the cancel
// routine right now to do away with the irp, otherwise
// we set the cancel routine
//
if (Irp->Cancel) {
AcquiredMutex = FALSE;
ExReleaseFastMutexUnsafe( OplockFastMutex );
FsRtlCancelExclusiveIrp( NULL, Irp );
} else {
IoSetCancelRoutine( Irp, FsRtlCancelExclusiveIrp );
IoReleaseCancelSpinLock( Irp->CancelIrql );
}
Status = STATUS_PENDING;
} else {
//
// We'll complete the Irp with the Oplock not granted message
// and return that value as a status.
//
if (ARGUMENT_PRESENT( Irp )) {
FsRtlCompleteRequest( Irp, STATUS_OPLOCK_NOT_GRANTED );
}
Status = STATUS_OPLOCK_NOT_GRANTED;
}
} finally {
//
// Give up the oplock synchronization object.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( ThisOplock->FastMutex );
}
DebugTrace( +1, Dbg, "FsRtlRequestExclusiveOplock: Exit\n", 0 );
}
return Status;
}
//
// Local support routine.
//
NTSTATUS
FsRtlRequestOplockII (
IN OUT PNONOPAQUE_OPLOCK *Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called when a user is requesting an Oplock II on an
open file. The request is granted if there are currently no
level 1 oplocks on the file and an oplock break is not in progress.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Return Value:
STATUS_PENDING if the oplock is granted.
STATUS_OPLOCK_NOT_GRANTED if the request is denied.
--*/
{
NTSTATUS Status;
PNONOPAQUE_OPLOCK ThisOplock;
LOGICAL AcquiredMutex;
DebugTrace( +1, Dbg, "FsRtlRequestOplockII: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// We can grant the oplock if no one else owns a level I
// oplock on this file. If the oplock pointer is NULL then there
// are no oplocks on the file. Otherwise we need to check the
// oplock state in an existing oplock structure.
//
if (*Oplock == NULL) {
DebugTrace( 0,
Dbg,
"Oplock currently not allocated\n",
0);
ThisOplock = FsRtlAllocateOplock();
*Oplock = ThisOplock;
} else {
ThisOplock = *Oplock;
}
//
// Grab the synchronization object for the oplock.
//
Status = STATUS_PENDING;
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( ThisOplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If the current oplock state is no oplocks held or OplockIIGranted
// then we will grant the oplock to this requestor.
//
if (FlagOn( ThisOplock->OplockState, NO_OPLOCK | LEVEL_II_OPLOCK )) {
PFAST_MUTEX OplockFastMutex = ThisOplock->FastMutex;
//
// We store this Irp in the Oplocks structure.
// We set the oplock state to 'OplockIIGranted'.
//
IoMarkIrpPending( Irp );
Irp->IoStatus.Status = STATUS_SUCCESS;
InsertHeadList( &ThisOplock->IrpOplocksII,
&Irp->Tail.Overlay.ListEntry );
Irp->IoStatus.Information = (ULONG_PTR) ThisOplock;
ThisOplock->OplockState = OplockIIGranted;
ObReferenceObject( IrpSp->FileObject );
IoAcquireCancelSpinLock( &Irp->CancelIrql );
//
// Now if the irp is cancelled then we'll call the cancel
// routine right now to do away with the irp, otherwise
// we set the cancel routine
//
if (Irp->Cancel) {
AcquiredMutex = FALSE;
ExReleaseFastMutexUnsafe( OplockFastMutex );
FsRtlCancelOplockIIIrp( NULL, Irp );
} else {
IoSetCancelRoutine( Irp, FsRtlCancelOplockIIIrp );
IoReleaseCancelSpinLock( Irp->CancelIrql );
}
} else {
//
// We'll complete the Irp with the Oplock not granted message
// and return that value as a status.
//
FsRtlCompleteRequest( Irp, STATUS_OPLOCK_NOT_GRANTED );
Status = STATUS_OPLOCK_NOT_GRANTED;
}
} finally {
//
// Give up the oplock synchronization object.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( ThisOplock->FastMutex );
}
DebugTrace( +1, Dbg, "FsRtlRequestOplockII: Exit\n", 0 );
}
return Status;
}
//
// Local support routine.
//
NTSTATUS
FsRtlAcknowledgeOplockBreak (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN BOOLEAN GrantLevelII
)
/*++
Routine Description:
This routine is called when a user is acknowledging an Oplock I
break. If the level 1 oplock was being broken to level 2, then
a check is made to insure that the level 2 has not been broken
in the meantime.
If an oplock 1 break is not in progress then this will be treated
as an asynchronous break request. If this is an asynchronous break
request and the file object owns an outstanding level 1 oplock, then
the oplock will be broken at this point.
A spurious break request via a file object which does not (or did not)
own the level 1 oplock will generate a warning but will not affect
the oplock state.
At the end of an Oplock I break, all of the waiting irps are completed.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
GrantLevelII - Indicates that this caller wants a level II oplock left
on the file.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
NTSTATUS Status = STATUS_INVALID_OPLOCK_PROTOCOL;
LOGICAL AcquiredMutex;
DebugTrace( +1, Dbg, "FsRtlAcknowledgeOplockBreak: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// If there is no oplock structure, we complete this with invalid
// oplock protocol.
//
if (Oplock == NULL) {
FsRtlCompleteRequest( Irp, STATUS_INVALID_OPLOCK_PROTOCOL );
DebugTrace( -1, Dbg, "FsRtlAcknowledgeOplockBreak: Exit -> %08lx\n", STATUS_INVALID_OPLOCK_PROTOCOL );
return STATUS_INVALID_OPLOCK_PROTOCOL;
}
//
// Grab the synchronization object for the oplock.
