[openafs.git] / src / WINNT / afsrdr / kernel / lib / AFSGeneric.cpp

/*
 * Copyright (c) 2008, 2009, 2010, 2011 Kernel Drivers, LLC.
 * Copyright (c) 2009, 2010, 2011 Your File System, Inc.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * - Redistributions of source code must retain the above copyright notice,
 *   this list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright
 *   notice,
 *   this list of conditions and the following disclaimer in the
 *   documentation
 *   and/or other materials provided with the distribution.
 * - Neither the names of Kernel Drivers, LLC and Your File System, Inc.
 *   nor the names of their contributors may be used to endorse or promote
 *   products derived from this software without specific prior written
 *   permission from Kernel Drivers, LLC and Your File System, Inc.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
 * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
 * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

//
// File: AFSGeneric.cpp
//

#include "AFSCommon.h"

//
// Function: AFSExceptionFilter
//
// Description:
//
//      This function is the exception handler
//
// Return:
//
//      A status is returned for the function
//

ULONG
AFSExceptionFilter( IN ULONG Code,
                    IN PEXCEPTION_POINTERS ExceptPtrs)
{

    PEXCEPTION_RECORD ExceptRec;
    PCONTEXT Context;

    __try
    {

        ExceptRec = ExceptPtrs->ExceptionRecord;

        Context = ExceptPtrs->ContextRecord;

        AFSDbgLogMsg( 0,
                      0,
                      "AFSExceptionFilter (Library) - EXR %p CXR %p Code %08lX Address %p Routine %p\n",
                      ExceptRec,
                      Context,
                      ExceptRec->ExceptionCode,
                      ExceptRec->ExceptionAddress,
                      (void *)AFSExceptionFilter);

        DbgPrint("**** Exception Caught in AFS Redirector Library ****\n");

        DbgPrint("\n\nPerform the following WnDbg Cmds:\n");
        DbgPrint("\n\t.exr %p ;  .cxr %p\n\n", ExceptRec, Context);

        DbgPrint("**** Exception Complete from AFS Redirector Library ****\n");

        if( BooleanFlagOn( AFSDebugFlags, AFS_DBG_BUGCHECK_EXCEPTION))
        {

            KeBugCheck( (ULONG)-2);
        }
        else
        {

            AFSBreakPoint();
        }
    }
    __except( EXCEPTION_EXECUTE_HANDLER)
    {

        NOTHING;
    }

    return EXCEPTION_EXECUTE_HANDLER;
}

//
// Function: AFSLibExAllocatePoolWithTag()
//
// Purpose: Allocate Pool Memory.  If BugCheck Exception flag
//          is configured on, then bugcheck the system if
//          a memory allocation fails.  The routine should be
//          used for all memory allocations that are to be freed
//          when the library is unloaded.  Memory allocations that
//          are to survive library unload and reload should be
//          performed using AFSExAllocatePoolWithTag() which is
//          provided by the AFS Framework.
//
// Parameters:
//                POOL_TYPE PoolType - Paged or NonPaged
//                SIZE_T NumberOfBytes - requested allocation size
//                ULONG  Tag - Pool Allocation Tag to be applied for tracking
//
// Return:
//                void * - the memory allocation
//

void *
AFSLibExAllocatePoolWithTag( IN POOL_TYPE  PoolType,
                             IN SIZE_T  NumberOfBytes,
                             IN ULONG  Tag)
{

    void *pBuffer = NULL;

    pBuffer = ExAllocatePoolWithTag( PoolType,
                                     NumberOfBytes,
                                     Tag);

    if( pBuffer == NULL)
    {

        if( BooleanFlagOn( AFSDebugFlags, AFS_DBG_BUGCHECK_EXCEPTION))
        {

            KeBugCheck( (ULONG)-2);
        }
        else
        {

            AFSDbgLogMsg( 0,
                          0,
                          "AFSLibExAllocatePoolWithTag failure Type %08lX Size %08lX Tag %08lX %08lX\n",
                          PoolType,
                          NumberOfBytes,
                          Tag,
                          PsGetCurrentThread());

            AFSBreakPoint();
        }
    }

    return pBuffer;
}

//
// Function: AFSAcquireExcl()
//
// Purpose: Called to acquire a resource exclusive with optional wait
//
// Parameters:
//                PERESOURCE Resource - Resource to acquire
//                BOOLEAN Wait - Whether to block
//
// Return:
//                BOOLEAN - Whether the mask was acquired
//

BOOLEAN
AFSAcquireExcl( IN PERESOURCE Resource,
                IN BOOLEAN wait)
{

    BOOLEAN bStatus = FALSE;

    //
    // Normal kernel APCs must be disabled before calling
    // ExAcquireResourceExclusiveLite. Otherwise a bugcheck occurs.
    //

