Windows驱动开发入门-sfilter源代码

sfilter这玩意儿因为过时了,微软官方WDK已经不再包含sfilter的实例源码模板了,所以这里放出。

sfilter.c

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/*++

Copyright (c) 1989-1993 Microsoft Corporation

Module Name:

sfilter.c

Abstract:

This module contains the code that implements the general purpose sample
file system filter driver.

As of the Windows XP SP1 IFS Kit version of this sample and later, this
sample can be built for each build environment released with the IFS Kit
with no additional modifications. To provide this capability, additional
compile-time logic was added -- see the '#if WINVER' locations. Comments
tagged with the 'VERSION NOTE' header have also been added as appropriate to
describe how the logic must change between versions.

If this sample is built in the Windows XP environment or later, it will run
on Windows 2000 or later. This is done by dynamically loading the routines
that are only available on Windows XP or later and making run-time decisions
to determine what code to execute. Comments tagged with 'MULTIVERISON NOTE'
mark the locations where such logic has been added.

Environment:

Kernel mode

--*/

#include "ntifs.h"
#include "ntdddisk.h"
#include "wdmsec.h"
#include "sfilter.h"

//
// Enable these warnings in the code.
//

#pragma warning(error:4100) // Unreferenced formal parameter
#pragma warning(error:4101) // Unreferenced local variable

/////////////////////////////////////////////////////////////////////////////
//
// Macro and Structure Definitions
//
/////////////////////////////////////////////////////////////////////////////

//
// VERSION NOTE:
//
// The following useful macros are defined in NTIFS.H in Windows XP and later.
// We will define them locally if we are building for the Windows 2000
// environment.
//

#if WINVER == 0x0500

//
// These macros are used to test, set and clear flags respectively
//

#ifndef FlagOn
#define FlagOn(_F,_SF) ((_F) & (_SF))
#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


#define RtlInitEmptyUnicodeString(_ucStr,_buf,_bufSize) \
((_ucStr)->Buffer = (_buf), \
(_ucStr)->Length = 0, \
(_ucStr)->MaximumLength = (USHORT)(_bufSize))


#ifndef min
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif

#ifndef max
#define max(a,b) (((a) > (b)) ? (a) : (b))
#endif

//
// We want ASSERT defined as an expression, which was fixed after Windows 2000
//

#ifdef ASSERT
#undef ASSERT
#if DBG
#define ASSERT( exp ) \
((!(exp)) ? \
(RtlAssert( #exp, __FILE__, __LINE__, NULL ),FALSE) : \
TRUE)
#else
#define ASSERT( exp ) ((void) 0)
#endif
#endif

#define ExFreePoolWithTag( a, b ) ExFreePool( (a) )

#endif /* WINVER == 0x0500 */

#ifndef Add2Ptr
#define Add2Ptr(P,I) ((PVOID)((PUCHAR)(P) + (I)))
#endif

//
// Buffer size for local names on the stack
//

#define MAX_DEVNAME_LENGTH 64

//
// Device extension definition for our driver. Note that the same extension
// is used for the following types of device objects:
// - File system device object we attach to
// - Mounted volume device objects we attach to
//

typedef struct _SFILTER_DEVICE_EXTENSION {

ULONG TypeFlag;

//
// Pointer to the file system device object we are attached to
//

PDEVICE_OBJECT AttachedToDeviceObject;

//
// Pointer to the real (disk) device object that is associated with
// the file system device object we are attached to
//

PDEVICE_OBJECT StorageStackDeviceObject;

//
// Name for this device. If attached to a Volume Device Object it is the
// name of the physical disk drive. If attached to a Control Device
// Object it is the name of the Control Device Object.
//

UNICODE_STRING DeviceName;

//
// Buffer used to hold the above unicode strings
//

WCHAR DeviceNameBuffer[MAX_DEVNAME_LENGTH];

//
// The extension used by other user.
//

UCHAR UserExtension[1];

} SFILTER_DEVICE_EXTENSION, *PSFILTER_DEVICE_EXTENSION;

//
// This structure contains the information we need to pass to the completion
// processing for FSCTRLs.
//

typedef struct _FSCTRL_COMPLETION_CONTEXT {

//
// The workitem that will be initialized with our context and
// worker routine if this completion processing needs to be completed
// in a worker thread.
//

WORK_QUEUE_ITEM WorkItem;

//
// The device object to which this device is currently directed.
//

PDEVICE_OBJECT DeviceObject;

//
// The IRP for this FSCTRL operation.
//

PIRP Irp;

//
// For mount operations, the new device object that we have allocated
// and partially initialized that we will attach to the mounted volume
// if the mount is successful.
//

PDEVICE_OBJECT NewDeviceObject;

} FSCTRL_COMPLETION_CONTEXT, *PFSCTRL_COMPLETION_CONTEXT;


//
// Macro to test if this is my device object
//

#define IS_MY_DEVICE_OBJECT(_devObj) \
(((_devObj) != NULL) && \
((_devObj)->DriverObject == gSFilterDriverObject) && \
((_devObj)->DeviceExtension != NULL) && \
((*(ULONG *)(_devObj)->DeviceExtension) == SFLT_POOL_TAG))

//
// Macro to test if this is my control device object
//

#define IS_MY_CONTROL_DEVICE_OBJECT(_devObj) \
(((_devObj) == gSFilterControlDeviceObject) ? \
(ASSERT(((_devObj)->DriverObject == gSFilterDriverObject) && \
((_devObj)->DeviceExtension == NULL)), TRUE) : \
FALSE)

//
// Macro to test for device types we want to attach to
//

#define IS_DESIRED_DEVICE_TYPE(_type) \
(((_type) == FILE_DEVICE_DISK_FILE_SYSTEM) || \
((_type) == FILE_DEVICE_CD_ROM_FILE_SYSTEM) || \
((_type) == FILE_DEVICE_NETWORK_FILE_SYSTEM))

//
// Macro to test if FAST_IO_DISPATCH handling routine is valid
//

#define VALID_FAST_IO_DISPATCH_HANDLER(_FastIoDispatchPtr, _FieldName) \
(((_FastIoDispatchPtr) != NULL) && \
(((_FastIoDispatchPtr)->SizeOfFastIoDispatch) >= \
(FIELD_OFFSET(FAST_IO_DISPATCH, _FieldName) + sizeof(void *))) && \
((_FastIoDispatchPtr)->_FieldName != NULL))


#if WINVER >= 0x0501
//
// MULTIVERSION NOTE:
//
// If built in the Windows XP environment or later, we will dynamically import
// the function pointers for routines that were not supported on Windows 2000
// so that we can build a driver that will run, with modified logic, on
// Windows 2000 or later.
//
// Below are the prototypes for the function pointers that we need to
// dynamically import because not all OS versions support these routines.
//

typedef
NTSTATUS
(*PSF_REGISTER_FILE_SYSTEM_FILTER_CALLBACKS) (
IN PDRIVER_OBJECT DriverObject,
IN PFS_FILTER_CALLBACKS Callbacks
);

typedef
NTSTATUS
(*PSF_ENUMERATE_DEVICE_OBJECT_LIST) (
IN PDRIVER_OBJECT DriverObject,
IN PDEVICE_OBJECT *DeviceObjectList,
IN ULONG DeviceObjectListSize,
OUT PULONG ActualNumberDeviceObjects
);

typedef
NTSTATUS
(*PSF_ATTACH_DEVICE_TO_DEVICE_STACK_SAFE) (
IN PDEVICE_OBJECT SourceDevice,
IN PDEVICE_OBJECT TargetDevice,
OUT PDEVICE_OBJECT *AttachedToDeviceObject
);

typedef
PDEVICE_OBJECT
(*PSF_GET_LOWER_DEVICE_OBJECT) (
IN PDEVICE_OBJECT DeviceObject
);

typedef
PDEVICE_OBJECT
(*PSF_GET_DEVICE_ATTACHMENT_BASE_REF) (
IN PDEVICE_OBJECT DeviceObject
);

typedef
NTSTATUS
(*PSF_GET_DISK_DEVICE_OBJECT) (
IN PDEVICE_OBJECT FileSystemDeviceObject,
OUT PDEVICE_OBJECT *DiskDeviceObject
);

typedef
PDEVICE_OBJECT
(*PSF_GET_ATTACHED_DEVICE_REFERENCE) (
IN PDEVICE_OBJECT DeviceObject
);

typedef
NTSTATUS
(*PSF_GET_VERSION) (
IN OUT PRTL_OSVERSIONINFOW VersionInformation
);

typedef struct _SF_DYNAMIC_FUNCTION_POINTERS {

//
// The following routines should all be available on Windows XP (5.1) and
// later.
//

PSF_REGISTER_FILE_SYSTEM_FILTER_CALLBACKS RegisterFileSystemFilterCallbacks;
PSF_ATTACH_DEVICE_TO_DEVICE_STACK_SAFE AttachDeviceToDeviceStackSafe;
PSF_ENUMERATE_DEVICE_OBJECT_LIST EnumerateDeviceObjectList;
PSF_GET_LOWER_DEVICE_OBJECT GetLowerDeviceObject;
PSF_GET_DEVICE_ATTACHMENT_BASE_REF GetDeviceAttachmentBaseRef;
PSF_GET_DISK_DEVICE_OBJECT GetDiskDeviceObject;
PSF_GET_ATTACHED_DEVICE_REFERENCE GetAttachedDeviceReference;
PSF_GET_VERSION GetVersion;

} SF_DYNAMIC_FUNCTION_POINTERS, *PSF_DYNAMIC_FUNCTION_POINTERS;

SF_DYNAMIC_FUNCTION_POINTERS gSfDynamicFunctions = {0};

//
// MULTIVERSION NOTE: For this version of the driver, we need to know the
// current OS version while we are running to make decisions regarding what
// logic to use when the logic cannot be the same for all platforms. We
// will look up the OS version in DriverEntry and store the values
// in these global variables.
//

ULONG gSfOsMajorVersion = 0;
ULONG gSfOsMinorVersion = 0;

//
// Here is what the major and minor versions should be for the various OS versions:
//
// OS Name MajorVersion MinorVersion
// ---------------------------------------------------------------------
// Windows 2000 5 0
// Windows XP 5 1
// Windows Server 2003 5 2
//

#define IS_WINDOWS2000() \
((gSfOsMajorVersion == 5) && (gSfOsMinorVersion == 0))

#define IS_WINDOWSXP() \
((gSfOsMajorVersion == 5) && (gSfOsMinorVersion == 1))

#define IS_WINDOWSXP_OR_LATER() \
(((gSfOsMajorVersion == 5) && (gSfOsMinorVersion >= 1)) || \
(gSfOsMajorVersion > 5))

#define IS_WINDOWSSRV2003_OR_LATER() \
(((gSfOsMajorVersion == 5) && (gSfOsMinorVersion >= 2)) || \
(gSfOsMajorVersion > 5))

#endif


//
// TAG identifying memory SFilter allocates
//

#define SFLT_POOL_TAG 'tlFS'

//
// This structure and these routines are used to retrieve the name of a file
// object. To prevent allocating memory every time we get a name this
// structure contains a small buffer (which should handle 90+% of all names).
// If we do overflow this buffer we will allocate a buffer big enough
// for the name.
//

typedef struct _GET_NAME_CONTROL {

PCHAR allocatedBuffer;
CHAR smallBuffer[256];

} GET_NAME_CONTROL, *PGET_NAME_CONTROL;


PUNICODE_STRING
SfGetFileName(
IN PFILE_OBJECT FileObject,
IN NTSTATUS CreateStatus,
IN OUT PGET_NAME_CONTROL NameControl
);


VOID
SfGetFileNameCleanup(
IN OUT PGET_NAME_CONTROL NameControl
);


//
// Macros for SFilter DbgPrint levels.
//

#define SF_LOG_PRINT( _dbgLevel, _string ) \
(FlagOn(SfDebug,(_dbgLevel)) ? \
DbgPrint _string : \
((void)0))

//
// Delay values for KeDelayExecutionThread()
// (Values are negative to represent relative time)
//

#define DELAY_ONE_MICROSECOND (-10)
#define DELAY_ONE_MILLISECOND (DELAY_ONE_MICROSECOND*1000)
#define DELAY_ONE_SECOND (DELAY_ONE_MILLISECOND*1000)


/////////////////////////////////////////////////////////////////////////////
//
// Global variables
//
/////////////////////////////////////////////////////////////////////////////

//
// Holds pointer to the driver object for this driver
//

PDRIVER_OBJECT gSFilterDriverObject = NULL;

//
// Holds pointer to the device object that represents this driver and is used
// by external programs to access this driver. This is also known as the
// "control device object".
//

PDEVICE_OBJECT gSFilterControlDeviceObject = NULL;

//
// This lock is used to synchronize our attaching to a given device object.
// This lock fixes a race condition where we could accidently attach to the
// same device object more then once. This race condition only occurs if
// a volume is being mounted at the same time as this filter is being loaded.
// This problem will never occur if this filter is loaded at boot time before
// any file systems are loaded.
//
// This lock is used to atomically test if we are already attached to a given
// device object and if not, do the attach.
//

FAST_MUTEX gSfilterAttachLock;

/////////////////////////////////////////////////////////////////////////////
//
// Debug Definitions
//
/////////////////////////////////////////////////////////////////////////////

//
// DEBUG display flags
//

#define SFDEBUG_DISPLAY_ATTACHMENT_NAMES 0x00000001 //display names of device objects we attach to
#define SFDEBUG_DISPLAY_CREATE_NAMES 0x00000002 //get and display names during create
#define SFDEBUG_GET_CREATE_NAMES 0x00000004 //get name (don't display) during create
#define SFDEBUG_DO_CREATE_COMPLETION 0x00000008 //do create completion routine, don't get names
#define SFDEBUG_ATTACH_TO_FSRECOGNIZER 0x00000010 //do attach to FSRecognizer device objects
#define SFDEBUG_ATTACH_TO_SHADOW_COPIES 0x00000020 //do attach to ShadowCopy Volume device objects -- they are only around on Windows XP and later

ULONG SfDebug = 0;


//
// Given a device type, return a valid name
//

#define GET_DEVICE_TYPE_NAME( _type ) \
((((_type) > 0) && ((_type) < (sizeof(DeviceTypeNames) / sizeof(PCHAR)))) ? \
DeviceTypeNames[ (_type) ] : \
"[Unknown]")

//
// Known device type names
//

static const PCHAR DeviceTypeNames[] = {
"",
"BEEP",
"CD_ROM",
"CD_ROM_FILE_SYSTEM",
"CONTROLLER",
"DATALINK",
"DFS",
"DISK",
"DISK_FILE_SYSTEM",
"FILE_SYSTEM",
"INPORT_PORT",
"KEYBOARD",
"MAILSLOT",
"MIDI_IN",
"MIDI_OUT",
"MOUSE",
"MULTI_UNC_PROVIDER",
"NAMED_PIPE",
"NETWORK",
"NETWORK_BROWSER",
"NETWORK_FILE_SYSTEM",
"NULL",
"PARALLEL_PORT",
"PHYSICAL_NETCARD",
"PRINTER",
"SCANNER",
"SERIAL_MOUSE_PORT",
"SERIAL_PORT",
"SCREEN",
"SOUND",
"STREAMS",
"TAPE",
"TAPE_FILE_SYSTEM",
"TRANSPORT",
"UNKNOWN",
"VIDEO",
"VIRTUAL_DISK",
"WAVE_IN",
"WAVE_OUT",
"8042_PORT",
"NETWORK_REDIRECTOR",
"BATTERY",
"BUS_EXTENDER",
"MODEM",
"VDM",
"MASS_STORAGE",
"SMB",
"KS",
"CHANGER",
"SMARTCARD",
"ACPI",
"DVD",
"FULLSCREEN_VIDEO",
"DFS_FILE_SYSTEM",
"DFS_VOLUME",
"SERENUM",
"TERMSRV",
"KSEC"
};


/////////////////////////////////////////////////////////////////////////////
//
// Function Prototypes
//
/////////////////////////////////////////////////////////////////////////////

//
// Define driver entry routine.
//

NTSTATUS
DriverEntry(
IN PDRIVER_OBJECT DriverObject,
IN PUNICODE_STRING RegistryPath
);

#if WINVER >= 0x0501
VOID
DriverUnload(
IN PDRIVER_OBJECT DriverObject
);
#endif

//
// Define the local routines used by this driver module. This includes a
// a sample of how to filter a create file operation, and then invoke an I/O
// completion routine when the file has successfully been created/opened.
//

#if WINVER >= 0x0501
VOID
SfLoadDynamicFunctions (
);

VOID
SfGetCurrentVersion (
);
#endif

NTSTATUS
SfPassThrough(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

NTSTATUS
SfCreate(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

NTSTATUS
SfCreateCompletion(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context
);

NTSTATUS
SfCleanupClose(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

NTSTATUS
SfFsControl(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

NTSTATUS
SfFsControlMountVolume (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

VOID
SfFsControlMountVolumeCompleteWorker (
IN PFSCTRL_COMPLETION_CONTEXT Context
);

NTSTATUS
SfFsControlMountVolumeComplete (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PDEVICE_OBJECT NewDeviceObject
);

NTSTATUS
SfFsControlLoadFileSystem (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

VOID
SfFsControlLoadFileSystemCompleteWorker (
IN PFSCTRL_COMPLETION_CONTEXT Context
);

NTSTATUS
SfFsControlLoadFileSystemComplete (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
);

NTSTATUS
SfFsControlCompletion(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context
);