//
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
BOOLEAN DereferenceFileObject = TRUE;
//
// If a break is underway but this is not the owner of the
// level 1 oplock, we complete the request and return a
// warning.
//
if (Oplock->FileObject != IrpSp->FileObject) {
Status = STATUS_INVALID_OPLOCK_PROTOCOL;
DebugTrace(0,
Dbg,
"Not oplock owner -> %08lx\n",
Status);
FsRtlCompleteRequest( Irp, Status );
try_return( Status );
}
//
// If the user would like a level II and we are breaking to level II
// then grant the oplock.
//
if (GrantLevelII &&
FlagOn( Oplock->OplockState, BREAK_TO_II )) {
PFAST_MUTEX OplockFastMutex = Oplock->FastMutex;
DebugTrace(0, Dbg, "OplockItoII\n", 0);
//
// The acknowledgement should never be synchronous.
//
ASSERT( !IoIsOperationSynchronous( Irp ));
//
// We need to add this Irp to the oplock II queue, change
// the oplock state to Oplock II granted and set the
// return value to STATUS_PENDING.
//
IoMarkIrpPending( Irp );
Irp->IoStatus.Status = STATUS_SUCCESS;
InsertHeadList( &Oplock->IrpOplocksII,
&Irp->Tail.Overlay.ListEntry );
DereferenceFileObject = FALSE;
Oplock->OplockState = OplockIIGranted;
Irp->IoStatus.Information = (ULONG_PTR) Oplock;
IoAcquireCancelSpinLock( &Irp->CancelIrql );
//
// Now if the irp is cancelled then we'll call the cancel
// routine right now to do away with the irp, otherwise
// we set the cancel routine
//
if (Irp->Cancel) {
ExReleaseFastMutexUnsafe( OplockFastMutex );
AcquiredMutex = FALSE;
FsRtlCancelOplockIIIrp( NULL, Irp );
} else {
IoSetCancelRoutine( Irp, FsRtlCancelOplockIIIrp );
IoReleaseCancelSpinLock( Irp->CancelIrql );
}
Status = STATUS_PENDING;
//
// We will break to none since this is the expected case for these
// cases.
//
} else if (FlagOn( Oplock->OplockState, BREAK_TO_II | BREAK_TO_NONE )) {
//
// We need to complete this Irp and return STATUS_SUCCESS.
// We also set the oplock state to no oplocks held.
//
DebugTrace(0, Dbg, "OplockItoNone\n", 0);
Status = STATUS_SUCCESS;
FsRtlCompleteRequest( Irp, Status );
Oplock->OplockState = NoOplocksHeld;
//
// In this case the user expects to be at level II. He is
// expecting this Irp to be completed when the LevelII Oplock
// is broken.
//
} else if (FlagOn( Oplock->OplockState, BREAK_TO_II_TO_NONE )) {
DebugTrace(0, Dbg, "AcknowledgeOplockBreak: OplockItoIItoNone\n", 0);
Status = STATUS_SUCCESS;
Irp->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Irp, Status );
Oplock->OplockState = NoOplocksHeld;
} else {
Status = STATUS_INVALID_OPLOCK_PROTOCOL;
DebugTrace(0,
Dbg,
"No break underway -> %08lx\n",
Status);
FsRtlCompleteRequest( Irp, Status );
try_return( Status );
}
//
// Complete the waiting Irps and cleanup the oplock structure.
//
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
//
// Remove the entry found and complete the Irp.
//
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
if (DereferenceFileObject) {
ObDereferenceObject( Oplock->FileObject );
}
Oplock->FileObject = NULL;
try_exit: NOTHING;
} finally {
//
// Give up the oplock synchronization object.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
}
DebugTrace( -1, Dbg, "FsRtlAcknowledgeOplockBreak: Exit -> %08x\n", Status );
}
return Status;
}
//
// Local support routine.
//
NTSTATUS
FsRtlOpBatchBreakClosePending (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called when a user is acknowledging a batch oplock
break or Level I oplock break. In this case the user is planning
to close the file as well and doesn't need a level II oplock.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PAGED_CODE();
DebugTrace( +1, Dbg, "FsRtlOpBatchBreakClosePending: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// If there is no oplock structure, we complete this with invalid
// oplock protocol.
//
if (Oplock == NULL) {
FsRtlCompleteRequest( Irp, STATUS_INVALID_OPLOCK_PROTOCOL );
DebugTrace( -1, Dbg, "FsRtlOpBatchClosePending: Exit -> %08lx\n", STATUS_INVALID_OPLOCK_PROTOCOL );
return STATUS_INVALID_OPLOCK_PROTOCOL;
}
//
// Grab the synchronization object for the oplock.
//
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try_finally to facilitate cleanup.
//
try {
//
// If a break is underway but this is not the owner of the
// level 1 oplock, we complete the request and return a
// warning.
//
if (Oplock->FileObject != IrpSp->FileObject) {
Status = STATUS_INVALID_OPLOCK_PROTOCOL;
DebugTrace(0,
Dbg,
"Not oplock owner -> %08lx\n",
Status);
} else {
//
// If this is an opbatch operation we want to note that a
// close is pending. For an exclusive oplock we set the state to
// no oplocsk held. There must be a break in progress to
// process however.
//
if (FlagOn( Oplock->OplockState,
BREAK_TO_II | BREAK_TO_NONE | BREAK_TO_II_TO_NONE )) {
//
// Break all oplocks for an exclusive oplock.