    KeEnterCriticalRegion();

    bStatus = ExAcquireResourceExclusiveLite( Resource,
                                              wait);

    if( !bStatus)
    {

        KeLeaveCriticalRegion();
    }

    return bStatus;
}

BOOLEAN
AFSAcquireSharedStarveExclusive( IN PERESOURCE Resource,
                                 IN BOOLEAN Wait)
{

    BOOLEAN bStatus = FALSE;

    KeEnterCriticalRegion();

    bStatus = ExAcquireSharedStarveExclusive( Resource,
                                              Wait);

    if( !bStatus)
    {

        KeLeaveCriticalRegion();
    }

    return bStatus;
}

//
// Function: AFSAcquireShared()
//
// Purpose: Called to acquire a resource shared with optional wait
//
// Parameters:
//                PERESOURCE Resource - Resource to acquire
//                BOOLEAN Wait - Whether to block
//
// Return:
//                BOOLEAN - Whether the mask was acquired
//

BOOLEAN
AFSAcquireShared( IN PERESOURCE Resource,
                  IN BOOLEAN wait)
{

    BOOLEAN bStatus = FALSE;

    KeEnterCriticalRegion();

    bStatus = ExAcquireResourceSharedLite( Resource,
                                           wait);

    if( !bStatus)
    {

        KeLeaveCriticalRegion();
    }

    return bStatus;
}

//
// Function: AFSReleaseResource()
//
// Purpose: Called to release a resource
//
// Parameters:
//                PERESOURCE Resource - Resource to release
//
// Return:
//                None
//

void
AFSReleaseResource( IN PERESOURCE Resource)
{

    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                  AFS_TRACE_LEVEL_VERBOSE,
                  "AFSReleaseResource Releasing lock %08lX Thread %08lX\n",
                  Resource,
                  PsGetCurrentThread());

    ExReleaseResourceLite( Resource);

    KeLeaveCriticalRegion();

    return;
}

void
AFSConvertToShared( IN PERESOURCE Resource)
{

    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                  AFS_TRACE_LEVEL_VERBOSE,
                  "AFSConvertToShared Converting lock %08lX Thread %08lX\n",
                  Resource,
                  PsGetCurrentThread());

    ExConvertExclusiveToSharedLite( Resource);

    return;
}

//
// Function: AFSCompleteRequest
//
// Description:
//
//      This function completes irps
//
// Return:
//
//      A status is returned for the function
//

void
AFSCompleteRequest( IN PIRP Irp,
                    IN ULONG Status)
{

    Irp->IoStatus.Status = Status;

    IoCompleteRequest( Irp,
                       IO_NO_INCREMENT);

    return;
}

//
// Function: AFSGenerateCRC
//
// Description:
//
//      Given a device and filename this function generates a CRC
//
// Return:
//
//      A status is returned for the function
//

ULONG
AFSGenerateCRC( IN PUNICODE_STRING FileName,
                IN BOOLEAN UpperCaseName)
{

    ULONG ulCRC = 0;
    NTSTATUS ntStatus = STATUS_SUCCESS;

    ntStatus = RtlHashUnicodeString( FileName,
                                     UpperCaseName,
                                     HASH_STRING_ALGORITHM_DEFAULT,
                                     &ulCRC);

    if( !NT_SUCCESS( ntStatus))
    {
        ulCRC = 0;
    }

    return ulCRC;
}

void *
AFSLockSystemBuffer( IN PIRP Irp,
                     IN ULONG Length)
{

    NTSTATUS Status = STATUS_SUCCESS;
    void *pAddress = NULL;

    if( Irp->MdlAddress != NULL)
    {

        pAddress = MmGetSystemAddressForMdlSafe( Irp->MdlAddress,
                                                 NormalPagePriority);
    }
    else if( Irp->AssociatedIrp.SystemBuffer != NULL)
    {

        pAddress = Irp->AssociatedIrp.SystemBuffer;
    }
    else if( Irp->UserBuffer != NULL)
    {

        Irp->MdlAddress = IoAllocateMdl( Irp->UserBuffer,
                                         Length,
                                         FALSE,
                                         FALSE,
                                         Irp);

        if( Irp->MdlAddress != NULL)
        {

            //
            //  Lock the new Mdl in memory.
            //

            __try
            {
                PIO_STACK_LOCATION pIoStack;
                pIoStack = IoGetCurrentIrpStackLocation( Irp);


                MmProbeAndLockPages( Irp->MdlAddress, KernelMode,
                                     (pIoStack->MajorFunction == IRP_MJ_READ) ? IoWriteAccess : IoReadAccess);

                pAddress = MmGetSystemAddressForMdlSafe( Irp->MdlAddress, NormalPagePriority );