BOOLEAN
SfFastIoCheckIfPossible(
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
SfFastIoRead(
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
SfFastIoWrite(
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
SfFastIoQueryBasicInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_BASIC_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoQueryStandardInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_STANDARD_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoLock(
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
SfFastIoUnlockSingle(
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
SfFastIoUnlockAll(
IN PFILE_OBJECT FileObject,
PEPROCESS ProcessId,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoUnlockAllByKey(
IN PFILE_OBJECT FileObject,
PVOID ProcessId,
ULONG Key,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoDeviceControl(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
IN PVOID InputBuffer OPTIONAL,
IN ULONG InputBufferLength,
OUT PVOID OutputBuffer OPTIONAL,
IN ULONG OutputBufferLength,
IN ULONG IoControlCode,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

VOID
SfFastIoDetachDevice(
IN PDEVICE_OBJECT SourceDevice,
IN PDEVICE_OBJECT TargetDevice
);

BOOLEAN
SfFastIoQueryNetworkOpenInfo(
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_NETWORK_OPEN_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoMdlRead(
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
SfFastIoMdlReadComplete(
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoPrepareMdlWrite(
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
SfFastIoMdlWriteComplete(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoReadCompressed(
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 struct _COMPRESSED_DATA_INFO *CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoWriteCompressed(
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 struct _COMPRESSED_DATA_INFO *CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoMdlReadCompleteCompressed(
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoMdlWriteCompleteCompressed(
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
);

BOOLEAN
SfFastIoQueryOpen(
IN PIRP Irp,
OUT PFILE_NETWORK_OPEN_INFORMATION NetworkInformation,
IN PDEVICE_OBJECT DeviceObject
);

#if WINVER >= 0x0501 /* See comment in DriverEntry */
NTSTATUS
SfPreFsFilterPassThrough (
IN PFS_FILTER_CALLBACK_DATA Data,
OUT PVOID *CompletionContext
);

VOID
SfPostFsFilterPassThrough (
IN PFS_FILTER_CALLBACK_DATA Data,
IN NTSTATUS OperationStatus,
IN PVOID CompletionContext
);
#endif

VOID
SfFsNotification(
IN PDEVICE_OBJECT DeviceObject,
IN BOOLEAN FsActive
);

NTSTATUS
SfAttachDeviceToDeviceStack (
IN PDEVICE_OBJECT SourceDevice,
IN PDEVICE_OBJECT TargetDevice,
IN OUT PDEVICE_OBJECT *AttachedToDeviceObject
);

NTSTATUS
SfAttachToFileSystemDevice(
IN PDEVICE_OBJECT DeviceObject,
IN PUNICODE_STRING DeviceName
);

VOID
SfDetachFromFileSystemDevice (
IN PDEVICE_OBJECT DeviceObject
);

NTSTATUS
SfAttachToMountedDevice (
IN PDEVICE_OBJECT DeviceObject,
IN PDEVICE_OBJECT SFilterDeviceObject
);

VOID
SfCleanupMountedDevice(
IN PDEVICE_OBJECT DeviceObject
);

#if WINVER >= 0x0501
NTSTATUS
SfEnumerateFileSystemVolumes(
IN PDEVICE_OBJECT FSDeviceObject,
IN PUNICODE_STRING FSName
);
#endif

VOID
SfGetObjectName(
IN PVOID Object,
IN OUT PUNICODE_STRING Name
);

VOID
SfGetBaseDeviceObjectName(
IN PDEVICE_OBJECT DeviceObject,
IN OUT PUNICODE_STRING DeviceName
);

BOOLEAN
SfIsAttachedToDevice(
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
);

BOOLEAN
SfIsAttachedToDeviceW2K(
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
);

BOOLEAN
SfIsAttachedToDeviceWXPAndLater(
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
);

VOID
SfReadDriverParameters(
IN PUNICODE_STRING RegistryPath
);

NTSTATUS
SfIsShadowCopyVolume (
IN PDEVICE_OBJECT StorageStackDeviceObject,
OUT PBOOLEAN IsShadowCopy
);

/////////////////////////////////////////////////////////////////////////////
//
// Assign text sections for each routine.
//
/////////////////////////////////////////////////////////////////////////////

#ifdef ALLOC_PRAGMA
#pragma alloc_text(INIT, DriverEntry)

#if DBG && WINVER >= 0x0501
#pragma alloc_text(PAGE, DriverUnload)
#endif

#pragma alloc_text(PAGE, SfFsNotification)
#pragma alloc_text(PAGE, SfCreate)
#pragma alloc_text(PAGE, SfCleanupClose)
#pragma alloc_text(PAGE, SfFsControl)
#pragma alloc_text(PAGE, SfFsControlMountVolume)
#pragma alloc_text(PAGE, SfFsControlMountVolumeComplete)
#pragma alloc_text(PAGE, SfFsControlLoadFileSystem)
#pragma alloc_text(PAGE, SfFsControlLoadFileSystemComplete)
#pragma alloc_text(PAGE, SfFastIoCheckIfPossible)
#pragma alloc_text(PAGE, SfFastIoRead)
#pragma alloc_text(PAGE, SfFastIoWrite)
#pragma alloc_text(PAGE, SfFastIoQueryBasicInfo)
#pragma alloc_text(PAGE, SfFastIoQueryStandardInfo)
#pragma alloc_text(PAGE, SfFastIoLock)
#pragma alloc_text(PAGE, SfFastIoUnlockSingle)
#pragma alloc_text(PAGE, SfFastIoUnlockAll)
#pragma alloc_text(PAGE, SfFastIoUnlockAllByKey)
#pragma alloc_text(PAGE, SfFastIoDeviceControl)
#pragma alloc_text(PAGE, SfFastIoDetachDevice)
#pragma alloc_text(PAGE, SfFastIoQueryNetworkOpenInfo)
#pragma alloc_text(PAGE, SfFastIoMdlRead)
#pragma alloc_text(PAGE, SfFastIoPrepareMdlWrite)
#pragma alloc_text(PAGE, SfFastIoMdlWriteComplete)
#pragma alloc_text(PAGE, SfFastIoReadCompressed)
#pragma alloc_text(PAGE, SfFastIoWriteCompressed)
#pragma alloc_text(PAGE, SfFastIoQueryOpen)
#pragma alloc_text(PAGE, SfAttachDeviceToDeviceStack)
#pragma alloc_text(PAGE, SfAttachToFileSystemDevice)
#pragma alloc_text(PAGE, SfDetachFromFileSystemDevice)
#pragma alloc_text(PAGE, SfAttachToMountedDevice)
#pragma alloc_text(PAGE, SfIsAttachedToDevice)
#pragma alloc_text(PAGE, SfIsAttachedToDeviceW2K)
#pragma alloc_text(INIT, SfReadDriverParameters)
#pragma alloc_text(PAGE, SfIsShadowCopyVolume)

#if WINVER >= 0x0501
#pragma alloc_text(INIT, SfLoadDynamicFunctions)
#pragma alloc_text(INIT, SfGetCurrentVersion)
#pragma alloc_text(PAGE, SfEnumerateFileSystemVolumes)
#pragma alloc_text(PAGE, SfIsAttachedToDeviceWXPAndLater)
#endif

#endif


/////////////////////////////////////////////////////////////////////////////
//
// Functions
//
/////////////////////////////////////////////////////////////////////////////

#define MY_DEV_MAX_PATH 128 // Add by Tan Wen.
#define MY_DEV_MAX_NAME 128 // Add by Tan Wen.

static ULONG gUserExtensionSize = 0;

static BOOLEAN g_cdo_for_all_users = FALSE;

void sfilterSetCdoAccessForAll()
{
g_cdo_for_all_users = TRUE;
}

const GUID DECLSPEC_SELECTANY SFGUID_CLASS_MYCDO =
{0x26e0d1e0L, 0x8189, 0x12e0, {0x99,0x14, 0x08, 0x00, 0x22, 0x30, 0x19, 0x03}};

NTSTATUS
DriverEntry (
IN PDRIVER_OBJECT DriverObject,
IN PUNICODE_STRING RegistryPath
)

/*++

Routine Description:

This is the initialization routine for the SFILTER file system filter
driver. This routine creates the device object that represents this
driver in the system and registers it for watching all file systems that
register or unregister themselves as active file systems.

Arguments:

DriverObject - Pointer to driver object created by the system.

Return Value:

The function value is the final status from the initialization operation.

--*/

{
PFAST_IO_DISPATCH fastIoDispatch;
UNICODE_STRING nameString;
// Add by Tan Wen. {
UNICODE_STRING path2K;
UNICODE_STRING pathXP;
WCHAR nameBuffer[MY_DEV_MAX_PATH] = { 0 };
UNICODE_STRING userNameString;
WCHAR userNameBuffer[MY_DEV_MAX_NAME] = { 0 };
UNICODE_STRING syblnkString;
WCHAR syblnkBuffer[MY_DEV_MAX_NAME] = { 0 };

UNICODE_STRING dosDevicePrefix;
UNICODE_STRING dosDevice;
WCHAR dosDeviceBuffer[MY_DEV_MAX_NAME] = { 0 };
// }

NTSTATUS status;
ULONG i;

#if DBG
// _asm int 3;
#endif

#if WINVER >= 0x0501
//
// Try to load the dynamic functions that may be available for our use.
//

SfLoadDynamicFunctions();

//
// Now get the current OS version that we will use to determine what logic
// paths to take when this driver is built to run on various OS version.
//

SfGetCurrentVersion();
#endif

//
// Get Registry values
//

SfReadDriverParameters( RegistryPath );

//
// Save our Driver Object, set our UNLOAD routine
//

gSFilterDriverObject = DriverObject;

#if WINVER >= 0x0501

//
// MULTIVERSION NOTE:
//
// We can only support unload for testing environments if we can enumerate
// the outstanding device objects that our driver has.
//

//
// Unload is useful for development purposes. It is not recommended for
// production versions
//

if (NULL != gSfDynamicFunctions.EnumerateDeviceObjectList) {

gSFilterDriverObject->DriverUnload = DriverUnload;
}
#endif

//
// Setup other global variables
//

ExInitializeFastMutex( &gSfilterAttachLock );

//
// Add {
RtlInitEmptyUnicodeString(&nameString,nameBuffer,MY_DEV_MAX_PATH);
RtlInitEmptyUnicodeString(&userNameString,userNameBuffer,MY_DEV_MAX_NAME);
RtlInitEmptyUnicodeString(&syblnkString,syblnkBuffer,MY_DEV_MAX_NAME);
RtlInitUnicodeString(&pathXP,L"\\FileSystem\\Filters\\");
RtlInitUnicodeString(&path2K,L"\\FileSystem\\");

//
// Modified by devia at 2007-09-13
// 先前版本组符号连接名错误
// {
RtlInitUnicodeString( &dosDevicePrefix, L"\\DosDevices\\" );
RtlInitEmptyUnicodeString( &dosDevice, dosDeviceBuffer, MY_DEV_MAX_NAME );
RtlCopyUnicodeString( &dosDevice, &dosDevicePrefix );
// }

status = OnSfilterDriverEntry(DriverObject,RegistryPath,&userNameString,&syblnkString,&gUserExtensionSize);
if(!NT_SUCCESS(status))
{
return status;
}
RtlCopyUnicodeString(&nameString,&pathXP);
RtlAppendUnicodeStringToString(&nameString,&userNameString);
// } by Tan Wen.
//

//
// Create the Control Device Object (CDO). This object represents this
// driver. Note that it does not have a device extension.
//

// Delete by Tan Wen.
// RtlInitUnicodeString( &nameString, L"\\FileSystem\\Filters\\SFilter" );

// 这是生成控制设备。
if(g_cdo_for_all_users)
{
status = IoCreateDevice( DriverObject,
0, //has no device extension
&nameString,
FILE_DEVICE_UNKNOWN,
FILE_DEVICE_SECURE_OPEN,
FALSE,
&gSFilterControlDeviceObject );
}
else
{
// 以下生成一个可以被任何用户打开读写的设备。但是这个guid是我手写固定的。
// 不清楚如果在有多个基于本sfilter模块的驱动同时安装的时候,会不会导致出现
// guid重复的问题。
UNICODE_STRING sddlString;
RtlInitUnicodeString( &sddlString, L"D:P(A;;GA;;;WD)");
status = IoCreateDeviceSecure( DriverObject,
0,
&nameString,
FILE_DEVICE_UNKNOWN,
FILE_DEVICE_SECURE_OPEN,
FALSE,
&sddlString,
(LPCGUID)&SFGUID_CLASS_MYCDO,
&gSFilterControlDeviceObject);
}


if (status == STATUS_OBJECT_PATH_NOT_FOUND) {


RtlInitEmptyUnicodeString(&nameString,nameBuffer,MY_DEV_MAX_PATH);
RtlCopyUnicodeString(&nameString,&path2K);
RtlAppendUnicodeStringToString(&nameString,&userNameString);

// 这是再次生成控制设备。
if(g_cdo_for_all_users)
{
status = IoCreateDevice( DriverObject,
0, //has no device extension
&nameString,
FILE_DEVICE_UNKNOWN,
FILE_DEVICE_SECURE_OPEN,
FALSE,
&gSFilterControlDeviceObject );
}
else
{
// 以下生成一个可以被任何用户打开读写的设备。但是这个guid是我手写固定的。
// 不清楚如果在有多个基于本sfilter模块的驱动同时安装的时候,会不会导致出现
// guid重复的问题。
UNICODE_STRING sddlString;
RtlInitUnicodeString( &sddlString, L"D:P(A;;GA;;;WD)");
status = IoCreateDeviceSecure( DriverObject,
0,
&nameString,
FILE_DEVICE_UNKNOWN,
FILE_DEVICE_SECURE_OPEN,
FALSE,
&sddlString,
(LPCGUID)&SFGUID_CLASS_MYCDO,
&gSFilterControlDeviceObject);
}

if (!NT_SUCCESS( status )) {
KdPrint(( "SFilter!DriverEntry: Error creating control device object \"%wZ\", status=%08x\n", &nameString, status ));
return status;
}

} else if (!NT_SUCCESS( status )) {

KdPrint(( "SFilter!DriverEntry: Error creating control device object \"%wZ\", status=%08x\n", &nameString, status ));
return status;
}

//
// Add by Tan Wen. {

//
// Modified by devia at 2007-09-13
// 先前版本组符号连接名错误
// {
RtlAppendUnicodeStringToString( &dosDevice, &syblnkString );
IoDeleteSymbolicLink( &dosDevice );
status = IoCreateSymbolicLink( &dosDevice, &nameString );
// }
if (!NT_SUCCESS( status ))
{
KdPrint(( "SFilter!DriverEntry: Error creating syblnk object \"%wZ\", status=%08x\n", &syblnkString, status ));
IoDeleteDevice(DriverObject->DeviceObject);
return status;
}
// }
//

//
// Initialize the driver object with this device driver's entry points.
//

for (i = 0; i <= IRP_MJ_MAXIMUM_FUNCTION; i++) {

DriverObject->MajorFunction[i] = SfPassThrough;

}

//
// We will use SfCreate for all the create operations
//

DriverObject->MajorFunction[IRP_MJ_CREATE] = SfCreate;
DriverObject->MajorFunction[IRP_MJ_CREATE_NAMED_PIPE] = SfCreate;
DriverObject->MajorFunction[IRP_MJ_CREATE_MAILSLOT] = SfCreate;

DriverObject->MajorFunction[IRP_MJ_FILE_SYSTEM_CONTROL] = SfFsControl;
DriverObject->MajorFunction[IRP_MJ_CLEANUP] = SfCleanupClose;
DriverObject->MajorFunction[IRP_MJ_CLOSE] = SfCleanupClose;

//
// Allocate fast I/O data structure and fill it in.
//
// NOTE: The following FastIo Routines are not supported:
// AcquireFileForNtCreateSection
// ReleaseFileForNtCreateSection
// AcquireForModWrite
// ReleaseForModWrite
// AcquireForCcFlush
// ReleaseForCcFlush
//
// For historical reasons these FastIO's have never been sent to filters
// by the NT I/O system. Instead, they are sent directly to the base
// file system. On Windows XP and later OS releases, you can use the new
// system routine "FsRtlRegisterFileSystemFilterCallbacks" if you need to
// intercept these callbacks (see below).
//

fastIoDispatch = ExAllocatePoolWithTag( NonPagedPool, sizeof( FAST_IO_DISPATCH ), SFLT_POOL_TAG );
if (!fastIoDispatch) {

IoDeleteDevice( gSFilterControlDeviceObject );
return STATUS_INSUFFICIENT_RESOURCES;
}

RtlZeroMemory( fastIoDispatch, sizeof( FAST_IO_DISPATCH ) );

fastIoDispatch->SizeOfFastIoDispatch = sizeof( FAST_IO_DISPATCH );
fastIoDispatch->FastIoCheckIfPossible = SfFastIoCheckIfPossible;
fastIoDispatch->FastIoRead = SfFastIoRead;
fastIoDispatch->FastIoWrite = SfFastIoWrite;
fastIoDispatch->FastIoQueryBasicInfo = SfFastIoQueryBasicInfo;
fastIoDispatch->FastIoQueryStandardInfo = SfFastIoQueryStandardInfo;
fastIoDispatch->FastIoLock = SfFastIoLock;
fastIoDispatch->FastIoUnlockSingle = SfFastIoUnlockSingle;
fastIoDispatch->FastIoUnlockAll = SfFastIoUnlockAll;
fastIoDispatch->FastIoUnlockAllByKey = SfFastIoUnlockAllByKey;
fastIoDispatch->FastIoDeviceControl = SfFastIoDeviceControl;
fastIoDispatch->FastIoDetachDevice = SfFastIoDetachDevice;
fastIoDispatch->FastIoQueryNetworkOpenInfo = SfFastIoQueryNetworkOpenInfo;
fastIoDispatch->MdlRead = SfFastIoMdlRead;
fastIoDispatch->MdlReadComplete = SfFastIoMdlReadComplete;
fastIoDispatch->PrepareMdlWrite = SfFastIoPrepareMdlWrite;
fastIoDispatch->MdlWriteComplete = SfFastIoMdlWriteComplete;
fastIoDispatch->FastIoReadCompressed = SfFastIoReadCompressed;
fastIoDispatch->FastIoWriteCompressed = SfFastIoWriteCompressed;
fastIoDispatch->MdlReadCompleteCompressed = SfFastIoMdlReadCompleteCompressed;
fastIoDispatch->MdlWriteCompleteCompressed = SfFastIoMdlWriteCompleteCompressed;
fastIoDispatch->FastIoQueryOpen = SfFastIoQueryOpen;