//
if (FlagOn( Oplock->OplockState, LEVEL_I_OPLOCK | PENDING )) {
//
// Clean up the oplock structure and complete all waiting Irps.
//
if (FlagOn( Oplock->OplockState, LEVEL_I_OPLOCK )) {
ObDereferenceObject( Oplock->FileObject );
}
Oplock->OplockState = NoOplocksHeld;
Oplock->FileObject = NULL;
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
//
// Remove the entry found and complete the Irp.
//
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
//
// Set the state to close pending for batch and filter
// oplocks.
//
} else {
ClearFlag( Oplock->OplockState, OPLOCK_BREAK_MASK );
SetFlag( Oplock->OplockState, CLOSE_PENDING );
}
} else {
Status = STATUS_INVALID_OPLOCK_PROTOCOL;
DebugTrace(0,
Dbg,
"No break underway -> %08lx\n",
Status);
}
}
//
// We simply complete this request.
//
FsRtlCompleteRequest( Irp, Status );
} finally {
//
// Release the synchronization object.
//
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
DebugTrace(-1, Dbg, "FsRtlOpBatchBreakClosePending: Exit -> %08lx\n", Status);
}
return Status;
}
//
// Local support routine
//
NTSTATUS
FsRtlOplockBreakNotify (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called when the Irp refers the user request to
be notified when there is no level 1 oplock break in progress.
Under any other condition this routine completes immediately with
STATUS_SUCCESS. Otherwise we simply add this Irp to the list
of Irp's waiting for the break to complete.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_PENDING if we return here but hold the Irp.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
LOGICAL AcquiredMutex;
UNREFERENCED_PARAMETER (IrpSp);
PAGED_CODE();
DebugTrace( +1, Dbg, "FsRtlOplockBreakNotify: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// If there is no oplock structure, we complete this with status success.
//
if (Oplock == NULL) {
FsRtlCompleteRequest( Irp, STATUS_SUCCESS );
DebugTrace( -1, Dbg, "FsRtlOpBatchClosePending: Exit -> %08lx\n", STATUS_SUCCESS );
return STATUS_SUCCESS;
}
//
// Grap the synchronization object.
//
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If there are no outstanding level 1 oplocks breaks underway
// or batch oplock breaks underway we complete immediately.
//
if (!FlagOn( Oplock->OplockState, OPLOCK_BREAK_MASK )) {
DebugTrace(0,
Dbg,
"No exclusive oplock break underway\n",
0);
FsRtlCompleteRequest( Irp, STATUS_SUCCESS );
try_return( Status = STATUS_SUCCESS );
} else if (FlagOn( Oplock->OplockState, PENDING )) {
Oplock->OplockState = NoOplocksHeld;
Oplock->FileObject = NULL;
FsRtlCompleteRequest( Irp, STATUS_SUCCESS );
try_return( Status = STATUS_SUCCESS );
}
//
// Otherwise we need to add this Irp to the list of Irp's waiting
// for the oplock break to complete.
//
AcquiredMutex = FALSE;
//
// Initialize the return value to status success.
//
Irp->IoStatus.Status = STATUS_SUCCESS;
Status = FsRtlWaitOnIrp( Oplock,
Irp,
NULL,
FsRtlNotifyCompletion,
NULL,
NULL );
try_exit: NOTHING;
} finally {
//
// Give up the synchronization event if we haven't done so.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
}
DebugTrace( -1, Dbg, "FsRtlOplockBreakNotify: Exit -> %08lx\n", Status );
}
return Status;
}
//
// Local support routine
//
VOID
FsRtlOplockCleanup (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp
)
/*++
Routine Description:
This routine is called to coordinate a cleanup operation with the
oplock state for a file. If there is no level 1 oplock for the
file, then there is no action to take. If the file object in this
Irp matches the file object used in granting the level 1 oplock,
then the close operation will terminate the oplock. If this
cleanup refers to a file object which has a level II oplock, then
that Irp is completed and removed from the list of level II
oplocked Irps.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Return Value:
None.
--*/
{
DebugTrace( +1, Dbg, "FsRtlOplockCleanup: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
//
// Grab the synchronization object for the oplock.
//
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If the oplock has no oplock held we return immediately.
//
if (Oplock->OplockState == NoOplocksHeld) {
DebugTrace(0,
Dbg,
"No oplocks on file\n",
0);
try_return( NOTHING );
}
//
// If level II oplocks are held, check if this matches any of them.
//
if (Oplock->OplockState == OplockIIGranted) {
PLIST_ENTRY Link;
PIRP Irp;
PIO_STACK_LOCATION NextIrpSp;
DebugTrace(0,
Dbg,
"File has level 2 oplocks\n",
0);
for (Link = Oplock->IrpOplocksII.Flink;
Link != &Oplock->IrpOplocksII;
Link = Link->Flink) {
Irp = CONTAINING_RECORD( Link, IRP, Tail.Overlay.ListEntry );
NextIrpSp = IoGetCurrentIrpStackLocation( Irp );
//
// If the file objects match, then emove the entry found and complete the Irp.
//
if (IrpSp->FileObject == NextIrpSp->FileObject) {
//
// Back up to remember this link.
//
Link = Link->Blink;
//
//
FsRtlRemoveAndCompleteIrp( Link->Flink );
}
}
//
// If all the level II oplocks are gone, then the state is
// no oplocks held.
//
if (IsListEmpty( &Oplock->IrpOplocksII )) {
Oplock->OplockState = NoOplocksHeld;
}
try_return( NOTHING );
}
//
// If this file object matches that used to request an exclusive
// oplock, we completely close the oplock break.