            }
            __except( AFSExceptionFilter( GetExceptionCode(), GetExceptionInformation()) )
            {

                IoFreeMdl( Irp->MdlAddress );
                Irp->MdlAddress = NULL;
                pAddress = NULL;
            }
        }
    }

    return pAddress;
}

void *
AFSLockUserBuffer( IN void *UserBuffer,
                   IN ULONG BufferLength,
                                   OUT MDL ** Mdl)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    void *pAddress = NULL;
    MDL *pMdl = NULL;

    __Enter
    {

        pMdl = IoAllocateMdl( UserBuffer,
                              BufferLength,
                              FALSE,
                              FALSE,
                              NULL);

            if( pMdl == NULL)
            {

                try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
            }

        //
        //  Lock the new Mdl in memory.
        //

        __try
        {

            MmProbeAndLockPages( pMdl,
                                 KernelMode,
                                 IoWriteAccess);

            pAddress = MmGetSystemAddressForMdlSafe( pMdl,
                                                     NormalPagePriority);
        }
        __except( AFSExceptionFilter( GetExceptionCode(), GetExceptionInformation()) )
        {

            IoFreeMdl( pMdl);
            pMdl = NULL;
            pAddress = NULL;
        }

        if( pMdl != NULL)
        {

            *Mdl = pMdl;
        }

try_exit:

        NOTHING;
    }

    return pAddress;
}

void *
AFSMapToService( IN PIRP Irp,
                 IN ULONG ByteCount)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    void *pMappedBuffer = NULL;
    AFSDeviceExt *pDevExt = (AFSDeviceExt *)AFSControlDeviceObject->DeviceExtension;
    KAPC stApcState;

    __Enter
    {

        if( pDevExt->Specific.Control.ServiceProcess == NULL)
        {

            try_return( ntStatus = STATUS_DEVICE_NOT_READY);
        }

        if( Irp->MdlAddress == NULL)
        {

            if( AFSLockSystemBuffer( Irp,
                                     ByteCount) == NULL)
            {

                try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
            }
        }

        //
        // Attach to the service process for mapping
        //

        KeStackAttachProcess( pDevExt->Specific.Control.ServiceProcess,
                              (PRKAPC_STATE)&stApcState);

        pMappedBuffer = MmMapLockedPagesSpecifyCache( Irp->MdlAddress,
                                                      UserMode,
                                                      MmCached,
                                                      NULL,
                                                      FALSE,
                                                      NormalPagePriority);

        KeUnstackDetachProcess( (PRKAPC_STATE)&stApcState);

try_exit:

        NOTHING;
    }

    return pMappedBuffer;
}

NTSTATUS
AFSUnmapServiceMappedBuffer( IN void *MappedBuffer,
                             IN PMDL Mdl)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    void *pMappedBuffer = NULL;
    AFSDeviceExt *pDevExt = (AFSDeviceExt *)AFSControlDeviceObject->DeviceExtension;
    KAPC stApcState;

    __Enter
    {

        if( pDevExt->Specific.Control.ServiceProcess == NULL)
        {

            try_return( ntStatus = STATUS_DEVICE_NOT_READY);
        }

        if( Mdl != NULL)
        {

            //
            // Attach to the service process for mapping
            //

            KeStackAttachProcess( pDevExt->Specific.Control.ServiceProcess,
                                  (PRKAPC_STATE)&stApcState);

            MmUnmapLockedPages( MappedBuffer,
                                Mdl);

            KeUnstackDetachProcess( (PRKAPC_STATE)&stApcState);
        }

try_exit:

        NOTHING;
    }

    return ntStatus;
}

NTSTATUS
AFSInitializeLibraryDevice()
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDeviceExt *pDeviceExt = NULL;

    __Enter
    {

        pDeviceExt = (AFSDeviceExt *)AFSLibraryDeviceObject->DeviceExtension;

        //
        // The PIOCtl file name
        //

        RtlInitUnicodeString( &AFSPIOCtlName,
                              AFS_PIOCTL_FILE_INTERFACE_NAME);

        //
        // And the global root share name
        //

        RtlInitUnicodeString( &AFSGlobalRootName,
                              AFS_GLOBAL_ROOT_SHARE_NAME);

    }

    return ntStatus;
}

NTSTATUS
AFSRemoveLibraryDevice()
{

    NTSTATUS ntStatus = STATUS_SUCCESS;

    __Enter
    {

    }

    return ntStatus;
}

NTSTATUS
AFSDefaultDispatch( IN PDEVICE_OBJECT DeviceObject,
                    IN PIRP Irp)
{

    NTSTATUS            ntStatus = STATUS_INVALID_DEVICE_REQUEST;
    PIO_STACK_LOCATION  pIrpSp = IoGetCurrentIrpStackLocation( Irp);