DriverObject->FastIoDispatch = fastIoDispatch;

//
// VERSION NOTE:
//
// There are 6 FastIO routines for which file system filters are bypassed as
// the requests are passed directly to the base file system. These 6 routines
// are AcquireFileForNtCreateSection, ReleaseFileForNtCreateSection,
// AcquireForModWrite, ReleaseForModWrite, AcquireForCcFlush, and
// ReleaseForCcFlush.
//
// In Windows XP and later, the FsFilter callbacks were introduced to allow
// filters to safely hook these operations. See the IFS Kit documentation for
// more details on how these new interfaces work.
//
// MULTIVERSION NOTE:
//
// If built for Windows XP or later, this driver is built to run on
// multiple versions. When this is the case, we will test
// for the presence of FsFilter callbacks registration API. If we have it,
// then we will register for those callbacks, otherwise, we will not.
//

#if WINVER >= 0x0501

{
FS_FILTER_CALLBACKS fsFilterCallbacks;

if (NULL != gSfDynamicFunctions.RegisterFileSystemFilterCallbacks) {

//
// Setup the callbacks for the operations we receive through
// the FsFilter interface.
//
// NOTE: You only need to register for those routines you really need
// to handle. SFilter is registering for all routines simply to
// give an example of how it is done.
//

fsFilterCallbacks.SizeOfFsFilterCallbacks = sizeof( FS_FILTER_CALLBACKS );
fsFilterCallbacks.PreAcquireForSectionSynchronization = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostAcquireForSectionSynchronization = SfPostFsFilterPassThrough;
fsFilterCallbacks.PreReleaseForSectionSynchronization = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostReleaseForSectionSynchronization = SfPostFsFilterPassThrough;
fsFilterCallbacks.PreAcquireForCcFlush = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostAcquireForCcFlush = SfPostFsFilterPassThrough;
fsFilterCallbacks.PreReleaseForCcFlush = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostReleaseForCcFlush = SfPostFsFilterPassThrough;
fsFilterCallbacks.PreAcquireForModifiedPageWriter = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostAcquireForModifiedPageWriter = SfPostFsFilterPassThrough;
fsFilterCallbacks.PreReleaseForModifiedPageWriter = SfPreFsFilterPassThrough;
fsFilterCallbacks.PostReleaseForModifiedPageWriter = SfPostFsFilterPassThrough;

status = (gSfDynamicFunctions.RegisterFileSystemFilterCallbacks)( DriverObject,
&fsFilterCallbacks );

if (!NT_SUCCESS( status )) {

DriverObject->FastIoDispatch = NULL;
ExFreePool( fastIoDispatch );
IoDeleteDevice( gSFilterControlDeviceObject );
return status;
}
}
}
#endif

//
// The registered callback routine "SfFsNotification" will be called
// whenever a new file systems is loaded or when any file system is
// unloaded.
//
// VERSION NOTE:
//
// On Windows XP and later this will also enumerate all existing file
// systems (except the RAW file systems). On Windows 2000 this does not
// enumerate the file systems that were loaded before this filter was
// loaded.
//

status = IoRegisterFsRegistrationChange( DriverObject, SfFsNotification );
if (!NT_SUCCESS( status )) {

KdPrint(( "SFilter!DriverEntry: Error registering FS change notification, status=%08x\n", status ));

DriverObject->FastIoDispatch = NULL;
ExFreePool( fastIoDispatch );
IoDeleteDevice( gSFilterControlDeviceObject );
return status;
}

//
// Attempt to attach to the appropriate RAW file system device objects
// since they are not enumerated by IoRegisterFsRegistrationChange.
//

{
PDEVICE_OBJECT rawDeviceObject;
PFILE_OBJECT fileObject;

//
// Attach to RawDisk device
//

RtlInitUnicodeString( &nameString, L"\\Device\\RawDisk" );

status = IoGetDeviceObjectPointer(
&nameString,
FILE_READ_ATTRIBUTES,
&fileObject,
&rawDeviceObject );

if (NT_SUCCESS( status )) {

SfFsNotification( rawDeviceObject, TRUE );
ObDereferenceObject( fileObject );
}

//
// Attach to the RawCdRom device
//

RtlInitUnicodeString( &nameString, L"\\Device\\RawCdRom" );

status = IoGetDeviceObjectPointer(
&nameString,
FILE_READ_ATTRIBUTES,
&fileObject,
&rawDeviceObject );

if (NT_SUCCESS( status )) {

SfFsNotification( rawDeviceObject, TRUE );
ObDereferenceObject( fileObject );
}
}

//
// Clear the initializing flag on the control device object since we
// have now successfully initialized everything.
//

ClearFlag( gSFilterControlDeviceObject->Flags, DO_DEVICE_INITIALIZING );

return STATUS_SUCCESS;
}

#if WINVER >= 0x0501
VOID
DriverUnload (
IN PDRIVER_OBJECT DriverObject
)

/*++

Routine Description:

This routine is called when a driver can be unloaded. This performs all of
the necessary cleanup for unloading the driver from memory. Note that an
error can NOT be returned from this routine.

When a request is made to unload a driver the IO System will cache that
information and not actually call this routine until the following states
have occurred:
- All device objects which belong to this filter are at the top of their
respective attachment chains.
- All handle counts for all device objects which belong to this filter have
gone to zero.

WARNING: Microsoft does not officially support the unloading of File
System Filter Drivers. This is an example of how to unload
your driver if you would like to use it during development.
This should not be made available in production code.

Arguments:

DriverObject - Driver object for this module

Return Value:

None.

--*/

{
PSFILTER_DEVICE_EXTENSION devExt;
PFAST_IO_DISPATCH fastIoDispatch;
NTSTATUS status;
ULONG numDevices;
ULONG i;
LARGE_INTEGER interval;
# define DEVOBJ_LIST_SIZE 64
PDEVICE_OBJECT devList[DEVOBJ_LIST_SIZE];

ASSERT(DriverObject == gSFilterDriverObject);

//
// Log we are unloading
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!DriverUnload: Unloading driver (%p)\n",
DriverObject) );

//
// Don't get anymore file system change notifications
//

IoUnregisterFsRegistrationChange( DriverObject, SfFsNotification );

//
// This is the loop that will go through all of the devices we are attached
// to and detach from them. Since we don't know how many there are and
// we don't want to allocate memory (because we can't return an error)
// we will free them in chunks using a local array on the stack.
//

for (;;) {

//
// Get what device objects we can for this driver. Quit if there
// are not any more. Note that this routine should always be
// defined since this routine is only compiled for Windows XP and
// later.
//

ASSERT( NULL != gSfDynamicFunctions.EnumerateDeviceObjectList );
status = (gSfDynamicFunctions.EnumerateDeviceObjectList)(
DriverObject,
devList,
sizeof(devList),
&numDevices);

if (numDevices <= 0) {

break;
}

numDevices = min( numDevices, DEVOBJ_LIST_SIZE );

//
// First go through the list and detach each of the devices.
// Our control device object does not have a DeviceExtension and
// is not attached to anything so don't detach it.
//

for (i=0; i < numDevices; i++) {

devExt = devList[i]->DeviceExtension;
if (NULL != devExt) {

IoDetachDevice( devExt->AttachedToDeviceObject );
}
}

//
// The IO Manager does not currently add a reference count to a device
// object for each outstanding IRP. This means there is no way to
// know if there are any outstanding IRPs on the given device.
// We are going to wait for a reasonable amount of time for pending
// irps to complete.
//
// WARNING: This does not work 100% of the time and the driver may be
// unloaded before all IRPs are completed. This can easily
// occur under stress situations and if a long lived IRP is
// pending (like oplocks and directory change notifications).
// The system will fault when this Irp actually completes.
// This is a sample of how to do this during testing. This
// is not recommended for production code.
//

interval.QuadPart = (5 * DELAY_ONE_SECOND); //delay 5 seconds
KeDelayExecutionThread( KernelMode, FALSE, &interval );

//
// Now go back through the list and delete the device objects.
//

for (i=0; i < numDevices; i++) {

//
// See if this is our control device object. If not then cleanup
// the device extension. If so then clear the global pointer
// that references it.
//

if (NULL != devList[i]->DeviceExtension) {

SfCleanupMountedDevice( devList[i] );

} else {

if(devList[i] == gSFilterControlDeviceObject)
gSFilterControlDeviceObject = NULL;
}

//
// Delete the device object, remove reference counts added by
// IoEnumerateDeviceObjectList. Note that the delete does
// not actually occur until the reference count goes to zero.
//

IoDeleteDevice( devList[i] );
ObDereferenceObject( devList[i] );
}
}

//
// Free our FastIO table
//

fastIoDispatch = DriverObject->FastIoDispatch;
DriverObject->FastIoDispatch = NULL;
ExFreePool( fastIoDispatch );

OnSfilterDriverUnload();
}
#endif

#if WINVER >= 0x0501
VOID
SfLoadDynamicFunctions (
)
/*++

Routine Description:

This routine tries to load the function pointers for the routines that
are not supported on all versions of the OS. These function pointers are
then stored in the global structure SpyDynamicFunctions.

This support allows for one driver to be built that will run on all
versions of the OS Windows 2000 and greater. Note that on Windows 2000,
the functionality may be limited.

Arguments:

None.

Return Value:

None.

--*/
{
UNICODE_STRING functionName;

RtlZeroMemory( &gSfDynamicFunctions, sizeof( gSfDynamicFunctions ) );

//
// For each routine that we would want to use, lookup its address in the
// kernel or hal. If it is not present, that field in our global
// SpyDynamicFunctions structure will be set to NULL.
//

RtlInitUnicodeString( &functionName, L"FsRtlRegisterFileSystemFilterCallbacks" );
gSfDynamicFunctions.RegisterFileSystemFilterCallbacks = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoAttachDeviceToDeviceStackSafe" );
gSfDynamicFunctions.AttachDeviceToDeviceStackSafe = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoEnumerateDeviceObjectList" );
gSfDynamicFunctions.EnumerateDeviceObjectList = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoGetLowerDeviceObject" );
gSfDynamicFunctions.GetLowerDeviceObject = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoGetDeviceAttachmentBaseRef" );
gSfDynamicFunctions.GetDeviceAttachmentBaseRef = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoGetDiskDeviceObject" );
gSfDynamicFunctions.GetDiskDeviceObject = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"IoGetAttachedDeviceReference" );
gSfDynamicFunctions.GetAttachedDeviceReference = MmGetSystemRoutineAddress( &functionName );

RtlInitUnicodeString( &functionName, L"RtlGetVersion" );
gSfDynamicFunctions.GetVersion = MmGetSystemRoutineAddress( &functionName );

}

VOID
SfGetCurrentVersion (
)
/*++

Routine Description:

This routine reads the current OS version using the correct routine based
on what routine is available.

Arguments:

None.

Return Value:

None.

--*/
{
if (NULL != gSfDynamicFunctions.GetVersion) {

RTL_OSVERSIONINFOW versionInfo;
NTSTATUS status;

//
// VERSION NOTE: RtlGetVersion does a bit more than we need, but
// we are using it if it is available to show how to use it. It
// is available on Windows XP and later. RtlGetVersion and
// RtlVerifyVersionInfo (both documented in the IFS Kit docs) allow
// you to make correct choices when you need to change logic based
// on the current OS executing your code.
//

versionInfo.dwOSVersionInfoSize = sizeof( RTL_OSVERSIONINFOW );

status = (gSfDynamicFunctions.GetVersion)( &versionInfo );

ASSERT( NT_SUCCESS( status ) );

gSfOsMajorVersion = versionInfo.dwMajorVersion;
gSfOsMinorVersion = versionInfo.dwMinorVersion;

} else {

PsGetVersion( &gSfOsMajorVersion,
&gSfOsMinorVersion,
NULL,
NULL );
}
}
#endif

VOID
SfFsNotification (
IN PDEVICE_OBJECT DeviceObject,
IN BOOLEAN FsActive
)

/*++

Routine Description:

This routine is invoked whenever a file system has either registered or
unregistered itself as an active file system.

For the former case, this routine creates a device object and attaches it
to the specified file system's device object. This allows this driver
to filter all requests to that file system. Specifically we are looking
for MOUNT requests so we can attach to newly mounted volumes.

For the latter case, this file system's device object is located,
detached, and deleted. This removes this file system as a filter for
the specified file system.

Arguments:

DeviceObject - Pointer to the file system's device object.

FsActive - Boolean indicating whether the file system has registered
(TRUE) or unregistered (FALSE) itself as an active file system.

Return Value:

None.

--*/

{
UNICODE_STRING name;
WCHAR nameBuffer[MAX_DEVNAME_LENGTH];

PAGED_CODE();

//
// Init local name buffer
//

RtlInitEmptyUnicodeString( &name, nameBuffer, sizeof(nameBuffer) );

SfGetObjectName( DeviceObject, &name );

//
// Display the names of all the file system we are notified of
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsNotification: %s %p \"%wZ\" (%s)\n",
(FsActive) ? "Activating file system " : "Deactivating file system",
DeviceObject,
&name,
GET_DEVICE_TYPE_NAME(DeviceObject->DeviceType)) );

//
// Handle attaching/detaching from the given file system.
//

if (FsActive) {

SfAttachToFileSystemDevice( DeviceObject, &name );

} else {

SfDetachFromFileSystemDevice( DeviceObject );
}
}


/////////////////////////////////////////////////////////////////////////////
//
// IRP Handling Routines
//
/////////////////////////////////////////////////////////////////////////////


NTSTATUS
SfPassThrough (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This routine is the main dispatch routine for the general purpose file
system driver. It simply passes requests onto the next driver in the
stack, which is presumably a disk file system.

Arguments:

DeviceObject - Pointer to the device object for this driver.

Irp - Pointer to the request packet representing the I/O request.

Return Value:

The function value is the status of the operation.

Note:

A note to file system filter implementers:
This routine actually "passes" through the request by taking this
driver out of the IRP stack. If the driver would like to pass the
I/O request through, but then also see the result, then rather than
taking itself out of the loop it could keep itself in by copying the
caller's parameters to the next stack location and then set its own
completion routine.

Hence, instead of calling:

IoSkipCurrentIrpStackLocation( Irp );

You could instead call:

IoCopyCurrentIrpStackLocationToNext( Irp );
IoSetCompletionRoutine( Irp, NULL, NULL, FALSE, FALSE, FALSE );


This example actually NULLs out the caller's I/O completion routine, but
this driver could set its own completion routine so that it would be
notified when the request was completed (see SfCreate for an example of
this).

--*/

{
NTSTATUS status;
SF_RET ret;
PVOID context;

PAGED_CODE();
//
// Sfilter doesn't allow handles to its control device object to be created,
// therefore, no other operation should be able to come through.
//

//
// Added by devia at 2007-09-13
// 所有的处理例程首先要判断是否是CDO的请求
// {
if(IS_MY_CONTROL_DEVICE_OBJECT( DeviceObject ))
{
status = OnSfilterCDODispatch(DeviceObject,Irp);
IoCompleteRequest( Irp, IO_NO_INCREMENT );
return status;
}
// }

// ASSERT(!IS_MY_CONTROL_DEVICE_OBJECT( DeviceObject ));
if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
{
PVOID context = NULL;
ret = OnSfilterIrpPre(
DeviceObject,
NULL,
NULL,
Irp,
&status,
&context);
ASSERT(context == NULL);
ASSERT(ret == SF_IRP_COMPLETED);
return status;
}

//
// Get this driver out of the driver stack and get to the next driver as
// quickly as possible.
//

//
// 对于本地文件系统我们只过滤卷设备
//
if( ( DeviceObject->DeviceType == FILE_DEVICE_DISK_FILE_SYSTEM ) &&
( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->StorageStackDeviceObject == NULL ) )
{
IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
}

ret = OnSfilterIrpPre(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,&status,&context);
switch(ret)
{
case SF_IRP_PASS:
{
IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
}
case SF_IRP_COMPLETED:
{
return status;
}
default:
{
KEVENT waitEvent;
KeInitializeEvent( &waitEvent, NotificationEvent, FALSE );
IoCopyCurrentIrpStackLocationToNext( Irp );
IoSetCompletionRoutine(
Irp,
SfCreateCompletion,
&waitEvent,
TRUE,
TRUE,
TRUE );
status = IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
if (STATUS_PENDING == status)
{
NTSTATUS localStatus = KeWaitForSingleObject(&waitEvent, Executive, KernelMode, FALSE, NULL);
ASSERT(STATUS_SUCCESS == localStatus);
}
ASSERT(KeReadStateEvent(&waitEvent) ||
!NT_SUCCESS(Irp->IoStatus.Status));
OnSfilterIrpPost(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,status,context);
status = Irp->IoStatus.Status;
IoCompleteRequest( Irp, IO_NO_INCREMENT );
return status;
}
}
}


VOID
SfDisplayCreateFileName (
IN PIRP Irp
)

/*++

Routine Description:

This function is called from SfCreate and will display the name of the
file being created. This is in a subroutine so that the local name buffer
on the stack (in nameControl) is not on the stack when we call down to
the file system for normal operations.

Arguments:

Irp - Pointer to the I/O Request Packet that represents the operation.

Return Value:

None.