//
if (IrpSp->FileObject == Oplock->FileObject) {
DebugTrace(0,
Dbg,
"Handle owns level 1 oplock\n",
0);
//
// If an oplock break is not in progress, we initiate one and
// complete the exclusive Irp immediately.
//
if (!FlagOn( Oplock->OplockState, OPLOCK_BREAK_MASK | PENDING )) {
PIRP ExclusiveIrp = Oplock->IrpExclusiveOplock;
DebugTrace(0,
Dbg,
"Initiate oplock break\n",
0);
IoAcquireCancelSpinLock( &ExclusiveIrp->CancelIrql );
IoSetCancelRoutine( ExclusiveIrp, NULL );
IoReleaseCancelSpinLock( ExclusiveIrp->CancelIrql );
ExclusiveIrp->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Oplock->IrpExclusiveOplock, STATUS_SUCCESS );
Oplock->IrpExclusiveOplock = NULL;
}
//
// Clean up the oplock structure and complete all waiting Irps.
// Don't do this if this is a pending opfilter request.
//
if (!FlagOn( Oplock->OplockState, PENDING )) {
ObDereferenceObject( IrpSp->FileObject );
}
Oplock->FileObject = NULL;
Oplock->OplockState = NoOplocksHeld;
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
//
// Remove the entry found and complete the Irp.
//
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
}
try_exit: NOTHING;
} finally {
//
// Give up the oplock synchronization object.
//
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
DebugTrace( +1, Dbg, "FsRtlOplockCleanup: Exit\n", 0 );
}
return;
}
//
// Local support routine
//
NTSTATUS
FsRtlOplockBreakToII (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine
)
/*++
Routine Description:
This routine is a generic worker routine which is called when an
operation will cause all oplocks to be broken to level II before the
operation can proceed.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Context - This value is passed as a parameter to the completion routine.
CompletionRoutine - This is the routine which is called if this
Irp must wait for an Oplock to break. This
is a synchronous operation if not specified
and we block in this thread waiting on
an event.
PostIrpRoutine - This is the routine to call before we put anything
on our waiting Irp queue.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_PENDING if we return here but hold the Irp.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
KEVENT Event;
NTSTATUS Status;
LOGICAL AcquiredMutex;
DebugTrace( +1, Dbg, "CheckOplockBreakToII: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// Grap the synchronization object.
//
Status = STATUS_SUCCESS;
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If there are no outstanding oplocks or level II oplocks are held,
// we can return immediately.
//
if (!FlagOn( Oplock->OplockState, EXCLUSIVE )) {
DebugTrace(0,
Dbg,
"No oplocks or level II oplocks on file\n",
0);
try_return( Status = STATUS_SUCCESS );
}
//
// At this point there is an exclusive oplock break in progress.
// If this file object owns that oplock, we allow the operation
// to continue.
//
if (Oplock->FileObject == IrpSp->FileObject) {
DebugTrace(0,
Dbg,
"Handle owns level 1 oplock\n",
0);
try_return( Status = STATUS_SUCCESS );
}
//
// If there is currently an exclusive oplock held then complete
// the exclusive irp.
//
if (!FlagOn( Oplock->OplockState, PENDING | OPLOCK_BREAK_MASK )) {
PIRP IrpExclusive = Oplock->IrpExclusiveOplock;
DebugTrace(0,
Dbg,
"Breaking exclusive oplock\n",
0);
IoAcquireCancelSpinLock( &IrpExclusive->CancelIrql );
IoSetCancelRoutine( IrpExclusive, NULL );
IoReleaseCancelSpinLock( IrpExclusive->CancelIrql );
//
// If the Irp has been cancelled, we complete the Irp with
// status cancelled and break the oplock completely.
//
if (IrpExclusive->Cancel) {
IrpExclusive->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( IrpExclusive, STATUS_CANCELLED );
Oplock->OplockState = NoOplocksHeld;
Oplock->IrpExclusiveOplock = NULL;
ObDereferenceObject( Oplock->FileObject );
Oplock->FileObject = NULL;
//
// Release any waiting irps.
//
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
try_return( Status = STATUS_SUCCESS );
} else {
NTSTATUS CompletionStatus;
if (FlagOn( Oplock->OplockState, LEVEL_I_OPLOCK | BATCH_OPLOCK )) {
SetFlag( Oplock->OplockState, BREAK_TO_II );
CompletionStatus = FILE_OPLOCK_BROKEN_TO_LEVEL_2;
} else {
SetFlag( Oplock->OplockState, BREAK_TO_NONE );
CompletionStatus = FILE_OPLOCK_BROKEN_TO_NONE;
}
Oplock->IrpExclusiveOplock->IoStatus.Information = CompletionStatus;
FsRtlCompleteRequest( Oplock->IrpExclusiveOplock, STATUS_SUCCESS );
Oplock->IrpExclusiveOplock = NULL;
}
//
// If there is a pending opfilter request then clear the request.
//
} else if (FlagOn( Oplock->OplockState, PENDING )) {
Oplock->OplockState = NoOplocksHeld;
Oplock->FileObject = NULL;
try_return( Status = STATUS_SUCCESS );
}
//
// If this is an open operation and the user doesn't want to
// block, we will complete the operation now.
//
if ((IrpSp->MajorFunction == IRP_MJ_CREATE) &&
FlagOn( IrpSp->Parameters.Create.Options, FILE_COMPLETE_IF_OPLOCKED )) {
DebugTrace( 0, Dbg, "Don't block open\n", 0 );
try_return( Status = STATUS_OPLOCK_BREAK_IN_PROGRESS );
}
//
// If we get here that means that this operation can't continue
// until the oplock break is complete.