    AFSCompleteRequest( Irp,
                        ntStatus);

    return ntStatus;
}

NTSTATUS
AFSInitializeGlobalDirectoryEntries()
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDirectoryCB *pDirNode = NULL;
    ULONG ulEntryLength = 0;
    AFSDeviceExt *pDeviceExt = (AFSDeviceExt *)AFSRDRDeviceObject->DeviceExtension;
    AFSObjectInfoCB *pObjectInfoCB = NULL;
    AFSNonPagedDirectoryCB *pNonPagedDirEntry = NULL;
    LONG lCount;

    __Enter
    {

        //
        // Initialize the global . entry
        //

        pObjectInfoCB = AFSAllocateObjectInfo( &AFSGlobalRoot->ObjectInformation,
                                               0);

        if( pObjectInfoCB == NULL)
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_LOAD_LIBRARY | AFS_SUBSYSTEM_INIT_PROCESSING,
                          AFS_TRACE_LEVEL_ERROR,
                          "AFSInitializeGlobalDirectory AFSAllocateObjectInfo failure %08lX\n",
                          ntStatus);

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        lCount = InterlockedIncrement( &pObjectInfoCB->ObjectReferenceCount);

        AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInitializeGlobalDirectoryEntries Increment count on object %08lX Cnt %d\n",
                      pObjectInfoCB,
                      lCount);

        ntStatus = STATUS_SUCCESS;

        ulEntryLength = sizeof( AFSDirectoryCB) +
                                     sizeof( WCHAR);

        pDirNode = (AFSDirectoryCB *)AFSLibExAllocatePoolWithTag( PagedPool,
                                                                  ulEntryLength,
                                                                  AFS_DIR_ENTRY_TAG);

        if( pDirNode == NULL)
        {

            AFSDeleteObjectInfo( pObjectInfoCB);

            AFSDbgLogMsg( AFS_SUBSYSTEM_LOAD_LIBRARY | AFS_SUBSYSTEM_INIT_PROCESSING,
                          AFS_TRACE_LEVEL_ERROR,
                          "AFSInitializeGlobalDirectory AFS_DIR_ENTRY_TAG allocation failure\n");

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        pNonPagedDirEntry = (AFSNonPagedDirectoryCB *)AFSLibExAllocatePoolWithTag( NonPagedPool,
                                                                                   sizeof( AFSNonPagedDirectoryCB),
                                                                                   AFS_DIR_ENTRY_NP_TAG);

        if( pNonPagedDirEntry == NULL)
        {

            ExFreePool( pDirNode);

            AFSDeleteObjectInfo( pObjectInfoCB);

            AFSDbgLogMsg( AFS_SUBSYSTEM_LOAD_LIBRARY | AFS_SUBSYSTEM_INIT_PROCESSING,
                          AFS_TRACE_LEVEL_ERROR,
                          "AFSInitializeGlobalDirectory AFS_DIR_ENTRY_NP_TAG allocation failure\n");

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        RtlZeroMemory( pDirNode,
                       ulEntryLength);

        RtlZeroMemory( pNonPagedDirEntry,
                       sizeof( AFSNonPagedDirectoryCB));

        ExInitializeResourceLite( &pNonPagedDirEntry->Lock);

        pDirNode->NonPaged = pNonPagedDirEntry;

        pDirNode->ObjectInformation = pObjectInfoCB;

        //
        // Set valid entry
        //

        SetFlag( pDirNode->Flags, AFS_DIR_ENTRY_NOT_IN_PARENT_TREE | AFS_DIR_ENTRY_FAKE | AFS_DIR_ENTRY_VALID);

        pDirNode->FileIndex = (ULONG)AFS_DIR_ENTRY_DOT_INDEX;

        //
        // Setup the names in the entry
        //

        pDirNode->NameInformation.FileName.Length = sizeof( WCHAR);

        pDirNode->NameInformation.FileName.MaximumLength = sizeof( WCHAR);

        pDirNode->NameInformation.FileName.Buffer = (WCHAR *)((char *)pDirNode + sizeof( AFSDirectoryCB));

        pDirNode->NameInformation.FileName.Buffer[ 0] = L'.';

        //
        // Populate the rest of the data
        //

        pObjectInfoCB->FileType = AFS_FILE_TYPE_DIRECTORY;

        pObjectInfoCB->FileAttributes = FILE_ATTRIBUTE_DIRECTORY;

        AFSGlobalDotDirEntry = pDirNode;

        //
        // Now the .. entry
        //

        pObjectInfoCB = AFSAllocateObjectInfo( &AFSGlobalRoot->ObjectInformation,
                                               0);

        if( pObjectInfoCB == NULL)
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_LOAD_LIBRARY | AFS_SUBSYSTEM_INIT_PROCESSING,
                          AFS_TRACE_LEVEL_ERROR,
                          "AFSInitializeGlobalDirectory AFSAllocateObjectInfo (2) failure %08lX\n",
                          ntStatus);