--*/

{
PIO_STACK_LOCATION irpSp;
PUNICODE_STRING name;
GET_NAME_CONTROL nameControl;

//
// Get current IRP stack
//

irpSp = IoGetCurrentIrpStackLocation( Irp );

//
// Get the name of this file object
//

name = SfGetFileName( irpSp->FileObject,
Irp->IoStatus.Status,
&nameControl );

//
// Display the name
//

if (irpSp->Parameters.Create.Options & FILE_OPEN_BY_FILE_ID) {

SF_LOG_PRINT( SFDEBUG_DISPLAY_CREATE_NAMES,
("SFilter!SfDisplayCreateFileName: Opened %08x:%08x %wZ (FID)\n",
Irp->IoStatus.Status,
Irp->IoStatus.Information,
name) );

} else {

SF_LOG_PRINT( SFDEBUG_DISPLAY_CREATE_NAMES,
("SFilter!SfDisplayCreateFileName: Opened %08x:%08x %wZ\n",
Irp->IoStatus.Status,
Irp->IoStatus.Information,
name) );
}

//
// Cleanup from getting the name
//

SfGetFileNameCleanup( &nameControl );
}


NTSTATUS
SfCreate (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This function filters create/open operations. It simply establishes an
I/O completion routine to be invoked if the operation was successful.

Arguments:

DeviceObject - Pointer to the target device object of the create/open.

Irp - Pointer to the I/O Request Packet that represents the operation.

Return Value:

The function value is the status of the call to the file system's entry
point.

--*/

{
NTSTATUS status;
SF_RET ret;
PVOID context;

PAGED_CODE();

//
// If this is for our control device object, don't allow it to be opened.
//

if (IS_MY_CONTROL_DEVICE_OBJECT(DeviceObject)) {

//
// Sfilter doesn't allow for any communication through its control
// device object, therefore it fails all requests to open a handle
// to its control device object.
//
// See the FileSpy sample for an example of how to allow creates to
// the filter's control device object and manage communication via
// that handle.
//
// 如果是我的控制设备,就直接成功即可。
Irp->IoStatus.Status = STATUS_SUCCESS;
Irp->IoStatus.Information = 0;
IoCompleteRequest( Irp, IO_NO_INCREMENT );
return STATUS_SUCCESS;
}

if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
{
// 如果完全不是我的设备,通知外面完成。且必须完成。
PVOID context = NULL;
ret = OnSfilterIrpPre(
DeviceObject,
NULL,
NULL,
Irp,
&status,
&context);
ASSERT(context == NULL);
ASSERT(ret == SF_IRP_COMPLETED);
return status;
}

//
// Add by Tan Wen.
// If OnSfilterCreatePre return TRUE, this IRP will have been completed by
// the function. Otherwise, we can go on.
//

ret = OnSfilterIrpPre(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,&status,&context);

if(ret == SF_IRP_COMPLETED)
{
return status;
}
else if(ret == SF_IRP_PASS)
{
IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
} else {

KEVENT waitEvent;

//
// Initialize an event to wait for the completion routine to occur
//

KeInitializeEvent( &waitEvent, NotificationEvent, FALSE );

//
// Copy the stack and set our Completion routine
//

IoCopyCurrentIrpStackLocationToNext( Irp );

IoSetCompletionRoutine(
Irp,
SfCreateCompletion,
&waitEvent,
TRUE,
TRUE,
TRUE );

//
// Call the next driver in the stack.
//

status = IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );

//
// Wait for the completion routine to be called
//

if (STATUS_PENDING == status) {

NTSTATUS localStatus = KeWaitForSingleObject(&waitEvent, Executive, KernelMode, FALSE, NULL);
ASSERT(STATUS_SUCCESS == localStatus);
}

//
// Verify the IoCompleteRequest was called
//

ASSERT(KeReadStateEvent(&waitEvent) ||
!NT_SUCCESS(Irp->IoStatus.Status));

//
// Retrieve and display the filename if requested
//

if (FlagOn(SfDebug,
(SFDEBUG_GET_CREATE_NAMES|SFDEBUG_DISPLAY_CREATE_NAMES))) {

SfDisplayCreateFileName( Irp );
}

//
// Add by Tan Wen.
// OnSfilterCreatePost can get a notify about a IRP is completed. But can's refuse or
// control it.
//
OnSfilterIrpPost(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,status,context);

//
// Save the status and continue processing the IRP
//

status = Irp->IoStatus.Status;
IoCompleteRequest( Irp, IO_NO_INCREMENT );

return status;
}
}

NTSTATUS
SfCreateCompletion (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context
)

/*++

Routine Description:

This function is the create/open completion routine for this filter
file system driver. If debugging is enabled, then this function prints
the name of the file that was successfully opened/created by the file
system as a result of the specified I/O request.

Arguments:

DeviceObject - Pointer to the device on which the file was created.

Irp - Pointer to the I/O Request Packet the represents the operation.

Context - This driver's context parameter - unused;

Return Value:

The function value is STATUS_SUCCESS.

--*/

{
PKEVENT event = Context;

UNREFERENCED_PARAMETER( DeviceObject );
UNREFERENCED_PARAMETER( Irp );

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

KeSetEvent(event, IO_NO_INCREMENT, FALSE);

return STATUS_MORE_PROCESSING_REQUIRED;
}


NTSTATUS
SfCleanupClose (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This routine is invoked whenever a cleanup or a close request is to be
processed.

Arguments:

DeviceObject - Pointer to the device object for this driver.

Irp - Pointer to the request packet representing the I/O request.

Return Value:

The function value is the status of the operation.

Note:

See notes for SfPassThrough for this routine.


--*/

{
NTSTATUS status;
SF_RET ret;
PVOID context;
PAGED_CODE();

//
// Added by devia at 2007-09-13
// 所有的处理例程首先要判断是否是CDO的请求
// {
if (IS_MY_CONTROL_DEVICE_OBJECT(DeviceObject))
{
Irp->IoStatus.Status = STATUS_SUCCESS;
Irp->IoStatus.Information = 0;
IoCompleteRequest( Irp, IO_NO_INCREMENT );
return STATUS_SUCCESS;
}

//
// Sfilter doesn't allow handles to its control device object to be created,
// therefore, no other operation should be able to come through.
//

if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
{
PVOID context = NULL;
ret = OnSfilterIrpPre(
DeviceObject,
NULL,
NULL,
Irp,
&status,
&context);
ASSERT(context == NULL);
ASSERT(ret == SF_IRP_COMPLETED);
return status;
}

//
// Get this driver out of the driver stack and get to the next driver as
// quickly as possible.
//
ret = OnSfilterIrpPre(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,&status,&context);
switch(ret)
{
case SF_IRP_PASS:
{
IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
}
case SF_IRP_COMPLETED:
{
return status;
}
default:
{
KEVENT waitEvent;
KeInitializeEvent( &waitEvent, NotificationEvent, FALSE );
IoCopyCurrentIrpStackLocationToNext( Irp );
IoSetCompletionRoutine(
Irp,
SfCreateCompletion,
&waitEvent,
TRUE,
TRUE,
TRUE );
status = IoCallDriver( ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
if (STATUS_PENDING == status)
{
NTSTATUS localStatus = KeWaitForSingleObject(&waitEvent, Executive, KernelMode, FALSE, NULL);
ASSERT(STATUS_SUCCESS == localStatus);
}
ASSERT(KeReadStateEvent(&waitEvent) ||
!NT_SUCCESS(Irp->IoStatus.Status));
OnSfilterIrpPost(
DeviceObject,
((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
Irp,status,context);
status = Irp->IoStatus.Status;
IoCompleteRequest( Irp, IO_NO_INCREMENT );
return status;
}
}
}


NTSTATUS
SfFsControl (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This routine is invoked whenever an I/O Request Packet (IRP) w/a major
function code of IRP_MJ_FILE_SYSTEM_CONTROL is encountered. For most
IRPs of this type, the packet is simply passed through. However, for
some requests, special processing is required.

Arguments:

DeviceObject - Pointer to the device object for this driver.

Irp - Pointer to the request packet representing the I/O request.

Return Value:

The function value is the status of the operation.

--*/

{
PIO_STACK_LOCATION irpSp = IoGetCurrentIrpStackLocation( Irp );

PAGED_CODE();

//
// Sfilter doesn't allow handles to its control device object to be created,
// therefore, no other operation should be able to come through.
//

ASSERT(!IS_MY_CONTROL_DEVICE_OBJECT( DeviceObject ));

if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
{
PVOID context = NULL;
NTSTATUS status;
SF_RET ret = OnSfilterIrpPre(
DeviceObject,
NULL,
NULL,
Irp,
&status,
&context);
ASSERT(context == NULL);
ASSERT(ret == SF_IRP_COMPLETED);
return status;
}

//
// Process the minor function code.
//

switch (irpSp->MinorFunction) {

case IRP_MN_MOUNT_VOLUME:

return SfFsControlMountVolume( DeviceObject, Irp );

case IRP_MN_LOAD_FILE_SYSTEM:

return SfFsControlLoadFileSystem( DeviceObject, Irp );

case IRP_MN_USER_FS_REQUEST:
{
switch (irpSp->Parameters.FileSystemControl.FsControlCode) {

case FSCTL_DISMOUNT_VOLUME:
{
PSFILTER_DEVICE_EXTENSION devExt = DeviceObject->DeviceExtension;

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControl: Dismounting volume %p \"%wZ\"\n",
devExt->AttachedToDeviceObject,
&devExt->DeviceName) );
break;
}
}
break;
}
}

//
// Pass all other file system control requests through.
//

IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( ((PSFILTER_DEVICE_EXTENSION)DeviceObject->DeviceExtension)->AttachedToDeviceObject, Irp );
}


NTSTATUS
SfFsControlCompletion (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context
)

/*++

Routine Description:

This routine is invoked for the completion of an FsControl request. It
signals an event used to re-sync back to the dispatch routine.

Arguments:

DeviceObject - Pointer to this driver's device object that was attached to
the file system device object

Irp - Pointer to the IRP that was just completed.

Context - Pointer to the event to signal

--*/

{
UNREFERENCED_PARAMETER( DeviceObject );
UNREFERENCED_PARAMETER( Irp );

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));
ASSERT(Context != NULL);

#if WINVER >= 0x0501
if (IS_WINDOWSXP_OR_LATER()) {

//
// On Windows XP or later, the context passed in will be an event
// to signal.
//

KeSetEvent((PKEVENT)Context, IO_NO_INCREMENT, FALSE);

} else {
#endif
//
// For Windows 2000, if we are not at passive level, we should
// queue this work to a worker thread using the workitem that is in
// Context.
//

if (KeGetCurrentIrql() > PASSIVE_LEVEL) {

//
// We are not at passive level, but we need to be to do our work,
// so queue off to the worker thread.
//

ExQueueWorkItem( (PWORK_QUEUE_ITEM) Context,
DelayedWorkQueue );

} else {

PWORK_QUEUE_ITEM workItem = Context;

//
// We are already at passive level, so we will just call our
// worker routine directly.
//

(workItem->WorkerRoutine)(workItem->Parameter);
}

#if WINVER >= 0x0501
}
#endif

return STATUS_MORE_PROCESSING_REQUIRED;
}


NTSTATUS
SfFsControlMountVolume (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This processes a MOUNT VOLUME request.

NOTE: The device object in the MountVolume parameters points
to the top of the storage stack and should not be used.

Arguments:

DeviceObject - Pointer to the device object for this driver.

Irp - Pointer to the request packet representing the I/O request.

Return Value:

The status of the operation.

--*/

{
PSFILTER_DEVICE_EXTENSION devExt = DeviceObject->DeviceExtension;
PIO_STACK_LOCATION irpSp = IoGetCurrentIrpStackLocation( Irp );
PDEVICE_OBJECT newDeviceObject;
PDEVICE_OBJECT storageStackDeviceObject;
PSFILTER_DEVICE_EXTENSION newDevExt;
NTSTATUS status;
BOOLEAN isShadowCopyVolume;
PFSCTRL_COMPLETION_CONTEXT completionContext;


PAGED_CODE();

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));
ASSERT(IS_DESIRED_DEVICE_TYPE(DeviceObject->DeviceType));

//
// Get the real device object (also known as the storage stack device
// object or the disk device object) pointed to by the vpb parameter
// because this vpb may be changed by the underlying file system.
// Both FAT and CDFS may change the VPB address if the volume being
// mounted is one they recognize from a previous mount.
//

storageStackDeviceObject = irpSp->Parameters.MountVolume.Vpb->RealDevice;

//
// Determine if this is a shadow copy volume. If so don't attach to it.
// NOTE: There is no reason sfilter shouldn't attach to these volumes,
// this is simply a sample of how to not attach if you don't want
// to
//

status = SfIsShadowCopyVolume ( storageStackDeviceObject,
&isShadowCopyVolume );

if (NT_SUCCESS(status) &&
isShadowCopyVolume &&
!FlagOn(SfDebug,SFDEBUG_ATTACH_TO_SHADOW_COPIES)) {

UNICODE_STRING shadowDeviceName;
WCHAR shadowNameBuffer[MAX_DEVNAME_LENGTH];

//
// Get the name for the debug display
//

RtlInitEmptyUnicodeString( &shadowDeviceName,
shadowNameBuffer,
sizeof(shadowNameBuffer) );

SfGetObjectName( storageStackDeviceObject,
&shadowDeviceName );

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControlMountVolume Not attaching to Volume %p \"%wZ\", shadow copy volume\n",
storageStackDeviceObject,
&shadowDeviceName) );

//
// Go to the next driver
//

IoSkipCurrentIrpStackLocation( Irp );
return IoCallDriver( devExt->AttachedToDeviceObject, Irp );
}

//
// This is a mount request. Create a device object that can be
// attached to the file system's volume device object if this request
// is successful. We allocate this memory now since we can not return
// an error in the completion routine.
//
// Since the device object we are going to attach to has not yet been
// created (it is created by the base file system) we are going to use
// the type of the file system control device object. We are assuming
// that the file system control device object will have the same type
// as the volume device objects associated with it.
//

status = IoCreateDevice( gSFilterDriverObject,
sizeof( SFILTER_DEVICE_EXTENSION ) + gUserExtensionSize,
NULL,
DeviceObject->DeviceType,
0,
FALSE,
&newDeviceObject );

if (!NT_SUCCESS( status )) {

//
// If we can not attach to the volume, then don't allow the volume
// to be mounted.
//

KdPrint(( "SFilter!SfFsControlMountVolume: Error creating volume device object, status=%08x\n", status ));

Irp->IoStatus.Information = 0;
Irp->IoStatus.Status = status;
IoCompleteRequest( Irp, IO_NO_INCREMENT );

return status;
}

//
// We need to save the RealDevice object pointed to by the vpb
// parameter because this vpb may be changed by the underlying
// file system. Both FAT and CDFS may change the VPB address if
// the volume being mounted is one they recognize from a previous
// mount.
//

newDevExt = newDeviceObject->DeviceExtension;
newDevExt->StorageStackDeviceObject = storageStackDeviceObject;
newDevExt->TypeFlag = SFLT_POOL_TAG;

//
// Get the name of this device
//

RtlInitEmptyUnicodeString( &newDevExt->DeviceName,
newDevExt->DeviceNameBuffer,
sizeof(newDevExt->DeviceNameBuffer) );

SfGetObjectName( storageStackDeviceObject,
&newDevExt->DeviceName );

//
// VERSION NOTE:
//
// On Windows 2000, we cannot simply synchronize back to the dispatch
// routine to do our post-mount processing. We need to do this work at
// passive level, so we will queue that work to a worker thread from
// the completion routine.
//
// For Windows XP and later, we can safely synchronize back to the dispatch
// routine. The code below shows both methods. Admittedly, the code
// would be simplified if you chose to only use one method or the other,
// but you should be able to easily adapt this for your needs.
//

#if WINVER >= 0x0501
if (IS_WINDOWSXP_OR_LATER()) {

KEVENT waitEvent;

KeInitializeEvent( &waitEvent,
NotificationEvent,
FALSE );

IoCopyCurrentIrpStackLocationToNext ( Irp );

IoSetCompletionRoutine( Irp,
SfFsControlCompletion,
&waitEvent, //context parameter
TRUE,
TRUE,
TRUE );

status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );

//
// Wait for the operation to complete
//

if (STATUS_PENDING == status) {

status = KeWaitForSingleObject( &waitEvent,
Executive,
KernelMode,
FALSE,
NULL );
ASSERT( STATUS_SUCCESS == status );
}

//
// Verify the IoCompleteRequest was called
//

ASSERT(KeReadStateEvent(&waitEvent) ||
!NT_SUCCESS(Irp->IoStatus.Status));

status = SfFsControlMountVolumeComplete( DeviceObject,
Irp,
newDeviceObject );

} else {
#endif
//
// Initialize our completion routine
//

completionContext = ExAllocatePoolWithTag( NonPagedPool,
sizeof( FSCTRL_COMPLETION_CONTEXT ),
SFLT_POOL_TAG );

if (completionContext == NULL) {

//
// If we cannot allocate our completion context, we will just pass
// through the operation. If your filter must be present for data
// access to this volume, you should consider failing the operation
// if memory cannot be allocated here.
//

IoSkipCurrentIrpStackLocation( Irp );
status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );

} else {

ExInitializeWorkItem( &completionContext->WorkItem,
SfFsControlMountVolumeCompleteWorker,
completionContext );

completionContext->DeviceObject = DeviceObject;
completionContext->Irp = Irp;
completionContext->NewDeviceObject = newDeviceObject;

IoCopyCurrentIrpStackLocationToNext( Irp );

IoSetCompletionRoutine( Irp,
SfFsControlCompletion,
&completionContext->WorkItem, //context parameter
TRUE,
TRUE,
TRUE );

//
// Call the driver
//

status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );
}
#if WINVER >= 0x0501
}
#endif

return status;
}

VOID
SfFsControlMountVolumeCompleteWorker (
IN PFSCTRL_COMPLETION_CONTEXT Context
)
/*++

Routine Description:

The worker thread routine that will call our common routine to do the
post-MountVolume work.