//
// FsRtlWaitOnIrp will release the mutex.
//
AcquiredMutex = FALSE;
Status = FsRtlWaitOnIrp( Oplock,
Irp,
Context,
CompletionRoutine,
PostIrpRoutine,
&Event );
try_exit: NOTHING;
} finally {
//
// Give up the synchronization event if we haven't done so.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
}
DebugTrace( -1, Dbg, "FsRtlOplockBreakToII: Exit -> %08lx\n", Status );
}
return Status;
}
//
// Local support routine.
//
NTSTATUS
FsRtlOplockBreakToNone (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIO_STACK_LOCATION IrpSp,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL
)
/*++
Routine Description:
This routine is a generic worker routine which is called when an
operation will cause all oplocks to be broken before the operation can
proceed.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
IrpSp - This is the Irp stack location for the current Irp.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Context - This value is passed as a parameter to the completion routine.
CompletionRoutine - This is the routine which is called if this
Irp must wait for an Oplock to break. This
is a synchronous operation if not specified
and we block in this thread waiting on
an event.
PostIrpRoutine - This is the routine to call before we put anything
on our waiting Irp queue.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_PENDING if we return here but hold the Irp.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
KEVENT Event;
NTSTATUS Status = STATUS_SUCCESS;
LOGICAL AcquiredMutex;
DebugTrace( +1, Dbg, "CheckOplockBreakToNone: Entered\n", 0 );
DebugTrace( 0, Dbg, "Oplock -> %08lx\n", Oplock );
DebugTrace( 0, Dbg, "IrpSp -> %08lx\n", IrpSp );
DebugTrace( 0, Dbg, "Irp -> %08lx\n", Irp );
//
// Grap the synchronization object.
//
AcquiredMutex = TRUE;
ExAcquireFastMutexUnsafe( Oplock->FastMutex );
//
// Use a try-finally to facilitate cleanup.
//
try {
//
// If there are no outstanding oplocks, we can return immediately.
//
if (Oplock->OplockState == NoOplocksHeld) {
DebugTrace(0,
Dbg,
"No oplocks on file\n",
0);
try_return( Status = STATUS_SUCCESS );
}
//
// If there is an exclusive oplock held, we begin the break to none.
//
if (!FlagOn( Oplock->OplockState,
LEVEL_II_OPLOCK | PENDING | OPLOCK_BREAK_MASK )) {
PIRP IrpExclusive = Oplock->IrpExclusiveOplock;
DebugTrace(0,
Dbg,
"Breaking exclusive oplock\n",
0);
IoAcquireCancelSpinLock( &IrpExclusive->CancelIrql );
IoSetCancelRoutine( IrpExclusive, NULL );
IoReleaseCancelSpinLock( IrpExclusive->CancelIrql );
//
// If the Irp has been cancelled, we complete the Irp with
// status cancelled and break the oplock completely.
//
if (IrpExclusive->Cancel) {
IrpExclusive->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( IrpExclusive, STATUS_CANCELLED );
Oplock->OplockState = NoOplocksHeld;
Oplock->IrpExclusiveOplock = NULL;
ObDereferenceObject( Oplock->FileObject );
Oplock->FileObject = NULL;
//
// Release any waiting irps.
//
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
try_return( Status = STATUS_SUCCESS );
} else {
Oplock->IrpExclusiveOplock->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Oplock->IrpExclusiveOplock, STATUS_SUCCESS );
Oplock->IrpExclusiveOplock = NULL;
SetFlag( Oplock->OplockState, BREAK_TO_NONE );
}
//
// If there are level II oplocks, this will break all of them.
//
} else if (Oplock->OplockState == OplockIIGranted) {
DebugTrace(0,
Dbg,
"Breaking all level 2 oplocks\n",
0);
while (!IsListEmpty( &Oplock->IrpOplocksII )) {
//
// Remove and complete this Irp with STATUS_SUCCESS.
//
FsRtlRemoveAndCompleteIrp( Oplock->IrpOplocksII.Flink );
}
//
// Set the oplock state to no oplocks held.
//
Oplock->OplockState = NoOplocksHeld;
try_return( Status = STATUS_SUCCESS );
//
// If we are currently breaking to level II then change that
// to BreakToIIToNone.
//
} else if (FlagOn( Oplock->OplockState, BREAK_TO_II )) {
ClearFlag( Oplock->OplockState, BREAK_TO_II );
SetFlag( Oplock->OplockState, BREAK_TO_II_TO_NONE );
//
// If there is a pending opfilter request then clear that request.
//
} else if (FlagOn( Oplock->OplockState, PENDING )) {
Oplock->OplockState = NoOplocksHeld;
Oplock->FileObject = NULL;
try_return( Status = STATUS_SUCCESS );
}
//
// At this point there is already an exclusive oplock break in progress.
// If this file object owns that oplock, we allow the operation
// to continue.
//
if (Oplock->FileObject == IrpSp->FileObject) {
DebugTrace(0,
Dbg,
"Handle owns level 1 oplock\n",
0);
try_return( Status = STATUS_SUCCESS );
}
//
// If this is an open operation and the user doesn't want to
// block, we will complete the operation now.
//
if ((IrpSp->MajorFunction == IRP_MJ_CREATE) &&
FlagOn( IrpSp->Parameters.Create.Options, FILE_COMPLETE_IF_OPLOCKED )) {
DebugTrace( 0, Dbg, "Don't block open\n", 0 );
try_return( Status = STATUS_OPLOCK_BREAK_IN_PROGRESS );
}
//
// If we get here that means that this operation can't continue
// until the oplock break is complete.