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        lCount = InterlockedIncrement( &pObjectInfoCB->ObjectReferenceCount);

        AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInitializeGlobalDirectoryEntries Increment count on object %08lX Cnt %d\n",
                      pObjectInfoCB,
                      lCount);

        ntStatus = STATUS_SUCCESS;

        ulEntryLength = sizeof( AFSDirectoryCB) +
                                     ( 2 * sizeof( WCHAR));

        pDirNode = (AFSDirectoryCB *)AFSLibExAllocatePoolWithTag( PagedPool,
                                                                  ulEntryLength,
                                                                  AFS_DIR_ENTRY_TAG);

        if( pDirNode == NULL)
        {

            AFSDeleteObjectInfo( pObjectInfoCB);

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        pNonPagedDirEntry = (AFSNonPagedDirectoryCB *)AFSLibExAllocatePoolWithTag( NonPagedPool,
                                                                                   sizeof( AFSNonPagedDirectoryCB),
                                                                                   AFS_DIR_ENTRY_NP_TAG);

        if( pNonPagedDirEntry == NULL)
        {

            ExFreePool( pDirNode);

            AFSDeleteObjectInfo( pObjectInfoCB);

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        RtlZeroMemory( pDirNode,
                       ulEntryLength);

        RtlZeroMemory( pNonPagedDirEntry,
                       sizeof( AFSNonPagedDirectoryCB));

        ExInitializeResourceLite( &pNonPagedDirEntry->Lock);

        pDirNode->NonPaged = pNonPagedDirEntry;

        pDirNode->ObjectInformation = pObjectInfoCB;

        //
        // Set valid entry
        //

        SetFlag( pDirNode->Flags, AFS_DIR_ENTRY_NOT_IN_PARENT_TREE | AFS_DIR_ENTRY_FAKE | AFS_DIR_ENTRY_VALID);

        pDirNode->FileIndex = (ULONG)AFS_DIR_ENTRY_DOT_DOT_INDEX;

        //
        // Setup the names in the entry
        //

        pDirNode->NameInformation.FileName.Length = 2 * sizeof( WCHAR);

        pDirNode->NameInformation.FileName.MaximumLength = 2 * sizeof( WCHAR);

        pDirNode->NameInformation.FileName.Buffer = (WCHAR *)((char *)pDirNode + sizeof( AFSDirectoryCB));

        pDirNode->NameInformation.FileName.Buffer[ 0] = L'.';

        pDirNode->NameInformation.FileName.Buffer[ 1] = L'.';

        //
        // Populate the rest of the data
        //

        pObjectInfoCB->FileType = AFS_FILE_TYPE_DIRECTORY;

        pObjectInfoCB->FileAttributes = FILE_ATTRIBUTE_DIRECTORY;

        AFSGlobalDotDotDirEntry = pDirNode;

try_exit:

        if( !NT_SUCCESS( ntStatus))
        {

            if( AFSGlobalDotDirEntry != NULL)
            {

                AFSDeleteObjectInfo( AFSGlobalDotDirEntry->ObjectInformation);

                ExDeleteResourceLite( &AFSGlobalDotDirEntry->NonPaged->Lock);

                ExFreePool( AFSGlobalDotDirEntry->NonPaged);

                ExFreePool( AFSGlobalDotDirEntry);

                AFSGlobalDotDirEntry = NULL;
            }

            if( AFSGlobalDotDotDirEntry != NULL)
            {

                AFSDeleteObjectInfo( AFSGlobalDotDotDirEntry->ObjectInformation);

                ExDeleteResourceLite( &AFSGlobalDotDotDirEntry->NonPaged->Lock);

                ExFreePool( AFSGlobalDotDotDirEntry->NonPaged);

                ExFreePool( AFSGlobalDotDotDirEntry);

                AFSGlobalDotDotDirEntry = NULL;
            }
        }
    }

    return ntStatus;
}

AFSDirectoryCB *
AFSInitDirEntry( IN AFSObjectInfoCB *ParentObjectInfo,
                 IN PUNICODE_STRING FileName,
                 IN PUNICODE_STRING TargetName,
                 IN AFSDirEnumEntry *DirEnumEntry,
                 IN ULONG FileIndex)
{