Arguments:

Context - The context passed to this worker thread.

Return Value:

None.

--*/
{
ASSERT( Context != NULL );

SfFsControlMountVolumeComplete( Context->DeviceObject,
Context->Irp,
Context->NewDeviceObject );

ExFreePoolWithTag( Context, SFLT_POOL_TAG );
}

NTSTATUS
SfFsControlMountVolumeComplete (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PDEVICE_OBJECT NewDeviceObject
)
/*++

Routine Description:

This does the post-Mount work and must be done at PASSIVE_LEVEL.

Arguments:

DeviceObject - The device object for this operation,

Irp - The IRP for this operation that we will complete once we are finished
with it.

Return Value:

Returns the status of the mount operation.

--*/
{
PVPB vpb;
PSFILTER_DEVICE_EXTENSION newDevExt;
PIO_STACK_LOCATION irpSp;
PDEVICE_OBJECT attachedDeviceObject;
NTSTATUS status;

PAGED_CODE();

newDevExt = NewDeviceObject->DeviceExtension;
irpSp = IoGetCurrentIrpStackLocation( Irp );

//
// Get the correct VPB from the real device object saved in our
// device extension. We do this because the VPB in the IRP stack
// may not be the correct VPB when we get here. The underlying
// file system may change VPBs if it detects a volume it has
// mounted previously.
//

vpb = newDevExt->StorageStackDeviceObject->Vpb;

//
// Display a message when we detect that the VPB for the given
// device object has changed.
//

if (vpb != irpSp->Parameters.MountVolume.Vpb) {

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControlMountVolume: VPB in IRP stack changed %p IRPVPB=%p VPB=%p\n",
vpb->DeviceObject,
irpSp->Parameters.MountVolume.Vpb,
vpb) );
}

//
// See if the mount was successful.
//

if (NT_SUCCESS( Irp->IoStatus.Status )) {

//
// Acquire lock so we can atomically test if we area already attached
// and if not, then attach. This prevents a double attach race
// condition.
//

ExAcquireFastMutex( &gSfilterAttachLock );

//
// The mount succeeded. If we are not already attached, attach to the
// device object. Note: one reason we could already be attached is
// if the underlying file system revived a previous mount.
//

if (!SfIsAttachedToDevice( vpb->DeviceObject, &attachedDeviceObject )) {

//
// Attach to the new mounted volume. The file system device
// object that was just mounted is pointed to by the VPB.
//

status = SfAttachToMountedDevice( vpb->DeviceObject,
NewDeviceObject );

if (!NT_SUCCESS( status )) {

//
// The attachment failed, cleanup. Since we are in the
// post-mount phase, we can not fail this operation.
// We simply won't be attached. The only reason this should
// ever happen at this point is if somebody already started
// dismounting the volume therefore not attaching should
// not be a problem.
//

SfCleanupMountedDevice( NewDeviceObject );
IoDeleteDevice( NewDeviceObject );
}

ASSERT( NULL == attachedDeviceObject );

} else {

//
// We were already attached, handle it
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControlMountVolume Mount volume failure for %p \"%wZ\", already attached\n",
((PSFILTER_DEVICE_EXTENSION)attachedDeviceObject->DeviceExtension)->AttachedToDeviceObject,
&newDevExt->DeviceName) );

//
// Cleanup and delete the device object we created
//

SfCleanupMountedDevice( NewDeviceObject );
IoDeleteDevice( NewDeviceObject );

//
// Dereference the returned attached device object
//

ObDereferenceObject( attachedDeviceObject );
}

//
// Release the lock
//

ExReleaseFastMutex( &gSfilterAttachLock );

} else {

//
// The mount request failed, handle it.
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControlMountVolume: Mount volume failure for %p \"%wZ\", status=%08x\n",
DeviceObject,
&newDevExt->DeviceName,
Irp->IoStatus.Status) );

//
// Cleanup and delete the device object we created
//

SfCleanupMountedDevice( NewDeviceObject );
IoDeleteDevice( NewDeviceObject );
}

//
// Complete the request.
// NOTE: We must save the status before completing because after
// completing the IRP we can not longer access it (it might be
// freed).
//

status = Irp->IoStatus.Status;

IoCompleteRequest( Irp, IO_NO_INCREMENT );

return status;
}

NTSTATUS
SfFsControlLoadFileSystem (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)

/*++

Routine Description:

This routine is invoked whenever an I/O Request Packet (IRP) w/a major
function code of IRP_MJ_FILE_SYSTEM_CONTROL is encountered. For most
IRPs of this type, the packet is simply passed through. However, for
some requests, special processing is required.

Arguments:

DeviceObject - Pointer to the device object for this driver.

Irp - Pointer to the request packet representing the I/O request.

Return Value:

The function value is the status of the operation.

--*/

{
PSFILTER_DEVICE_EXTENSION devExt = DeviceObject->DeviceExtension;
NTSTATUS status;
PFSCTRL_COMPLETION_CONTEXT completionContext;


PAGED_CODE();

//
// This is a "load file system" request being sent to a file system
// recognizer device object. This IRP_MN code is only sent to
// file system recognizers.
//
// NOTE: Since we no longer are attaching to the standard Microsoft file
// system recognizers we will normally never execute this code.
// However, there might be 3rd party file systems which have their
// own recognizer which may still trigger this IRP.
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFscontrolLoadFileSystem: Loading File System, Detaching from \"%wZ\"\n",
&devExt->DeviceName) );


//
// VERSION NOTE:
//
// On Windows 2000, we cannot simply synchronize back to the dispatch
// routine to do our post-load filesystem processing. We need to do
// this work at passive level, so we will queue that work to a worker
// thread from the completion routine.
//
// For Windows XP and later, we can safely synchronize back to the dispatch
// routine. The code below shows both methods. Admittedly, the code
// would be simplified if you chose to only use one method or the other,
// but you should be able to easily adapt this for your needs.
//

#if WINVER >= 0x0501
if (IS_WINDOWSXP_OR_LATER()) {

KEVENT waitEvent;

KeInitializeEvent( &waitEvent,
NotificationEvent,
FALSE );

IoCopyCurrentIrpStackLocationToNext( Irp );

IoSetCompletionRoutine( Irp,
SfFsControlCompletion,
&waitEvent, //context parameter
TRUE,
TRUE,
TRUE );

status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );

//
// Wait for the operation to complete
//

if (STATUS_PENDING == status) {

status = KeWaitForSingleObject( &waitEvent,
Executive,
KernelMode,
FALSE,
NULL );
ASSERT( STATUS_SUCCESS == status );
}

//
// Verify the IoCompleteRequest was called
//

ASSERT(KeReadStateEvent(&waitEvent) ||
!NT_SUCCESS(Irp->IoStatus.Status));

status = SfFsControlLoadFileSystemComplete( DeviceObject,
Irp );

} else {
#endif

//
// Set a completion routine so we can delete the device object when
// the load is complete.
//

completionContext = ExAllocatePoolWithTag( NonPagedPool,
sizeof( FSCTRL_COMPLETION_CONTEXT ),
SFLT_POOL_TAG );

if (completionContext == NULL) {

//
// If we cannot allocate our completion context, we will just pass
// through the operation. If your filter must be present for data
// access to this volume, you should consider failing the operation
// if memory cannot be allocated here.
//

IoSkipCurrentIrpStackLocation( Irp );
status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );

} else {

ExInitializeWorkItem( &completionContext->WorkItem,
SfFsControlLoadFileSystemCompleteWorker,
completionContext );
completionContext->DeviceObject = DeviceObject;
completionContext->Irp = Irp;
completionContext->NewDeviceObject = NULL;

IoCopyCurrentIrpStackLocationToNext( Irp );

IoSetCompletionRoutine(
Irp,
SfFsControlCompletion,
completionContext,
TRUE,
TRUE,
TRUE );

//
// Detach from the file system recognizer device object.
//

IoDetachDevice( devExt->AttachedToDeviceObject );

//
// Call the driver
//

status = IoCallDriver( devExt->AttachedToDeviceObject, Irp );
}
#if WINVER >= 0x0501
}
#endif

return status;
}

VOID
SfFsControlLoadFileSystemCompleteWorker (
IN PFSCTRL_COMPLETION_CONTEXT Context
)
/*++

Routine Description:

The worker thread routine that will call our common routine to do the
post-LoadFileSystem work.

Arguments:

Context - The context passed to this worker thread.

Return Value:

None.

--*/
{
ASSERT( NULL != Context );

SfFsControlLoadFileSystemComplete( Context->DeviceObject,
Context->Irp );

ExFreePoolWithTag( Context, SFLT_POOL_TAG );
}

NTSTATUS
SfFsControlLoadFileSystemComplete (
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp
)
/*++

Routine Description:

This does the post-LoadFileSystem work and must be done as PASSIVE_LEVEL.

Arguments:

DeviceObject - The device object for this operation,

Irp - The IRP for this operation that we will complete once we are finished
with it.

Return Value:

Returns the status of the load file system operation.

--*/
{
PSFILTER_DEVICE_EXTENSION devExt;
NTSTATUS status;

PAGED_CODE();

devExt = DeviceObject->DeviceExtension;

//
// Display the name if requested
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFsControlLoadFileSystem: Detaching from recognizer %p \"%wZ\", status=%08x\n",
DeviceObject,
&devExt->DeviceName,
Irp->IoStatus.Status) );

//
// Check status of the operation
//

if (!NT_SUCCESS( Irp->IoStatus.Status ) &&
(Irp->IoStatus.Status != STATUS_IMAGE_ALREADY_LOADED)) {

//
// The load was not successful. Simply reattach to the recognizer
// driver in case it ever figures out how to get the driver loaded
// on a subsequent call. There is not a lot we can do if this
// reattach fails.
//

SfAttachDeviceToDeviceStack( DeviceObject,
devExt->AttachedToDeviceObject,
&devExt->AttachedToDeviceObject );

ASSERT(devExt->AttachedToDeviceObject != NULL);

} else {

//
// The load was successful, so cleanup this device and delete the
// Device object
//

SfCleanupMountedDevice( DeviceObject );
IoDeleteDevice( DeviceObject );
}

//
// Continue processing the operation
//

status = Irp->IoStatus.Status;

IoCompleteRequest( Irp, IO_NO_INCREMENT );

return status;
}

/////////////////////////////////////////////////////////////////////////////
//
// FastIO Handling routines
//
/////////////////////////////////////////////////////////////////////////////

BOOLEAN
SfFastIoCheckIfPossible (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for checking to see
whether fast I/O is possible for this file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be operated on.

FileOffset - Byte offset in the file for the operation.

Length - Length of the operation to be performed.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

LockKey - Provides the caller's key for file locks.

CheckForReadOperation - Indicates whether the caller is checking for a
read (TRUE) or a write operation.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

// return FALSE; // add by tanwen.

// 如果是控制设备,不允许
if(IS_MY_CONTROL_DEVICE_OBJECT( DeviceObject ))
return FALSE;
// 如果不是我的设备(影子设备可能发生这种情况)
if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
return FALSE;


if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoCheckIfPossible )) {

return (fastIoDispatch->FastIoCheckIfPossible)(
FileObject,
FileOffset,
Length,
Wait,
LockKey,
CheckForReadOperation,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoRead (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for reading from a
file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be read.

FileOffset - Byte offset in the file of the read.

Length - Length of the read operation to be performed.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

LockKey - Provides the caller's key for file locks.

Buffer - Pointer to the caller's buffer to receive the data read.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoRead )) {

return (fastIoDispatch->FastIoRead)(
FileObject,
FileOffset,
Length,
Wait,
LockKey,
Buffer,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoWrite (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for writing to a
file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be written.

FileOffset - Byte offset in the file of the write operation.

Length - Length of the write operation to be performed.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

LockKey - Provides the caller's key for file locks.

Buffer - Pointer to the caller's buffer that contains the data to be
written.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoWrite )) {

return (fastIoDispatch->FastIoWrite)(
FileObject,
FileOffset,
Length,
Wait,
LockKey,
Buffer,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoQueryBasicInfo (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_BASIC_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for querying basic
information about the file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be queried.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

Buffer - Pointer to the caller's buffer to receive the information about
the file.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoQueryBasicInfo )) {

return (fastIoDispatch->FastIoQueryBasicInfo)(
FileObject,
Wait,
Buffer,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoQueryStandardInfo (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_STANDARD_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for querying standard
information about the file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be queried.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

Buffer - Pointer to the caller's buffer to receive the information about
the file.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE;

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoQueryStandardInfo )) {

return (fastIoDispatch->FastIoQueryStandardInfo)(
FileObject,
Wait,
Buffer,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoLock (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for locking a byte
range within a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be locked.

FileOffset - Starting byte offset from the base of the file to be locked.

Length - Length of the byte range to be locked.

ProcessId - ID of the process requesting the file lock.

Key - Lock key to associate with the file lock.

FailImmediately - Indicates whether or not the lock request is to fail
if it cannot be immediately be granted.

ExclusiveLock - Indicates whether the lock to be taken is exclusive (TRUE)
or shared.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoLock )) {

return (fastIoDispatch->FastIoLock)(
FileObject,
FileOffset,
Length,
ProcessId,
Key,
FailImmediately,
ExclusiveLock,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoUnlockSingle (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for unlocking a byte
range within a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be unlocked.

FileOffset - Starting byte offset from the base of the file to be
unlocked.

Length - Length of the byte range to be unlocked.

ProcessId - ID of the process requesting the unlock operation.

Key - Lock key associated with the file lock.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoUnlockSingle )) {

return (fastIoDispatch->FastIoUnlockSingle)(
FileObject,
FileOffset,
Length,
ProcessId,
Key,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoUnlockAll (
IN PFILE_OBJECT FileObject,
PEPROCESS ProcessId,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for unlocking all
locks within a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be unlocked.

ProcessId - ID of the process requesting the unlock operation.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;

if (nextDeviceObject) {

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoUnlockAll )) {

return (fastIoDispatch->FastIoUnlockAll)(
FileObject,
ProcessId,
IoStatus,
nextDeviceObject );
}
}
}
return FALSE;
}


BOOLEAN
SfFastIoUnlockAllByKey (
IN PFILE_OBJECT FileObject,
PVOID ProcessId,
ULONG Key,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for unlocking all
locks within a file based on a specified key.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be unlocked.

ProcessId - ID of the process requesting the unlock operation.

Key - Lock key associated with the locks on the file to be released.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // add by tanwen.

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoUnlockAllByKey )) {

return (fastIoDispatch->FastIoUnlockAllByKey)(
FileObject,
ProcessId,
Key,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoDeviceControl (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
IN PVOID InputBuffer OPTIONAL,
IN ULONG InputBufferLength,
OUT PVOID OutputBuffer OPTIONAL,
IN ULONG OutputBufferLength,
IN ULONG IoControlCode,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for device I/O control
operations on a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object representing the device to be
serviced.

Wait - Indicates whether or not the caller is willing to wait if the
appropriate locks, etc. cannot be acquired

InputBuffer - Optional pointer to a buffer to be passed into the driver.

InputBufferLength - Length of the optional InputBuffer, if one was
specified.

OutputBuffer - Optional pointer to a buffer to receive data from the
driver.

OutputBufferLength - Length of the optional OutputBuffer, if one was
specified.

IoControlCode - I/O control code indicating the operation to be performed
on the device.

IoStatus - Pointer to a variable to receive the I/O status of the
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

if(IS_MY_CONTROL_DEVICE_OBJECT( DeviceObject ))
return FALSE;
// 如果不是我的设备(影子设备可能发生这种情况)
if(!IS_MY_DEVICE_OBJECT( DeviceObject ))
return FALSE;

// return FALSE; // add by tanwen. 有趣的是,这个操作不可以返回false。如果
// 返回了false,会导致金蝶启动狂慢无比(有时启动时间达15分钟以上)。
// 如果是控制设备,不允许

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoDeviceControl )) {

return (fastIoDispatch->FastIoDeviceControl)(
FileObject,
Wait,
InputBuffer,
InputBufferLength,
OutputBuffer,
OutputBufferLength,
IoControlCode,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


VOID
SfFastIoDetachDevice (
IN PDEVICE_OBJECT SourceDevice,
IN PDEVICE_OBJECT TargetDevice
)

/*++

Routine Description:

This routine is invoked on the fast path to detach from a device that
is being deleted. This occurs when this driver has attached to a file
system volume device object, and then, for some reason, the file system
decides to delete that device (it is being dismounted, it was dismounted
at some point in the past and its last reference has just gone away, etc.)

Arguments:

SourceDevice - Pointer to my device object, which is attached
to the file system's volume device object.

TargetDevice - Pointer to the file system's volume device object.

Return Value:

None

--*/

{
PSFILTER_DEVICE_EXTENSION devExt;

PAGED_CODE();

ASSERT(IS_MY_DEVICE_OBJECT( SourceDevice ));

devExt = SourceDevice->DeviceExtension;

//
// Display name information
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfFastIoDetachDevice: Detaching from volume %p \"%wZ\"\n",
TargetDevice,
&devExt->DeviceName) );

//
// Detach from the file system's volume device object.
//

SfCleanupMountedDevice( SourceDevice );
IoDetachDevice( TargetDevice );
IoDeleteDevice( SourceDevice );
}


BOOLEAN
SfFastIoQueryNetworkOpenInfo (
IN PFILE_OBJECT FileObject,
IN BOOLEAN Wait,
OUT PFILE_NETWORK_OPEN_INFORMATION Buffer,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for querying network
information about a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object to be queried.

Wait - Indicates whether or not the caller can handle the file system
having to wait and tie up the current thread.

Buffer - Pointer to a buffer to receive the network information about the
file.

IoStatus - Pointer to a variable to receive the final status of the query
operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoQueryNetworkOpenInfo )) {

return (fastIoDispatch->FastIoQueryNetworkOpenInfo)(
FileObject,
Wait,
Buffer,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoMdlRead (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for reading a file
using MDLs as buffers.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object that is to be read.