//
// FsRtlWaitOnIrp will release the mutex.
//
AcquiredMutex = FALSE;
Status = FsRtlWaitOnIrp( Oplock,
Irp,
Context,
CompletionRoutine,
PostIrpRoutine,
&Event );
try_exit: NOTHING;
} finally {
//
// Give up the synchronization event if we haven't done so.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
}
DebugTrace( -1, Dbg, "CheckOplockBreakToNone: Exit -> %08lx\n", Status );
}
return Status;
}
//
// Local support routine.
//
VOID
FsRtlRemoveAndCompleteIrp (
IN PLIST_ENTRY Link
)
/*++
Routine Description:
This routine is called to remove an Irp from a list of Irps linked
with the Tail.ListEntry field and complete them with STATUS_CANCELLED
if the Irp has been cancelled, STATUS_SUCCESS otherwise.
Arguments:
Link - Supplies the entry to remove from the list.
Return Value:
None.
--*/
{
PIRP Irp;
PIO_STACK_LOCATION OplockIIIrpSp;
DebugTrace( +1, Dbg, "FsRtlRemoveAndCompleteIrp: Entered\n", 0 );
//
// Reference the Irp.
//
Irp = CONTAINING_RECORD( Link, IRP, Tail.Overlay.ListEntry );
//
// Get the stack location and dereference the file object.
//
OplockIIIrpSp = IoGetCurrentIrpStackLocation( Irp );
ObDereferenceObject( OplockIIIrpSp->FileObject );
//
// Clear the cancel routine in the irp.
//
IoAcquireCancelSpinLock( &Irp->CancelIrql );
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// Remove this from the list.
//
RemoveEntryList( Link );
//
// Complete the oplock Irp.
//
Irp->IoStatus.Information = FILE_OPLOCK_BROKEN_TO_NONE;
FsRtlCompleteRequest( Irp, Irp->Cancel ? STATUS_CANCELLED : STATUS_SUCCESS );
DebugTrace( -1, Dbg, "FsRtlRemoveAndCompleteIrp: Exit\n", 0 );
}
//
// Local support routine.
//
NTSTATUS
FsRtlWaitOnIrp (
IN OUT PNONOPAQUE_OPLOCK Oplock,
IN PIRP Irp,
IN PVOID Context,
IN POPLOCK_WAIT_COMPLETE_ROUTINE CompletionRoutine OPTIONAL,
IN POPLOCK_FS_PREPOST_IRP PostIrpRoutine OPTIONAL,
IN PKEVENT Event
)
/*++
Routine Description:
This routine is called to create a Wait Irp structure and attach it
to the current Irp. The Irp is then added to the list of Irps waiting
for an oplock break. We check if the Irp has been cancelled and if
so we call our cancel routine to perform the work.
This routine is holding the Mutex for the oplock on entry and
must give it up on exit.
Arguments:
Oplock - Supplies a pointer to the non-opaque oplock structure for
this file.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Context - This value is passed as a parameter to the completion routine.
CompletionRoutine - This is the routine which is called if this
Irp must wait for an Oplock to break. This
is a synchronous operation if not specified
and we block in this thread waiting on
an event.
PostIrpRoutine - This is the routine to call before we put anything
on our waiting Irp queue.
Event - If there is no user completion routine, this thread will
block using this event.
Return Value:
STATUS_SUCCESS if we can complete the operation on exiting this thread.
STATUS_PENDING if we return here but hold the Irp.
STATUS_CANCELLED if the Irp is cancelled before we return.
--*/
{
LOGICAL AcquiredMutex;
NTSTATUS Status = STATUS_INSUFFICIENT_RESOURCES;
PWAITING_IRP WaitingIrp;
DebugTrace( +1, Dbg, "FsRtlWaitOnIrp: Entered\n", 0 );
//
// Remember that we have the mutex.
//
AcquiredMutex = TRUE;
//
// Use a try-finally to facilitate cleanup.
//
try {
PFAST_MUTEX OplockFastMutex = Oplock->FastMutex;
//
// Allocate and initialize the Wait Irp structure.
//
WaitingIrp = FsRtlpAllocatePool( PagedPool, sizeof( WAITING_IRP ));
WaitingIrp->Irp = Irp;
WaitingIrp->Context = Context;
WaitingIrp->Information = (ULONG) Irp->IoStatus.Information;
//
// Take appropriate action if depending on the value of the
// completion routine.
//
if (ARGUMENT_PRESENT( CompletionRoutine )) {
WaitingIrp->CompletionRoutine = CompletionRoutine;
WaitingIrp->Context = Context;
} else {
WaitingIrp->CompletionRoutine = FsRtlCompletionRoutinePriv;
WaitingIrp->Context = Event;
KeInitializeEvent( Event, NotificationEvent, FALSE );
}
//
// Call the file system's post Irp code.
//
if (ARGUMENT_PRESENT( PostIrpRoutine )) {
PostIrpRoutine( Context, Irp );
}
//
// Initialize the return value to status success.
//
Irp->IoStatus.Status = STATUS_SUCCESS;
//
// We put this into the Waiting Irp queue.
//
InsertTailList( &Oplock->WaitingIrps, &WaitingIrp->Links );
//
// We grab the cancel spinlock and store the address of the oplock.
//
IoAcquireCancelSpinLock( &Irp->CancelIrql );
Irp->IoStatus.Information = (ULONG_PTR) Oplock;
//
// If the Irp is cancelled then we'll call the cancel routine
// right now to do away with the Waiting Irp structure.