    AFSDirectoryCB *pDirNode = NULL;
    NTSTATUS ntStatus = STATUS_SUCCESS;
    ULONG ulEntryLength = 0;
    AFSDirEnumEntry *pDirEnumCB = NULL;
    AFSFileID stTargetFileID;
    AFSFcb *pVcb = NULL;
    AFSDeviceExt *pDeviceExt = (AFSDeviceExt *)AFSRDRDeviceObject->DeviceExtension;
    AFSObjectInfoCB *pObjectInfoCB = NULL;
    BOOLEAN bAllocatedObjectCB = FALSE;
    ULONGLONG ullIndex = 0;
    AFSNonPagedDirectoryCB *pNonPagedDirEntry = NULL;
    LONG lCount;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInitDirEntry Initializing entry %wZ parent FID %08lX-%08lX-%08lX-%08lX\n",
                      FileName,
                      ParentObjectInfo->FileId.Cell,
                      ParentObjectInfo->FileId.Volume,
                      ParentObjectInfo->FileId.Vnode,
                      ParentObjectInfo->FileId.Unique);

        //
        // First thing is to locate/create our object information block
        // for this entry
        //

        AFSAcquireExcl( ParentObjectInfo->VolumeCB->ObjectInfoTree.TreeLock,
                        TRUE);

        ullIndex = AFSCreateLowIndex( &DirEnumEntry->FileId);

        ntStatus = AFSLocateHashEntry( ParentObjectInfo->VolumeCB->ObjectInfoTree.TreeHead,
                                       ullIndex,
                                       (AFSBTreeEntry **)&pObjectInfoCB);

        if( !NT_SUCCESS( ntStatus) ||
            pObjectInfoCB == NULL)
        {

            //
            // Allocate our object info cb
            //

            pObjectInfoCB = AFSAllocateObjectInfo( ParentObjectInfo,
                                                   ullIndex);

            if( pObjectInfoCB == NULL)
            {

                AFSReleaseResource( ParentObjectInfo->VolumeCB->ObjectInfoTree.TreeLock);

                try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
            }

            bAllocatedObjectCB = TRUE;

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInitDirEntry initialized object %08lX Parent Object %08lX for %wZ\n",
                          pObjectInfoCB,
                          ParentObjectInfo,
                          FileName);
        }

        lCount = InterlockedIncrement( &pObjectInfoCB->ObjectReferenceCount);

        AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInitDirEntry Increment count on object %08lX Cnt %d\n",
                      pObjectInfoCB,
                      lCount);

        AFSReleaseResource( ParentObjectInfo->VolumeCB->ObjectInfoTree.TreeLock);

        ntStatus = STATUS_SUCCESS;

        ulEntryLength = sizeof( AFSDirectoryCB) +
                                     FileName->Length;

        if( TargetName != NULL)
        {

            ulEntryLength += TargetName->Length;
        }

        pDirNode = (AFSDirectoryCB *)AFSExAllocatePoolWithTag( PagedPool,
                                                               ulEntryLength,
                                                               AFS_DIR_ENTRY_TAG);

        if( pDirNode == NULL)
        {

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        pNonPagedDirEntry = (AFSNonPagedDirectoryCB *)AFSExAllocatePoolWithTag( NonPagedPool,
                                                                                sizeof( AFSNonPagedDirectoryCB),
                                                                                AFS_DIR_ENTRY_NP_TAG);

        if( pNonPagedDirEntry == NULL)
        {

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        RtlZeroMemory( pDirNode,
                       ulEntryLength);

        RtlZeroMemory( pNonPagedDirEntry,
                       sizeof( AFSNonPagedDirectoryCB));

        ExInitializeResourceLite( &pNonPagedDirEntry->Lock);

        pDirNode->NonPaged = pNonPagedDirEntry;

        pDirNode->ObjectInformation = pObjectInfoCB;

        //
        // Set valid entry and NOT_IN_PARENT flag
        //

        SetFlag( pDirNode->Flags, AFS_DIR_ENTRY_VALID | AFS_DIR_ENTRY_NOT_IN_PARENT_TREE);

        pDirNode->FileIndex = FileIndex;

        //
        // Setup the names in the entry
        //

        if( FileName->Length > 0)
        {

            pDirNode->NameInformation.FileName.Length = FileName->Length;

            pDirNode->NameInformation.FileName.MaximumLength = FileName->Length;

            pDirNode->NameInformation.FileName.Buffer = (WCHAR *)((char *)pDirNode + sizeof( AFSDirectoryCB));

            RtlCopyMemory( pDirNode->NameInformation.FileName.Buffer,
                           FileName->Buffer,
                           pDirNode->NameInformation.FileName.Length);

            //
            // Create a CRC for the file
            //

            pDirNode->CaseSensitiveTreeEntry.HashIndex = AFSGenerateCRC( &pDirNode->NameInformation.FileName,
                                                                         FALSE);

            pDirNode->CaseInsensitiveTreeEntry.HashIndex = AFSGenerateCRC( &pDirNode->NameInformation.FileName,
                                                                           TRUE);
        }