FileOffset - Supplies the offset into the file to begin the read operation.

Length - Specifies the number of bytes to be read from the file.

LockKey - The key to be used in byte range lock checks.

MdlChain - A pointer to a variable to be filled in w/a pointer to the MDL
chain built to describe the data read.

IoStatus - Variable to receive the final status of the read operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, MdlRead )) {

return (fastIoDispatch->MdlRead)(
FileObject,
FileOffset,
Length,
LockKey,
MdlChain,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoMdlReadComplete (
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for completing an
MDL read operation.

This function simply invokes the file system's corresponding routine, if
it has one. It should be the case that this routine is invoked only if
the MdlRead function is supported by the underlying file system, and
therefore this function will also be supported, but this is not assumed
by this driver.

Arguments:

FileObject - Pointer to the file object to complete the MDL read upon.

MdlChain - Pointer to the MDL chain used to perform the read operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE, depending on whether or not it is
possible to invoke this function on the fast I/O path.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, MdlReadComplete )) {

return (fastIoDispatch->MdlReadComplete)(
FileObject,
MdlChain,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoPrepareMdlWrite (
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
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for preparing for an
MDL write operation.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object that will be written.

FileOffset - Supplies the offset into the file to begin the write operation.

Length - Specifies the number of bytes to be write to the file.

LockKey - The key to be used in byte range lock checks.

MdlChain - A pointer to a variable to be filled in w/a pointer to the MDL
chain built to describe the data written.

IoStatus - Variable to receive the final status of the write operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, PrepareMdlWrite )) {

return (fastIoDispatch->PrepareMdlWrite)(
FileObject,
FileOffset,
Length,
LockKey,
MdlChain,
IoStatus,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoMdlWriteComplete (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for completing an
MDL write operation.

This function simply invokes the file system's corresponding routine, if
it has one. It should be the case that this routine is invoked only if
the PrepareMdlWrite function is supported by the underlying file system,
and therefore this function will also be supported, but this is not
assumed by this driver.

Arguments:

FileObject - Pointer to the file object to complete the MDL write upon.

FileOffset - Supplies the file offset at which the write took place.

MdlChain - Pointer to the MDL chain used to perform the write operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE, depending on whether or not it is
possible to invoke this function on the fast I/O path.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, MdlWriteComplete )) {

return (fastIoDispatch->MdlWriteComplete)(
FileObject,
FileOffset,
MdlChain,
nextDeviceObject );
}
}
return FALSE;
}


/*********************************************************************************
UNIMPLEMENTED FAST IO ROUTINES

The following four Fast IO routines are for compression on the wire
which is not yet implemented in NT.

NOTE: It is highly recommended that you include these routines (which
do a pass-through call) so your filter will not need to be
modified in the future when this functionality is implemented in
the OS.

FastIoReadCompressed, FastIoWriteCompressed,
FastIoMdlReadCompleteCompressed, FastIoMdlWriteCompleteCompressed
**********************************************************************************/


BOOLEAN
SfFastIoReadCompressed (
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 struct _COMPRESSED_DATA_INFO *CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for reading compressed
data from a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object that will be read.

FileOffset - Supplies the offset into the file to begin the read operation.

Length - Specifies the number of bytes to be read from the file.

LockKey - The key to be used in byte range lock checks.

Buffer - Pointer to a buffer to receive the compressed data read.

MdlChain - A pointer to a variable to be filled in w/a pointer to the MDL
chain built to describe the data read.

IoStatus - Variable to receive the final status of the read operation.

CompressedDataInfo - A buffer to receive the description of the compressed
data.

CompressedDataInfoLength - Specifies the size of the buffer described by
the CompressedDataInfo parameter.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoReadCompressed )) {

return (fastIoDispatch->FastIoReadCompressed)(
FileObject,
FileOffset,
Length,
LockKey,
Buffer,
MdlChain,
IoStatus,
CompressedDataInfo,
CompressedDataInfoLength,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoWriteCompressed (
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 struct _COMPRESSED_DATA_INFO *CompressedDataInfo,
IN ULONG CompressedDataInfoLength,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for writing compressed
data to a file.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

FileObject - Pointer to the file object that will be written.

FileOffset - Supplies the offset into the file to begin the write operation.

Length - Specifies the number of bytes to be write to the file.

LockKey - The key to be used in byte range lock checks.

Buffer - Pointer to the buffer containing the data to be written.

MdlChain - A pointer to a variable to be filled in w/a pointer to the MDL
chain built to describe the data written.

IoStatus - Variable to receive the final status of the write operation.

CompressedDataInfo - A buffer to containing the description of the
compressed data.

CompressedDataInfoLength - Specifies the size of the buffer described by
the CompressedDataInfo parameter.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoWriteCompressed )) {

return (fastIoDispatch->FastIoWriteCompressed)(
FileObject,
FileOffset,
Length,
LockKey,
Buffer,
MdlChain,
IoStatus,
CompressedDataInfo,
CompressedDataInfoLength,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoMdlReadCompleteCompressed (
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for completing an
MDL read compressed operation.

This function simply invokes the file system's corresponding routine, if
it has one. It should be the case that this routine is invoked only if
the read compressed function is supported by the underlying file system,
and therefore this function will also be supported, but this is not assumed
by this driver.

Arguments:

FileObject - Pointer to the file object to complete the compressed read
upon.

MdlChain - Pointer to the MDL chain used to perform the read operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE, depending on whether or not it is
possible to invoke this function on the fast I/O path.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, MdlReadCompleteCompressed )) {

return (fastIoDispatch->MdlReadCompleteCompressed)(
FileObject,
MdlChain,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoMdlWriteCompleteCompressed (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for completing a
write compressed operation.

This function simply invokes the file system's corresponding routine, if
it has one. It should be the case that this routine is invoked only if
the write compressed function is supported by the underlying file system,
and therefore this function will also be supported, but this is not assumed
by this driver.

Arguments:

FileObject - Pointer to the file object to complete the compressed write
upon.

FileOffset - Supplies the file offset at which the file write operation
began.

MdlChain - Pointer to the MDL chain used to perform the write operation.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE, depending on whether or not it is
possible to invoke this function on the fast I/O path.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, MdlWriteCompleteCompressed )) {

return (fastIoDispatch->MdlWriteCompleteCompressed)(
FileObject,
FileOffset,
MdlChain,
nextDeviceObject );
}
}
return FALSE;
}


BOOLEAN
SfFastIoQueryOpen (
IN PIRP Irp,
OUT PFILE_NETWORK_OPEN_INFORMATION NetworkInformation,
IN PDEVICE_OBJECT DeviceObject
)

/*++

Routine Description:

This routine is the fast I/O "pass through" routine for opening a file
and returning network information for it.

This function simply invokes the file system's corresponding routine, or
returns FALSE if the file system does not implement the function.

Arguments:

Irp - Pointer to a create IRP that represents this open operation. It is
to be used by the file system for common open/create code, but not
actually completed.

NetworkInformation - A buffer to receive the information required by the
network about the file being opened.

DeviceObject - Pointer to this driver's device object, the device on
which the operation is to occur.

Return Value:

The function value is TRUE or FALSE based on whether or not fast I/O
is possible for this file.

--*/

{
PDEVICE_OBJECT nextDeviceObject;
PFAST_IO_DISPATCH fastIoDispatch;
BOOLEAN result;

PAGED_CODE();

return FALSE; // ERPOK

if (DeviceObject->DeviceExtension) {

ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));

//
// Pass through logic for this type of Fast I/O
//

nextDeviceObject = ((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->AttachedToDeviceObject;
ASSERT(nextDeviceObject);

fastIoDispatch = nextDeviceObject->DriverObject->FastIoDispatch;

if (VALID_FAST_IO_DISPATCH_HANDLER( fastIoDispatch, FastIoQueryOpen )) {

PIO_STACK_LOCATION irpSp = IoGetCurrentIrpStackLocation( Irp );

//
// Before calling the next filter, we must make sure their device
// object is in the current stack entry for the given IRP
//

irpSp->DeviceObject = nextDeviceObject;

result = (fastIoDispatch->FastIoQueryOpen)(
Irp,
NetworkInformation,
nextDeviceObject );

//
// Always restore the IRP back to our device object
//

irpSp->DeviceObject = DeviceObject;
return result;
}
}
return FALSE;
}

#if WINVER >= 0x0501 /* See comment in DriverEntry */
/////////////////////////////////////////////////////////////////////////////
//
// FSFilter callback handling routines
//
/////////////////////////////////////////////////////////////////////////////

NTSTATUS
SfPreFsFilterPassThrough(
IN PFS_FILTER_CALLBACK_DATA Data,
OUT PVOID *CompletionContext
)
/*++

Routine Description:

This routine is the FS Filter pre-operation "pass through" routine.

Arguments:

Data - The FS_FILTER_CALLBACK_DATA structure containing the information
about this operation.

CompletionContext - A context set by this operation that will be passed
to the corresponding SfPostFsFilterOperation call.

Return Value:

Returns STATUS_SUCCESS if the operation can continue or an appropriate
error code if the operation should fail.

--*/
{
UNREFERENCED_PARAMETER( Data );
UNREFERENCED_PARAMETER( CompletionContext );

ASSERT( IS_MY_DEVICE_OBJECT( Data->DeviceObject ) );

return STATUS_SUCCESS;
}

VOID
SfPostFsFilterPassThrough (
IN PFS_FILTER_CALLBACK_DATA Data,
IN NTSTATUS OperationStatus,
IN PVOID CompletionContext
)
/*++

Routine Description:

This routine is the FS Filter post-operation "pass through" routine.

Arguments:

Data - The FS_FILTER_CALLBACK_DATA structure containing the information
about this operation.

OperationStatus - The status of this operation.

CompletionContext - A context that was set in the pre-operation
callback by this driver.

Return Value:

None.

--*/
{
UNREFERENCED_PARAMETER( Data );
UNREFERENCED_PARAMETER( OperationStatus );
UNREFERENCED_PARAMETER( CompletionContext );

ASSERT( IS_MY_DEVICE_OBJECT( Data->DeviceObject ) );
}
#endif

/////////////////////////////////////////////////////////////////////////////
//
// Support routines
//
/////////////////////////////////////////////////////////////////////////////

NTSTATUS
SfAttachDeviceToDeviceStack (
IN PDEVICE_OBJECT SourceDevice,
IN PDEVICE_OBJECT TargetDevice,
IN OUT PDEVICE_OBJECT *AttachedToDeviceObject
)
/*++

Routine Description:

This routine attaches the SourceDevice to the TargetDevice's stack and
returns the device object SourceDevice was directly attached to in
AttachedToDeviceObject. Note that the SourceDevice does not necessarily
get attached directly to TargetDevice. The SourceDevice will get attached
to the top of the stack of which TargetDevice is a member.

VERSION NOTE:

In Windows XP, a new API was introduced to close a rare timing window that
can cause IOs to start being sent to a device before its
AttachedToDeviceObject is set in its device extension. This is possible
if a filter is attaching to a device stack while the system is actively
processing IOs. The new API closes this timing window by setting the
device extension field that holds the AttachedToDeviceObject while holding
the IO Manager's lock that protects the device stack.

A sufficient work around for earlier versions of the OS is to set the
AttachedToDeviceObject to the device object that the SourceDevice is most
likely to attach to. While it is possible that another filter will attach
in between the SourceDevice and TargetDevice, this will prevent the
system from bug checking if the SourceDevice receives IOs before the
AttachedToDeviceObject is correctly set.

For a driver built in the Windows 2000 build environment, we will always
use the work-around code to attach. For a driver that is built in the
Windows XP or later build environments (therefore you are building a
multiversion driver), we will determine which method of attachment to use
based on which APIs are available.

Arguments:

SourceDevice - The device object to be attached to the stack.

TargetDevice - The device that we currently think is the top of the stack
to which SourceDevice should be attached.

AttachedToDeviceObject - This is set to the device object to which
SourceDevice is attached if the attach is successful.

Return Value:

Return STATUS_SUCCESS if the device is successfully attached. If
TargetDevice represents a stack to which devices can no longer be attached,
STATUS_NO_SUCH_DEVICE is returned.

--*/
{

PAGED_CODE();

#if WINVER >= 0x0501

if (IS_WINDOWSXP_OR_LATER()) {

ASSERT( NULL != gSfDynamicFunctions.AttachDeviceToDeviceStackSafe );
return (gSfDynamicFunctions.AttachDeviceToDeviceStackSafe)( SourceDevice,
TargetDevice,
AttachedToDeviceObject );

} else {

// ASSERT( NULL == gSfDynamicFunctions.AttachDeviceToDeviceStackSafe );
#endif

*AttachedToDeviceObject = TargetDevice;
*AttachedToDeviceObject = IoAttachDeviceToDeviceStack( SourceDevice,
TargetDevice );

if (*AttachedToDeviceObject == NULL) {

return STATUS_NO_SUCH_DEVICE;
}

return STATUS_SUCCESS;

#if WINVER >= 0x0501
}
#endif
}

NTSTATUS
SfAttachToFileSystemDevice (
IN PDEVICE_OBJECT DeviceObject,
IN PUNICODE_STRING DeviceName
)
/*++

Routine Description:

This will attach to the given file system device object. We attach to
these devices so we will know when new volumes are mounted.

Arguments:

DeviceObject - The device to attach to

Name - An already initialized unicode string used to retrieve names.
This is passed in to reduce the number of strings buffers on
the stack.

Return Value:

Status of the operation

--*/
{
PDEVICE_OBJECT newDeviceObject;
PSFILTER_DEVICE_EXTENSION devExt;
UNICODE_STRING fsrecName;
NTSTATUS status;
UNICODE_STRING fsName;
WCHAR tempNameBuffer[MAX_DEVNAME_LENGTH];

PAGED_CODE();

//
// See if this is a file system type we care about. If not, return.
//

if (!IS_DESIRED_DEVICE_TYPE(DeviceObject->DeviceType)) {

return STATUS_SUCCESS;
}

//
// always init NAME buffer
//

RtlInitEmptyUnicodeString( &fsName,
tempNameBuffer,
sizeof(tempNameBuffer) );

//
// See if we should attach to the standard file system recognizer device
// or not
//
RtlInitUnicodeString( &fsrecName, L"\\FileSystem\\Fs_Rec" );
SfGetObjectName( DeviceObject->DriverObject, &fsName );

if (!FlagOn(SfDebug,SFDEBUG_ATTACH_TO_FSRECOGNIZER)) {

//
// See if this is one of the standard Microsoft file system recognizer
// devices (see if this device is in the FS_REC driver). If so skip
// it. We no longer attach to file system recognizer devices, we
// simply wait for the real file system driver to load.
//
if (RtlCompareUnicodeString( &fsName, &fsrecName, TRUE ) == 0) {

return STATUS_SUCCESS;
}
}

//
// We want to attach to this file system. Create a new device object we
// can attach with.
//

status = IoCreateDevice( gSFilterDriverObject,
sizeof( SFILTER_DEVICE_EXTENSION ) + gUserExtensionSize,
NULL,
DeviceObject->DeviceType,
0,
FALSE,
&newDeviceObject );

if (!NT_SUCCESS( status )) {
return status;
}

if(!OnSfilterAttachPre(newDeviceObject,DeviceObject,&fsName,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension)))
return STATUS_UNSUCCESSFUL;

//
// Propagate flags from Device Object we are trying to attach to.
// Note that we do this before the actual attachment to make sure
// the flags are properly set once we are attached (since an IRP
// can come in immediately after attachment but before the flags would
// be set).
//

if ( FlagOn( DeviceObject->Flags, DO_BUFFERED_IO )) {

SetFlag( newDeviceObject->Flags, DO_BUFFERED_IO );
}

if ( FlagOn( DeviceObject->Flags, DO_DIRECT_IO )) {

SetFlag( newDeviceObject->Flags, DO_DIRECT_IO );
}

if ( FlagOn( DeviceObject->Characteristics, FILE_DEVICE_SECURE_OPEN ) ) {

SetFlag( newDeviceObject->Characteristics, FILE_DEVICE_SECURE_OPEN );
}

//
// Do the attachment
//

devExt = newDeviceObject->DeviceExtension;


status = SfAttachDeviceToDeviceStack( newDeviceObject,
DeviceObject,
&devExt->AttachedToDeviceObject );

if (!NT_SUCCESS( status )) {

goto ErrorCleanupDevice;
}

//
// Set the name
//
devExt->TypeFlag = SFLT_POOL_TAG;
RtlInitEmptyUnicodeString( &devExt->DeviceName,
devExt->DeviceNameBuffer,
sizeof(devExt->DeviceNameBuffer) );

RtlCopyUnicodeString( &devExt->DeviceName, DeviceName ); //Save Name

//
// Mark we are done initializing
//

ClearFlag( newDeviceObject->Flags, DO_DEVICE_INITIALIZING );

//
// Display who we have attached to
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfAttachToFileSystemDevice: Attaching to file system %p \"%wZ\" (%s)\n",
DeviceObject,
&devExt->DeviceName,
GET_DEVICE_TYPE_NAME(newDeviceObject->DeviceType)) );

//
// VERSION NOTE:
//
// In Windows XP, the IO Manager provided APIs to safely enumerate all the
// device objects for a given driver. This allows filters to attach to
// all mounted volumes for a given file system at some time after the
// volume has been mounted. There is no support for this functionality
// in Windows 2000.
//
// MULTIVERSION NOTE:
//
// If built for Windows XP or later, this driver is built to run on
// multiple versions. When this is the case, we will test
// for the presence of the new IO Manager routines that allow for volume
// enumeration. If they are not present, we will not enumerate the volumes
// when we attach to a new file system.
//

#if WINVER >= 0x0501

if (IS_WINDOWSXP_OR_LATER()) {

ASSERT( NULL != gSfDynamicFunctions.EnumerateDeviceObjectList &&
NULL != gSfDynamicFunctions.GetDiskDeviceObject &&
NULL != gSfDynamicFunctions.GetDeviceAttachmentBaseRef &&
NULL != gSfDynamicFunctions.GetLowerDeviceObject );

//
// Enumerate all the mounted devices that currently
// exist for this file system and attach to them.
//

status = SfEnumerateFileSystemVolumes( DeviceObject, &fsName );

if (!NT_SUCCESS( status )) {

IoDetachDevice( devExt->AttachedToDeviceObject );
goto ErrorCleanupDevice;
}
}

#endif
OnSfilterAttachPost(newDeviceObject,DeviceObject,devExt->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
STATUS_SUCCESS);
return STATUS_SUCCESS;

/////////////////////////////////////////////////////////////////////
// Cleanup error handling
/////////////////////////////////////////////////////////////////////

ErrorCleanupDevice:
SfCleanupMountedDevice( newDeviceObject );
IoDeleteDevice( newDeviceObject );
OnSfilterAttachPost(newDeviceObject,DeviceObject,
NULL,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
status);
return status;
}


VOID
SfDetachFromFileSystemDevice (
IN PDEVICE_OBJECT DeviceObject
)
/*++

Routine Description:

Given a base file system device object, this will scan up the attachment
chain looking for our attached device object. If found it will detach
us from the chain.