//
if (Irp->Cancel) {
ExReleaseFastMutexUnsafe( OplockFastMutex );
AcquiredMutex = FALSE;
if (ARGUMENT_PRESENT( CompletionRoutine )) {
IoMarkIrpPending( Irp );
Status = STATUS_PENDING;
} else {
Status = STATUS_CANCELLED;
}
FsRtlCancelWaitIrp( NULL, Irp );
//
// Otherwise, we set the cancel routine and decide whether we
// are going to wait on our local event.
//
} else {
IoSetCancelRoutine( Irp, FsRtlCancelWaitIrp );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// If we wait on the event, we pull the return code out of
// the Irp.
//
if (!ARGUMENT_PRESENT( CompletionRoutine )) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
AcquiredMutex = FALSE;
KeWaitForSingleObject( Event,
Executive,
KernelMode,
FALSE,
NULL );
Status = Irp->IoStatus.Status;
//
// Otherwise, we return STATUS_PENDING.
//
} else {
IoMarkIrpPending( Irp );
Status = STATUS_PENDING;
}
}
} finally {
//
// Release the Mutex if we have not done so.
//
if (AcquiredMutex) {
ExReleaseFastMutexUnsafe( Oplock->FastMutex );
}
DebugTrace( -1, Dbg, "FsRtlWaitOnIrp: Exit\n", 0 );
}
return Status;
}
//
// Local support routine.
//
VOID
FsRtlCompletionRoutinePriv (
IN PVOID Context,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called when an operation must be synchronous with
respect to the oplock package. This routine will simply set the
event in the Signalled state, allowing some other thread to resume
execution.
Arguments:
Context - This is the event to signal.
Irp - Supplies a pointer to the Irp which declares the requested
operation.
Return Value:
None.
--*/
{
PAGED_CODE();
DebugTrace( +1, Dbg, "FsRtlCompletionRoutinePriv: Entered\n", 0 );
KeSetEvent( (PKEVENT)Context, 0, FALSE );
DebugTrace( -1, Dbg, "FsRtlCompletionRoutinePriv: Exit\n", 0 );
return;
UNREFERENCED_PARAMETER( Irp );
}
//
// Local support routine.
//
VOID
FsRtlCancelWaitIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called for an Irp that is placed on the waiting
Irp queue. We remove the Cancel routine from the specified Irp and
then call the completion routines for all the cancelled Irps on the
queue.
Arguments:
DeviceObject - Ignored.
Irp - Supplies the Irp being cancelled. A pointer to the
Oplock structure for the Irp is stored in the information
field of the Irp's Iosb.
Return Value:
None.
--*/
{
PNONOPAQUE_OPLOCK Oplock;
PLIST_ENTRY Links;
DebugTrace( +1, Dbg, "FsRtlCancelWaitIrp: Entered\n", 0 );
Oplock = (PNONOPAQUE_OPLOCK) Irp->IoStatus.Information;
//
// We now need to void the cancel routine and release the spinlock
//
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// Iterate through all of the waiting locks looking for a canceled one
// We do this under the protection of the oplock mutex.
//
ExAcquireFastMutex( Oplock->FastMutex );
try {
for (Links = Oplock->WaitingIrps.Flink;
Links != &Oplock->WaitingIrps;
Links = Links->Flink ) {
PWAITING_IRP WaitingIrp;
//
// Get a pointer to the waiting Irp record
//
WaitingIrp = CONTAINING_RECORD( Links, WAITING_IRP, Links );
DebugTrace(0, Dbg, "FsRtlCancelWaitIrp, Loop top, WaitingIrp = %08lx\n", WaitingIrp);
//
// Check if the irp has been cancelled
//
if (WaitingIrp->Irp->Cancel) {
//
// Now we need to remove this waiter and call the
// completion routine. But we must not mess up our link
// iteration so we need to back up link one step and
// then the next iteration will go to our current flink.
//
Links = Links->Blink;
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
}
} finally {
//
// No matter how we exit we release the mutex
//
ExReleaseFastMutex( Oplock->FastMutex );
DebugTrace( -1, Dbg, "FsRtlCancelWaitIrp: Exit\n", 0 );
}
return;
UNREFERENCED_PARAMETER( DeviceObject );
}
//
// Local support routine.
//
VOID
FsRtlCancelOplockIIIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called for an Irp that is placed in the Oplock II
Irp queue. We remove the Cancel routine from the specified Irp and
then call the completion routines for all the cancelled Irps on the
queue.
Arguments:
DeviceObject - Ignored.
Irp - Supplies the Irp being cancelled. A pointer to the
Oplock structure for the Irp is stored in the information
field of the Irp's Iosb.
Return Value:
None.
--*/
{
PNONOPAQUE_OPLOCK Oplock;
BOOLEAN LevelIIIrps;
PLIST_ENTRY Links;
DebugTrace( +1, Dbg, "FsRtlCancelOplockIIIrp: Entered\n", 0 );
Oplock = (PNONOPAQUE_OPLOCK) Irp->IoStatus.Information;
//
// We now need to void the cancel routine and release the spinlock
//
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
LevelIIIrps = FALSE;
//
// Iterate through all of the level II oplocks looking for a canceled one
// We do this under the protection of the oplock mutex.