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInitDirEntry Initialized DE %p for %wZ in parent FID %08lX-%08lX-%08lX-%08lX\n",
                      pDirNode,
                      FileName,
                      ParentObjectInfo->FileId.Cell,
                      ParentObjectInfo->FileId.Volume,
                      ParentObjectInfo->FileId.Vnode,
                      ParentObjectInfo->FileId.Unique);

        if( TargetName != NULL &&
            TargetName->Length > 0)
        {

            pDirNode->NameInformation.TargetName.Length = TargetName->Length;

            pDirNode->NameInformation.TargetName.MaximumLength = pDirNode->NameInformation.TargetName.Length;

            pDirNode->NameInformation.TargetName.Buffer = (WCHAR *)((char *)pDirNode +
                                                                            sizeof( AFSDirectoryCB) +
                                                                            pDirNode->NameInformation.FileName.Length);

            RtlCopyMemory( pDirNode->NameInformation.TargetName.Buffer,
                           TargetName->Buffer,
                           pDirNode->NameInformation.TargetName.Length);
        }

        //
        // If we allocated the object information cb then update the information
        //

        if( bAllocatedObjectCB)
        {

            //
            // Populate the rest of the data
            //

            pObjectInfoCB->FileId = DirEnumEntry->FileId;

            pObjectInfoCB->TargetFileId = DirEnumEntry->TargetFileId;

            pObjectInfoCB->FileType = DirEnumEntry->FileType;

            pObjectInfoCB->CreationTime = DirEnumEntry->CreationTime;

            pObjectInfoCB->LastAccessTime = DirEnumEntry->LastAccessTime;

            pObjectInfoCB->LastWriteTime = DirEnumEntry->LastWriteTime;

            pObjectInfoCB->ChangeTime = DirEnumEntry->ChangeTime;

            pObjectInfoCB->EndOfFile = DirEnumEntry->EndOfFile;

            pObjectInfoCB->AllocationSize = DirEnumEntry->AllocationSize;

            pObjectInfoCB->FileAttributes = DirEnumEntry->FileAttributes;

            if( pObjectInfoCB->FileType == AFS_FILE_TYPE_MOUNTPOINT)
            {

                pObjectInfoCB->FileAttributes = (FILE_ATTRIBUTE_DIRECTORY | FILE_ATTRIBUTE_REPARSE_POINT);
            }

            if (pObjectInfoCB->FileType == AFS_FILE_TYPE_SYMLINK ||
                pObjectInfoCB->FileType == AFS_FILE_TYPE_DFSLINK)
            {

                pObjectInfoCB->FileAttributes = FILE_ATTRIBUTE_REPARSE_POINT;
            }

            pObjectInfoCB->EaSize = DirEnumEntry->EaSize;

            //
            // Object specific information
            //

            pObjectInfoCB->Links = DirEnumEntry->Links;

            pObjectInfoCB->Expiration = DirEnumEntry->Expiration;

            pObjectInfoCB->DataVersion = DirEnumEntry->DataVersion;

            //
            // Check for the case where we have a filetype of SymLink but both the TargetFid and the
            // TargetName are empty. In this case set the filetype to zero so we evaluate it later in
            // the code
            //

            if( pObjectInfoCB->FileType == AFS_FILE_TYPE_SYMLINK &&
                pObjectInfoCB->TargetFileId.Vnode == 0 &&
                pObjectInfoCB->TargetFileId.Unique == 0 &&
                pDirNode->NameInformation.TargetName.Length == 0)
            {

                //
                // This will ensure we perform a validation on the node
                //

                pObjectInfoCB->FileType = AFS_FILE_TYPE_UNKNOWN;
            }

            if( pObjectInfoCB->FileType == AFS_FILE_TYPE_UNKNOWN)
            {

                SetFlag( pObjectInfoCB->Flags, AFS_OBJECT_FLAGS_NOT_EVALUATED);
            }
        }

try_exit:

        if( !NT_SUCCESS( ntStatus))
        {

            if( pNonPagedDirEntry != NULL)
            {

                ExDeleteResourceLite( &pNonPagedDirEntry->Lock);

                AFSExFreePool( pNonPagedDirEntry);
            }

            if( pDirNode != NULL)
            {

                AFSExFreePool( pDirNode);

                pDirNode = NULL;
            }

            //
            // Dereference our object info block if we have one
            //

            if( pObjectInfoCB != NULL)
            {

                lCount = InterlockedDecrement( &pObjectInfoCB->ObjectReferenceCount);

                AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInitDirEntry Decrement count on object %08lX Cnt %d\n",
                              pObjectInfoCB,
                              lCount);

                if( bAllocatedObjectCB)
                {

                    ASSERT( pObjectInfoCB->ObjectReferenceCount == 0);