Arguments:

DeviceObject - The file system device to detach from.

Return Value:

--*/
{
PDEVICE_OBJECT ourAttachedDevice;
PSFILTER_DEVICE_EXTENSION devExt;

PAGED_CODE();

//
// Skip the base file system device object (since it can't be us)
//

ourAttachedDevice = DeviceObject->AttachedDevice;

while (NULL != ourAttachedDevice) {

if (IS_MY_DEVICE_OBJECT( ourAttachedDevice )) {

devExt = ourAttachedDevice->DeviceExtension;

//
// Display who we detached from
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfDetachFromFileSystemDevice: Detaching from file system %p \"%wZ\" (%s)\n",
devExt->AttachedToDeviceObject,
&devExt->DeviceName,
GET_DEVICE_TYPE_NAME(ourAttachedDevice->DeviceType)) );

//
// Detach us from the object just below us
// Cleanup and delete the object
//

SfCleanupMountedDevice( ourAttachedDevice );
IoDetachDevice( DeviceObject );
IoDeleteDevice( ourAttachedDevice );

return;
}

//
// Look at the next device up in the attachment chain
//

DeviceObject = ourAttachedDevice;
ourAttachedDevice = ourAttachedDevice->AttachedDevice;
}
}

#if WINVER >= 0x0501
NTSTATUS
SfEnumerateFileSystemVolumes (
IN PDEVICE_OBJECT FSDeviceObject,
IN PUNICODE_STRING Name
)
/*++

Routine Description:

Enumerate all the mounted devices that currently exist for the given file
system and attach to them. We do this because this filter could be loaded
at any time and there might already be mounted volumes for this file system.

Arguments:

FSDeviceObject - The device object for the file system we want to enumerate

Name - An already initialized unicode string used to retrieve names
This is passed in to reduce the number of strings buffers on
the stack.

Return Value:

The status of the operation

--*/
{
PDEVICE_OBJECT newDeviceObject;
PSFILTER_DEVICE_EXTENSION newDevExt;
PDEVICE_OBJECT *devList;
PDEVICE_OBJECT storageStackDeviceObject;
NTSTATUS status;
ULONG numDevices;
ULONG i;
BOOLEAN isShadowCopyVolume;

PAGED_CODE();

//
// Find out how big of an array we need to allocate for the
// mounted device list.
//

status = (gSfDynamicFunctions.EnumerateDeviceObjectList)(
FSDeviceObject->DriverObject,
NULL,
0,
&numDevices);

//
// We only need to get this list of there are devices. If we
// don't get an error there are no devices so go on.
//

if (!NT_SUCCESS( status )) {

ASSERT(STATUS_BUFFER_TOO_SMALL == status);

//
// Allocate memory for the list of known devices
//

numDevices += 8; //grab a few extra slots

devList = ExAllocatePoolWithTag( NonPagedPool,
(numDevices * sizeof(PDEVICE_OBJECT)),
SFLT_POOL_TAG );
if (NULL == devList) {

return STATUS_INSUFFICIENT_RESOURCES;
}

//
// Now get the list of devices. If we get an error again
// something is wrong, so just fail.
//

ASSERT( NULL != gSfDynamicFunctions.EnumerateDeviceObjectList );
status = (gSfDynamicFunctions.EnumerateDeviceObjectList)(
FSDeviceObject->DriverObject,
devList,
(numDevices * sizeof(PDEVICE_OBJECT)),
&numDevices);

if (!NT_SUCCESS( status )) {

ExFreePool( devList );
return status;
}

//
// Walk the given list of devices and attach to them if we should.
//

for (i=0; i < numDevices; i++) {

//
// Initialize state so we can cleanup properly
//

storageStackDeviceObject = NULL;

try {

//
// Do not attach if:
// - This is the control device object (the one passed in)
// - The device type does not match
// - We are already attached to it.
//

if ((devList[i] == FSDeviceObject) ||
(devList[i]->DeviceType != FSDeviceObject->DeviceType) ||
SfIsAttachedToDevice( devList[i], NULL )) {

leave;
}

//
// See if this device has a name. If so, then it must
// be a control device so don't attach to it. This handles
// drivers with more then one control device (like FastFat).
//

SfGetBaseDeviceObjectName( devList[i], Name );

if (Name->Length > 0) {

leave;
}

//
// Get the real (disk,storage stack) device object associated
// with this file system device object. Only try to attach
// if we have a disk device object.
//

ASSERT( NULL != gSfDynamicFunctions.GetDiskDeviceObject );
status = (gSfDynamicFunctions.GetDiskDeviceObject)( devList[i],
&storageStackDeviceObject );

if (!NT_SUCCESS( status )) {

leave;
}

//
// Determine if this is a shadow copy volume. If so don't
// attach to it.
// NOTE: There is no reason sfilter shouldn't attach to these
// volumes, this is simply a sample of how to not
// attach if you don't want to
//

status = SfIsShadowCopyVolume ( storageStackDeviceObject,
&isShadowCopyVolume );

if (NT_SUCCESS(status) &&
isShadowCopyVolume &&
!FlagOn(SfDebug,SFDEBUG_ATTACH_TO_SHADOW_COPIES)) {

UNICODE_STRING shadowDeviceName;
WCHAR shadowNameBuffer[MAX_DEVNAME_LENGTH];

//
// Get the name for the debug display
//

RtlInitEmptyUnicodeString( &shadowDeviceName,
shadowNameBuffer,
sizeof(shadowNameBuffer) );

SfGetObjectName( storageStackDeviceObject,
&shadowDeviceName );

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfEnumerateFileSystemVolumes Not attaching to Volume %p \"%wZ\", shadow copy volume\n",
storageStackDeviceObject,
&shadowDeviceName) );

leave;
}

//
// Allocate a new device object to attach with
//

status = IoCreateDevice( gSFilterDriverObject,
sizeof( SFILTER_DEVICE_EXTENSION ) + gUserExtensionSize,
NULL,
devList[i]->DeviceType,
0,
FALSE,
&newDeviceObject );

if (!NT_SUCCESS( status )) {

leave;
}

//
// Set disk device object
//

newDevExt = newDeviceObject->DeviceExtension;
newDevExt->TypeFlag = SFLT_POOL_TAG;
newDevExt->StorageStackDeviceObject = storageStackDeviceObject;

//
// Set storage stack device name
//

RtlInitEmptyUnicodeString( &newDevExt->DeviceName,
newDevExt->DeviceNameBuffer,
sizeof(newDevExt->DeviceNameBuffer) );

SfGetObjectName( storageStackDeviceObject,
&newDevExt->DeviceName );


//
// We have done a lot of work since the last time
// we tested to see if we were already attached
// to this device object. Test again, this time
// with a lock, and attach if we are not attached.
// The lock is used to atomically test if we are
// attached, and then do the attach.
//

ExAcquireFastMutex( &gSfilterAttachLock );

if (!SfIsAttachedToDevice( devList[i], NULL )) {

//
// Attach to volume.
//

status = SfAttachToMountedDevice( devList[i],
newDeviceObject );

if (!NT_SUCCESS( status )) {

//
// The attachment failed, cleanup. Note that
// we continue processing so we will cleanup
// the reference counts and try to attach to
// the rest of the volumes.
//
// One of the reasons this could have failed
// is because this volume is just being
// mounted as we are attaching and the
// DO_DEVICE_INITIALIZING flag has not yet
// been cleared. A filter could handle
// this situation by pausing for a short
// period of time and retrying the attachment a
// limited number of times.
//

SfCleanupMountedDevice( newDeviceObject );
IoDeleteDevice( newDeviceObject );
}

} else {

//
// We were already attached, cleanup this
// device object.
//

SfCleanupMountedDevice( newDeviceObject );
IoDeleteDevice( newDeviceObject );
}

//
// Release the lock
//

ExReleaseFastMutex( &gSfilterAttachLock );

} finally {

//
// Remove reference added by IoGetDiskDeviceObject.
// We only need to hold this reference until we are
// successfully attached to the current volume. Once
// we are successfully attached to devList[i], the
// IO Manager will make sure that the underlying
// storageStackDeviceObject will not go away until
// the file system stack is torn down.
//

if (storageStackDeviceObject != NULL) {

ObDereferenceObject( storageStackDeviceObject );
}

//
// Dereference the object (reference added by
// IoEnumerateDeviceObjectList)
//

ObDereferenceObject( devList[i] );
}
}

//
// We are going to ignore any errors received while attaching. We
// simply won't be attached to those volumes if we get an error
//

status = STATUS_SUCCESS;

//
// Free the memory we allocated for the list
//

ExFreePool( devList );
}

return status;
}
#endif

NTSTATUS
SfAttachToMountedDevice (
IN PDEVICE_OBJECT DeviceObject,
IN PDEVICE_OBJECT SFilterDeviceObject
)
/*++

Routine Description:

This will attach to a DeviceObject that represents a mounted volume.

Arguments:

DeviceObject - The device to attach to

SFilterDeviceObject - Our device object we are going to attach

Return Value:

Status of the operation

--*/
{
PSFILTER_DEVICE_EXTENSION newDevExt = SFilterDeviceObject->DeviceExtension;
NTSTATUS status;
ULONG i;

PAGED_CODE();
ASSERT(IS_MY_DEVICE_OBJECT( SFilterDeviceObject ));
#if WINVER >= 0x0501
ASSERT(!SfIsAttachedToDevice ( DeviceObject, NULL ));
#endif

if(!OnSfilterAttachPre(SFilterDeviceObject,DeviceObject,NULL,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension)))
return STATUS_UNSUCCESSFUL;

//
// Propagate flags from Device Object we are trying to attach to.
// Note that we do this before the actual attachment to make sure
// the flags are properly set once we are attached (since an IRP
// can come in immediately after attachment but before the flags would
// be set).
//

if (FlagOn( DeviceObject->Flags, DO_BUFFERED_IO )) {

SetFlag( SFilterDeviceObject->Flags, DO_BUFFERED_IO );
}

if (FlagOn( DeviceObject->Flags, DO_DIRECT_IO )) {

SetFlag( SFilterDeviceObject->Flags, DO_DIRECT_IO );
}

//
// It is possible for this attachment request to fail because this device
// object has not finished initializing. This can occur if this filter
// loaded just as this volume was being mounted.
//

for (i=0; i < 8; i++) {
LARGE_INTEGER interval;

//
// Attach our device object to the given device object
// The only reason this can fail is if someone is trying to dismount
// this volume while we are attaching to it.
//

status = SfAttachDeviceToDeviceStack( SFilterDeviceObject,
DeviceObject,
&newDevExt->AttachedToDeviceObject );
if (NT_SUCCESS(status)) {

OnSfilterAttachPost(
SFilterDeviceObject,
DeviceObject,
newDevExt->AttachedToDeviceObject,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
status);

//
// Finished all initialization of the new device object, so clear the
// initializing flag now. This allows other filters to now attach
// to our device object.
//

ClearFlag( SFilterDeviceObject->Flags, DO_DEVICE_INITIALIZING );

//
// Display the name
//

SF_LOG_PRINT( SFDEBUG_DISPLAY_ATTACHMENT_NAMES,
("SFilter!SfAttachToMountedDevice: Attaching to volume %p \"%wZ\"\n",
newDevExt->AttachedToDeviceObject,
&newDevExt->DeviceName) );

return STATUS_SUCCESS;
}

//
// Delay, giving the device object a chance to finish its
// initialization so we can try again
//

interval.QuadPart = (500 * DELAY_ONE_MILLISECOND); //delay 1/2 second
KeDelayExecutionThread( KernelMode, FALSE, &interval );
}
OnSfilterAttachPost(
SFilterDeviceObject,
DeviceObject,
NULL,
(PVOID)(((PSFILTER_DEVICE_EXTENSION) DeviceObject->DeviceExtension)->UserExtension),
status);
return status;
}

VOID
SfCleanupMountedDevice (
IN PDEVICE_OBJECT DeviceObject
)
/*++

Routine Description:

This cleans up any necessary data in the device extension to prepare for
this memory to be freed.

Arguments:

DeviceObject - The device we are cleaning up

Return Value:

None

--*/
{

UNREFERENCED_PARAMETER( DeviceObject );
ASSERT(IS_MY_DEVICE_OBJECT( DeviceObject ));
}


VOID
SfGetObjectName (
IN PVOID Object,
IN OUT PUNICODE_STRING Name
)
/*++

Routine Description:

This routine will return the name of the given object.
If a name can not be found an empty string will be returned.

Arguments:

Object - The object whose name we want

Name - A unicode string that is already initialized with a buffer that
receives the name of the object.

Return Value:

None

--*/
{
NTSTATUS status;
CHAR nibuf[512]; //buffer that receives NAME information and name
POBJECT_NAME_INFORMATION nameInfo = (POBJECT_NAME_INFORMATION)nibuf;
ULONG retLength;

status = ObQueryNameString( Object, nameInfo, sizeof(nibuf), &retLength);

Name->Length = 0;
if (NT_SUCCESS( status )) {

RtlCopyUnicodeString( Name, &nameInfo->Name );
}
}

//
// VERSION NOTE:
//
// This helper routine is only needed when enumerating all volumes in the
// system, which is only supported on Windows XP and later.
//

#if WINVER >= 0x0501
VOID
SfGetBaseDeviceObjectName (
IN PDEVICE_OBJECT DeviceObject,
IN OUT PUNICODE_STRING Name
)
/*++

Routine Description:

This locates the base device object in the given attachment chain and then
returns the name of that object.

If no name can be found, an empty string is returned.

Arguments:

Object - The object whose name we want

Name - A unicode string that is already initialized with a buffer that
receives the name of the device object.

Return Value:

None

--*/
{
//
// Get the base file system device object
//

ASSERT( NULL != gSfDynamicFunctions.GetDeviceAttachmentBaseRef );
DeviceObject = (gSfDynamicFunctions.GetDeviceAttachmentBaseRef)( DeviceObject );

//
// Get the name of that object
//

SfGetObjectName( DeviceObject, Name );

//
// Remove the reference added by IoGetDeviceAttachmentBaseRef
//

ObDereferenceObject( DeviceObject );
}
#endif

PUNICODE_STRING
SfGetFileName(
IN PFILE_OBJECT FileObject,
IN NTSTATUS CreateStatus,
IN OUT PGET_NAME_CONTROL NameControl
)
/*++

Routine Description:

This routine will try and get the name of the given file object. This
is guaranteed to always return a printable string (though it may be NULL).
This will allocate a buffer if it needs to.

Arguments:
FileObject - the file object we want the name for

CreateStatus - status of the create operation

NameControl - control structure used for retrieving the name. It keeps
track if a buffer was allocated or if we are using the internal
buffer.