//
ExAcquireFastMutex( Oplock->FastMutex );
try {
for (Links = Oplock->IrpOplocksII.Flink;
Links != &Oplock->IrpOplocksII;
Links = Links->Flink ) {
PIRP OplockIIIrp;
//
// Get a pointer to the Irp record
//
OplockIIIrp = CONTAINING_RECORD( Links, IRP, Tail.Overlay.ListEntry );
DebugTrace(0, Dbg, "FsRtlCancelOplockIIIrp, Loop top, Irp = %08lx\n", OplockIIIrp);
//
// Check if the irp has been cancelled
//
if (OplockIIIrp->Cancel) {
//
// Now we need to remove this waiter and call the
// completion routine. But we must not mess up our link
// iteration so we need to back up link one step and
// then the next iteration will go to our current flink.
//
Links = Links->Blink;
FsRtlRemoveAndCompleteIrp( Links->Flink );
LevelIIIrps = TRUE;
}
}
//
// If the list is now empty, change the oplock status to
// no oplocks held.
//
if (LevelIIIrps && IsListEmpty( &Oplock->IrpOplocksII )) {
Oplock->OplockState = NoOplocksHeld;
}
} finally {
//
// No matter how we exit we release the mutex
//
ExReleaseFastMutex( Oplock->FastMutex );
DebugTrace( -1, Dbg, "FsRtlCancelOplockIIIrp: Exit\n", 0 );
}
return;
UNREFERENCED_PARAMETER( DeviceObject );
}
//
// Local support routine.
//
VOID
FsRtlCancelExclusiveIrp (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)
/*++
Routine Description:
This routine is called for either an exclusive or oplock I Irp.
Arguments:
DeviceObject - Ignored.
Irp - Supplies the Irp being cancelled. A pointer to the
Oplock structure for the Irp is stored in the information
field of the Irp's Iosb.
Return Value:
None.
--*/
{
PNONOPAQUE_OPLOCK Oplock;
DebugTrace( +1, Dbg, "FsRtlCancelExclusiveIrp: Entered\n", 0 );
Oplock = (PNONOPAQUE_OPLOCK) Irp->IoStatus.Information;
//
// We now need to void the cancel routine and release the spinlock
//
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// Grab the synchronization object for this oplock.
//
ExAcquireFastMutex( Oplock->FastMutex );
try {
//
// We look for the exclusive Irp, if present and cancelled
// we complete it.
//
if ((Oplock->IrpExclusiveOplock != NULL) &&
(Oplock->IrpExclusiveOplock->Cancel)) {
FsRtlCompleteRequest( Oplock->IrpExclusiveOplock, STATUS_CANCELLED );
Oplock->IrpExclusiveOplock = NULL;
ObDereferenceObject( Oplock->FileObject );
Oplock->FileObject = NULL;
Oplock->OplockState = NoOplocksHeld;
//
// Complete the waiting Irps.
//
while (!IsListEmpty( &Oplock->WaitingIrps )) {
PWAITING_IRP WaitingIrp;
//
// Remove the entry found and complete the Irp.
//
WaitingIrp = CONTAINING_RECORD( Oplock->WaitingIrps.Flink,
WAITING_IRP,
Links );
FsRtlRemoveAndCompleteWaitIrp( WaitingIrp );
}
}
} finally {
//
// No matter how we exit we release the mutex
//
ExReleaseFastMutex( Oplock->FastMutex );
DebugTrace( -1, Dbg, "FsRtlCancelExclusiveIrp: Exit\n", 0 );
}
return;
UNREFERENCED_PARAMETER( DeviceObject );
}
//
// Local support routine.
//
VOID
FsRtlRemoveAndCompleteWaitIrp (
IN PWAITING_IRP WaitingIrp
)
/*++
Routine Description:
This routine is called to remove and perform any neccessary cleanup
for an Irp stored on the waiting Irp list in an oplock structure.
Arguments:
WaitingIrp - This is the auxilary structure attached to the Irp
being completed.
Return Value:
None.
--*/
{
PIRP Irp;
PAGED_CODE();
DebugTrace( +1, Dbg, "FsRtlRemoveAndCompleteWaitIrp: Entered\n", 0 );
//
// Remove the Irp from the queue.
//
RemoveEntryList( &WaitingIrp->Links );
Irp = WaitingIrp->Irp;
IoAcquireCancelSpinLock( &Irp->CancelIrql );
IoSetCancelRoutine( Irp, NULL );
IoReleaseCancelSpinLock( Irp->CancelIrql );
//
// Restore the information field.
//
Irp->IoStatus.Information = WaitingIrp->Information;
Irp->IoStatus.Status = (Irp->Cancel
? STATUS_CANCELLED
: STATUS_SUCCESS);
//
// Call the completion routine in the Waiting Irp.
//
WaitingIrp->CompletionRoutine( WaitingIrp->Context, Irp );
//
// And free up pool
//
ExFreePool( WaitingIrp );
DebugTrace( -1, Dbg, "FsRtlRemoveAndCompleteWaitIrp: Exit\n", 0 );
return;
}
//
// Local support routine.
//
VOID
FsRtlNotifyCompletion (
IN PVOID Context,
IN PIRP Irp
)
/*++
Routine Description:
This is the completion routine called when a break notify Irp is to
be completed. We simply call FsRtlComplete request to dispose of the
Irp.
Arguments:
Context - Ignored.
Irp - Irp used to request break notify.
Return Value:
None.
--*/
{
PAGED_CODE();
UNREFERENCED_PARAMETER (Context);
DebugTrace( +1, Dbg, "FsRtlNotifyCompletion: Entered\n", 0 );
//
// Call FsRtlCompleteRequest using the value in the Irp.
//
FsRtlCompleteRequest( Irp, Irp->IoStatus.Status );
DebugTrace( -1, Dbg, "FsRtlNotifyCompletion: Exit\n", 0 );
return;
}
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