Return Value:

Pointer to the unicode string with the name

--*/
{
POBJECT_NAME_INFORMATION nameInfo;
NTSTATUS status;
ULONG size;
ULONG bufferSize;

//
// Mark we have not allocated the buffer
//

NameControl->allocatedBuffer = NULL;

//
// Use the small buffer in the structure (that will handle most cases)
// for the name
//

nameInfo = (POBJECT_NAME_INFORMATION)NameControl->smallBuffer;
bufferSize = sizeof(NameControl->smallBuffer);

//
// If the open succeeded, get the name of the file, if it
// failed, get the name of the device.
//

status = ObQueryNameString(
(NT_SUCCESS( CreateStatus ) ?
(PVOID)FileObject :
(PVOID)FileObject->DeviceObject),
nameInfo,
bufferSize,
&size );

//
// See if the buffer was to small
//

if (status == STATUS_BUFFER_OVERFLOW) {

//
// The buffer was too small, allocate one big enough
//

bufferSize = size + sizeof(WCHAR);

NameControl->allocatedBuffer = ExAllocatePoolWithTag(
NonPagedPool,
bufferSize,
SFLT_POOL_TAG );

if (NULL == NameControl->allocatedBuffer) {

//
// Failed allocating a buffer, return an empty string for the name
//

RtlInitEmptyUnicodeString(
(PUNICODE_STRING)&NameControl->smallBuffer,
(PWCHAR)(NameControl->smallBuffer + sizeof(UNICODE_STRING)),
(USHORT)(sizeof(NameControl->smallBuffer) - sizeof(UNICODE_STRING)) );

return (PUNICODE_STRING)&NameControl->smallBuffer;
}

//
// Set the allocated buffer and get the name again
//

nameInfo = (POBJECT_NAME_INFORMATION)NameControl->allocatedBuffer;

status = ObQueryNameString(
FileObject,
nameInfo,
bufferSize,
&size );
}

//
// If we got a name and an error opening the file then we
// just received the device name. Grab the rest of the name
// from the FileObject (note that this can only be done if being called
// from Create). This only happens if we got an error back from the
// create.
//

if (NT_SUCCESS( status ) &&
!NT_SUCCESS( CreateStatus )) {

ULONG newSize;
PCHAR newBuffer;
POBJECT_NAME_INFORMATION newNameInfo;

//
// Calculate the size of the buffer we will need to hold
// the combined names
//

newSize = size + FileObject->FileName.Length;

//
// If there is a related file object add in the length
// of that plus space for a separator
//

if (NULL != FileObject->RelatedFileObject) {

newSize += FileObject->RelatedFileObject->FileName.Length +
sizeof(WCHAR);
}

//
// See if it will fit in the existing buffer
//

if (newSize > bufferSize) {

//
// It does not fit, allocate a bigger buffer
//

newBuffer = ExAllocatePoolWithTag(
NonPagedPool,
newSize,
SFLT_POOL_TAG );

if (NULL == newBuffer) {

//
// Failed allocating a buffer, return an empty string for the name
//

RtlInitEmptyUnicodeString(
(PUNICODE_STRING)&NameControl->smallBuffer,
(PWCHAR)(NameControl->smallBuffer + sizeof(UNICODE_STRING)),
(USHORT)(sizeof(NameControl->smallBuffer) - sizeof(UNICODE_STRING)) );

return (PUNICODE_STRING)&NameControl->smallBuffer;
}

//
// Now initialize the new buffer with the information
// from the old buffer.
//

newNameInfo = (POBJECT_NAME_INFORMATION)newBuffer;

RtlInitEmptyUnicodeString(
&newNameInfo->Name,
(PWCHAR)(newBuffer + sizeof(OBJECT_NAME_INFORMATION)),
(USHORT)(newSize - sizeof(OBJECT_NAME_INFORMATION)) );

RtlCopyUnicodeString( &newNameInfo->Name,
&nameInfo->Name );

//
// Free the old allocated buffer (if there is one)
// and save off the new allocated buffer address. It
// would be very rare that we should have to free the
// old buffer because device names should always fit
// inside it.
//

if (NULL != NameControl->allocatedBuffer) {

ExFreePool( NameControl->allocatedBuffer );
}

//
// Readjust our pointers
//

NameControl->allocatedBuffer = newBuffer;
bufferSize = newSize;
nameInfo = newNameInfo;

} else {

//
// The MaximumLength was set by ObQueryNameString to
// one char larger then the length. Set it to the
// true size of the buffer (so we can append the names)
//

nameInfo->Name.MaximumLength = (USHORT)(bufferSize -
sizeof(OBJECT_NAME_INFORMATION));
}

//
// If there is a related file object, append that name
// first onto the device object along with a separator
// character
//

if (NULL != FileObject->RelatedFileObject) {

RtlAppendUnicodeStringToString(
&nameInfo->Name,
&FileObject->RelatedFileObject->FileName );

RtlAppendUnicodeToString( &nameInfo->Name, L"\\" );
}

//
// Append the name from the file object
//

RtlAppendUnicodeStringToString(
&nameInfo->Name,
&FileObject->FileName );

ASSERT(nameInfo->Name.Length <= nameInfo->Name.MaximumLength);
}

//
// Return the name
//

return &nameInfo->Name;
}


VOID
SfGetFileNameCleanup(
IN OUT PGET_NAME_CONTROL NameControl
)
/*++

Routine Description:

This will see if a buffer was allocated and will free it if it was

Arguments:

NameControl - control structure used for retrieving the name. It keeps
track if a buffer was allocated or if we are using the internal
buffer.

Return Value:

None

--*/
{

if (NULL != NameControl->allocatedBuffer) {

ExFreePool( NameControl->allocatedBuffer);
NameControl->allocatedBuffer = NULL;
}
}

//
// VERSION NOTE:
//
// In Windows 2000, the APIs to safely walk an arbitrary file system device
// stack were not supported. If we can guarantee that a device stack won't
// be torn down during the walking of the device stack, we can walk from
// the base file system's device object up to the top of the device stack
// to see if we are attached. We know the device stack will not go away if
// we are in the process of processing a mount request OR we have a file object
// open on this device.
//
// In Windows XP and later, the IO Manager provides APIs that will allow us to
// walk through the chain safely using reference counts to protect the device
// object from going away while we are inspecting it. This can be done at any
// time.
//
// MULTIVERSION NOTE:
//
// If built for Windows XP or later, this driver is built to run on
// multiple versions. When this is the case, we will test for the presence of
// the new IO Manager routines that allow for a filter to safely walk the file
// system device stack and use those APIs if they are present to determine if
// we have already attached to this volume. If these new IO Manager routines
// are not present, we will assume that we are at the bottom of the file
// system stack and walk up the stack looking for our device object.
//

BOOLEAN
SfIsAttachedToDevice (
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
)
{

PAGED_CODE();

#if WINVER >= 0x0501
if (IS_WINDOWSXP_OR_LATER()) {

ASSERT( NULL != gSfDynamicFunctions.GetLowerDeviceObject &&
NULL != gSfDynamicFunctions.GetDeviceAttachmentBaseRef );

return SfIsAttachedToDeviceWXPAndLater( DeviceObject, AttachedDeviceObject );
} else {
#endif

return SfIsAttachedToDeviceW2K( DeviceObject, AttachedDeviceObject );

#if WINVER >= 0x0501
}
#endif
}

BOOLEAN
SfIsAttachedToDeviceW2K (
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
)
/*++

Routine Description:

VERSION: Windows 2000

This routine walks up the device stack from the DeviceObject passed in
looking for a device object that belongs to our filter.

Note: If AttachedDeviceObject is returned with a non-NULL value,
there is a reference on the AttachedDeviceObject that must
be cleared by the caller.

Arguments:

DeviceObject - The device chain we want to look through

AttachedDeviceObject - Set to the deviceObject which FileSpy
has previously attached to DeviceObject.

Return Value:

TRUE if we are attached, FALSE if not

--*/
{
PDEVICE_OBJECT currentDevice;

PAGED_CODE();

for (currentDevice = DeviceObject;
currentDevice != NULL;
currentDevice = currentDevice->AttachedDevice) {

if (IS_MY_DEVICE_OBJECT( currentDevice )) {

//
// We are attached. If requested, return the found device object.
//

if (ARGUMENT_PRESENT(AttachedDeviceObject)) {

ObReferenceObject( currentDevice );
*AttachedDeviceObject = currentDevice;
}

return TRUE;
}
}

//
// We did not find ourselves on the attachment chain. Return a NULL
// device object pointer (if requested) and return we did not find
// ourselves.
//

if (ARGUMENT_PRESENT(AttachedDeviceObject)) {

*AttachedDeviceObject = NULL;
}

return FALSE;
}

#if WINVER >= 0x0501
BOOLEAN
SfIsAttachedToDeviceWXPAndLater (
PDEVICE_OBJECT DeviceObject,
PDEVICE_OBJECT *AttachedDeviceObject OPTIONAL
)
/*++

Routine Description:

VERSION: Windows XP and later

This walks down the attachment chain looking for a device object that
belongs to this driver. If one is found, the attached device object
is returned in AttachedDeviceObject.

Arguments:

DeviceObject - The device chain we want to look through

AttachedDeviceObject - The Sfilter device attached to this device.

Return Value:

TRUE if we are attached, FALSE if not

--*/
{
PDEVICE_OBJECT currentDevObj;
PDEVICE_OBJECT nextDevObj;

PAGED_CODE();

//
// Get the device object at the TOP of the attachment chain
//

ASSERT( NULL != gSfDynamicFunctions.GetAttachedDeviceReference );
currentDevObj = (gSfDynamicFunctions.GetAttachedDeviceReference)( DeviceObject );

//
// Scan down the list to find our device object.
//

do {

if (IS_MY_DEVICE_OBJECT( currentDevObj )) {

//
// We have found that we are already attached. If we are
// returning the device object, leave it referenced else remove
// the reference.
//

if (ARGUMENT_PRESENT(AttachedDeviceObject)) {

*AttachedDeviceObject = currentDevObj;

} else {

ObDereferenceObject( currentDevObj );
}

return TRUE;
}

//
// Get the next attached object. This puts a reference on
// the device object.
//

ASSERT( NULL != gSfDynamicFunctions.GetLowerDeviceObject );
nextDevObj = (gSfDynamicFunctions.GetLowerDeviceObject)( currentDevObj );

//
// Dereference our current device object, before
// moving to the next one.
//

ObDereferenceObject( currentDevObj );

currentDevObj = nextDevObj;

} while (NULL != currentDevObj);

//
// We did not find ourselves on the attachment chain. Return a NULL
// device object pointer (if requested) and return we did not find
// ourselves.
//

if (ARGUMENT_PRESENT(AttachedDeviceObject)) {

*AttachedDeviceObject = NULL;
}

return FALSE;
}
#endif

VOID
SfReadDriverParameters (
IN PUNICODE_STRING RegistryPath
)
/*++

Routine Description:

This routine tries to read the sfilter-specific parameters from
the registry. These values will be found in the registry location
indicated by the RegistryPath passed in.

Arguments:

RegistryPath - the path key passed to the driver during driver entry.

Return Value:

None.

--*/
{
OBJECT_ATTRIBUTES attributes;
HANDLE driverRegKey;
NTSTATUS status;
ULONG resultLength;
UNICODE_STRING valueName;
UCHAR buffer[sizeof( KEY_VALUE_PARTIAL_INFORMATION ) + sizeof( LONG )];

PAGED_CODE();

//
// If this value is not the default value then somebody has already
// explicitly set it so don't override those settings.
//

if (0 == SfDebug) {

//
// Open the desired registry key
//

InitializeObjectAttributes( &attributes,
RegistryPath,
OBJ_CASE_INSENSITIVE,
NULL,
NULL );

status = ZwOpenKey( &driverRegKey,
KEY_READ,
&attributes );

if (!NT_SUCCESS( status )) {

return;
}

//
// Read the DebugDisplay value from the registry.
//

RtlInitUnicodeString( &valueName, L"DebugFlags" );

status = ZwQueryValueKey( driverRegKey,
&valueName,
KeyValuePartialInformation,
buffer,
sizeof(buffer),
&resultLength );

if (NT_SUCCESS( status )) {

SfDebug = *((PLONG) &(((PKEY_VALUE_PARTIAL_INFORMATION) buffer)->Data));
}

//
// Close the registry entry
//

ZwClose(driverRegKey);
}
}


NTSTATUS
SfIsShadowCopyVolume (
IN PDEVICE_OBJECT StorageStackDeviceObject,
OUT PBOOLEAN IsShadowCopy
)
/*++

Routine Description:

This routine will determine if the given volume is for a ShadowCopy volume
or some other type of volume.

VERSION NOTE:

ShadowCopy volumes were introduced in Windows XP, therefore, if this
driver is running on W2K, we know that this is not a shadow copy volume.

Also note that in Windows XP, we need to test to see if the driver name
of this device object is \Driver\VolSnap in addition to seeing if this
device is read-only. For Windows Server 2003, we can infer that
this is a ShadowCopy by looking for a DeviceType == FILE_DEVICE_VIRTUAL_DISK
and read-only volume.

Arguments:

StorageStackDeviceObject - pointer to the disk device object
IsShadowCopy - returns TRUE if this is a shadow copy, FALSE otherwise

Return Value:

The status of the operation. If this operation fails IsShadowCopy is
always set to FALSE.

--*/
{

PAGED_CODE();

//
// Default to NOT a shadow copy volume
//

*IsShadowCopy = FALSE;

#if WINVER >= 0x0501
if (IS_WINDOWS2000()) {
#endif

UNREFERENCED_PARAMETER( StorageStackDeviceObject );
return STATUS_SUCCESS;

#if WINVER >= 0x0501
}

if (IS_WINDOWSXP()) {

UNICODE_STRING volSnapDriverName;
WCHAR buffer[MAX_DEVNAME_LENGTH];
PUNICODE_STRING storageDriverName;
ULONG returnedLength;
NTSTATUS status;

//
// In Windows XP, all ShadowCopy devices were of type FILE_DISK_DEVICE.
// If this does not have a device type of FILE_DISK_DEVICE, then
// it is not a ShadowCopy volume. Return now.
//

if (FILE_DEVICE_DISK != StorageStackDeviceObject->DeviceType) {

return STATUS_SUCCESS;
}

//
// Unfortunately, looking for the FILE_DEVICE_DISK isn't enough. We
// need to find out if the name of this driver is \Driver\VolSnap as
// well.
//

storageDriverName = (PUNICODE_STRING) buffer;
RtlInitEmptyUnicodeString( storageDriverName,
Add2Ptr( storageDriverName, sizeof( UNICODE_STRING ) ),
sizeof( buffer ) - sizeof( UNICODE_STRING ) );

status = ObQueryNameString( StorageStackDeviceObject,
(POBJECT_NAME_INFORMATION)storageDriverName,
storageDriverName->MaximumLength,
&returnedLength );

if (!NT_SUCCESS( status )) {

return status;
}

RtlInitUnicodeString( &volSnapDriverName, L"\\Driver\\VolSnap" );

if (RtlEqualUnicodeString( storageDriverName, &volSnapDriverName, TRUE )) {

//
// This is a ShadowCopy volume, so set our return parameter to true.
//

*IsShadowCopy = TRUE;

} else {

//
// This is not a ShadowCopy volume, but IsShadowCopy is already
// set to FALSE. Fall through to return to the caller.
//

NOTHING;
}

return STATUS_SUCCESS;

} else {

PIRP irp;
KEVENT event;
IO_STATUS_BLOCK iosb;
NTSTATUS status;

//
// For Windows Server 2003 and later, it is sufficient to test for a
// device type fo FILE_DEVICE_VIRTUAL_DISK and that the device
// is read-only to identify a ShadowCopy.
//

//
// If this does not have a device type of FILE_DEVICE_VIRTUAL_DISK, then
// it is not a ShadowCopy volume. Return now.
//

if (FILE_DEVICE_VIRTUAL_DISK != StorageStackDeviceObject->DeviceType) {

return STATUS_SUCCESS;
}

//
// It has the correct device type, see if it is marked as read only.
//
// NOTE: You need to be careful which device types you do this operation
// on. It is accurate for this type but for other device
// types it may return misleading information. For example the
// current microsoft cdrom driver always returns CD media as
// readonly, even if the media may be writable. On other types
// this state may change.
//

KeInitializeEvent( &event, NotificationEvent, FALSE );

irp = IoBuildDeviceIoControlRequest( IOCTL_DISK_IS_WRITABLE,
StorageStackDeviceObject,
NULL,
0,
NULL,
0,
FALSE,
&event,
&iosb );

//
// If we could not allocate an IRP, return an error
//

if (irp == NULL) {

return STATUS_INSUFFICIENT_RESOURCES;
}

//
// Call the storage stack and see if this is readonly
//

status = IoCallDriver( StorageStackDeviceObject, irp );

if (status == STATUS_PENDING) {

(VOID)KeWaitForSingleObject( &event,
Executive,
KernelMode,
FALSE,
NULL );

status = iosb.Status;
}

//
// If the media is write protected then this is a shadow copy volume
//

if (STATUS_MEDIA_WRITE_PROTECTED == status) {

*IsShadowCopy = TRUE;
status = STATUS_SUCCESS;
}

//
// Return the status of the IOCTL. IsShadowCopy is already set to FALSE
// which is what we want if STATUS_SUCCESS was returned or if an error
// was returned.
//

return status;
}
#endif
}


sfilter.h

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///
/// @file sfilter.h
/// @author crazy_chu
/// @date 2007-5-17
///

#ifndef _TWCN_SFILTER_HEADER_

#define _TWCN_SFILTER_HEADER_

typedef enum{
SF_IRP_GO_ON = 0,
SF_IRP_COMPLETED = 1,
SF_IRP_PASS = 2
} SF_RET;

extern SF_RET OnSfilterIrpPre(
IN PDEVICE_OBJECT DeviceObject,
IN PDEVICE_OBJECT NextObject,
IN PVOID extension,
IN PIRP Irp,
OUT NTSTATUS *status,
PVOID *context);

extern VOID OnSfilterIrpPost(
IN PDEVICE_OBJECT DeviceObject,
IN PDEVICE_OBJECT NextObject,
IN PVOID extension,
IN PIRP Irp,
IN NTSTATUS status,
PVOID context);

extern NTSTATUS OnSfilterDriverEntry(
IN PDRIVER_OBJECT DriverObject,
IN PUNICODE_STRING RegistryPath,
OUT PUNICODE_STRING userNameString,
OUT PUNICODE_STRING syblnkString,
OUT PULONG extensionSize);

extern VOID OnSfilterDriverUnload();

extern NTSTATUS OnSfilterCDODispatch(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp);

extern BOOLEAN OnSfilterAttachPre(
IN PDEVICE_OBJECT ourDevice,
IN PDEVICE_OBJECT theDeviceToAttach,
IN PUNICODE_STRING DeviceName,
IN PVOID extension);

extern VOID OnSfilterAttachPost(
IN PDEVICE_OBJECT ourDevice,
IN PDEVICE_OBJECT theDeviceToAttach,
IN PDEVICE_OBJECT theDeviceToAttached,
IN PVOID extension,
IN NTSTATUS status);

extern BOOLEAN OnSfFastIoDeviceControl(
IN PFILE_OBJECT FileObject,
IN PVOID InputBuffer OPTIONAL,
IN ULONG InputBufferLength,
OUT PVOID OutputBuffer OPTIONAL,
IN ULONG OutputBufferLength,
IN ULONG IoControlCode,
OUT PIO_STATUS_BLOCK IoStatus,
IN PDEVICE_OBJECT DeviceObject);

void sfilterSetCdoAccessForAll();

#endif //_TWCN_SFILTER_HEADER_