                    AFSDeleteObjectInfo( pObjectInfoCB);
                }
            }
        }
    }

    return pDirNode;
}

BOOLEAN
AFSCheckForReadOnlyAccess( IN ACCESS_MASK DesiredAccess,
                           IN BOOLEAN DirectoryEntry)
{

    BOOLEAN bReturn = TRUE;
    ACCESS_MASK stAccessMask = 0;

    //
    // Get rid of anything we don't know about
    //

    DesiredAccess = (DesiredAccess   &
                          ( DELETE |
                            READ_CONTROL |
                            WRITE_OWNER |
                            WRITE_DAC |
                            SYNCHRONIZE |
                            ACCESS_SYSTEM_SECURITY |
                            FILE_WRITE_DATA |
                            FILE_READ_EA |
                            FILE_WRITE_EA |
                            FILE_READ_ATTRIBUTES |
                            FILE_WRITE_ATTRIBUTES |
                            FILE_LIST_DIRECTORY |
                            FILE_TRAVERSE |
                            FILE_DELETE_CHILD |
                            FILE_APPEND_DATA));

    //
    // Our 'read only' access mask. These are the accesses we will
    // allow for a read only file
    //

    stAccessMask = DELETE |
                        READ_CONTROL |
                        WRITE_OWNER |
                        WRITE_DAC |
                        SYNCHRONIZE |
                        ACCESS_SYSTEM_SECURITY |
                        FILE_READ_DATA |
                        FILE_READ_EA |
                        FILE_WRITE_EA |
                        FILE_READ_ATTRIBUTES |
                        FILE_WRITE_ATTRIBUTES |
                        FILE_EXECUTE |
                        FILE_LIST_DIRECTORY |
                        FILE_TRAVERSE;

    //
    // For a directory, add in the directory specific accesses
    //

    if( DirectoryEntry)
    {

        stAccessMask |= FILE_ADD_SUBDIRECTORY |
                                FILE_ADD_FILE |
                                FILE_DELETE_CHILD;
    }

    if( FlagOn( DesiredAccess, ~stAccessMask))
    {

        //
        // A write access is set ...
        //

        bReturn = FALSE;
    }

    return bReturn;
}

NTSTATUS
AFSEvaluateNode( IN GUID *AuthGroup,
                 IN AFSDirectoryCB *DirEntry)
{

    AFSDeviceExt *pDeviceExt = (AFSDeviceExt *)AFSRDRDeviceObject->DeviceExtension;
    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDirEnumEntry *pDirEntry = NULL;
    UNICODE_STRING uniTargetName;

    __Enter
    {

        ntStatus = AFSEvaluateTargetByID( DirEntry->ObjectInformation,
                                          AuthGroup,
                                          FALSE,
                                          &pDirEntry);

        if( !NT_SUCCESS( ntStatus))
        {

            try_return( ntStatus);
        }

        DirEntry->ObjectInformation->TargetFileId = pDirEntry->TargetFileId;

        DirEntry->ObjectInformation->Expiration = pDirEntry->Expiration;

        DirEntry->ObjectInformation->DataVersion = pDirEntry->DataVersion;

        DirEntry->ObjectInformation->FileType = pDirEntry->FileType;

        DirEntry->ObjectInformation->CreationTime = pDirEntry->CreationTime;

        DirEntry->ObjectInformation->LastAccessTime = pDirEntry->LastAccessTime;

        DirEntry->ObjectInformation->LastWriteTime = pDirEntry->LastWriteTime;

        DirEntry->ObjectInformation->ChangeTime = pDirEntry->ChangeTime;

        DirEntry->ObjectInformation->EndOfFile = pDirEntry->EndOfFile;

        DirEntry->ObjectInformation->AllocationSize = pDirEntry->AllocationSize;

        DirEntry->ObjectInformation->FileAttributes = pDirEntry->FileAttributes;

        if( pDirEntry->FileType == AFS_FILE_TYPE_MOUNTPOINT)
        {

            DirEntry->ObjectInformation->FileAttributes = (FILE_ATTRIBUTE_DIRECTORY | FILE_ATTRIBUTE_REPARSE_POINT);
        }

        if( pDirEntry->FileType == AFS_FILE_TYPE_SYMLINK ||
            pDirEntry->FileType == AFS_FILE_TYPE_DFSLINK)
        {

            DirEntry->ObjectInformation->FileAttributes = FILE_ATTRIBUTE_REPARSE_POINT;
        }

        DirEntry->ObjectInformation->EaSize = pDirEntry->EaSize;

        DirEntry->ObjectInformation->Links = pDirEntry->Links;

        //
        // If we have a target name then see if it needs updating ...
        //

        if( pDirEntry->TargetNameLength > 0)
        {

            //
            // Update the target name information if needed
            //

            uniTargetName.Length = (USHORT)pDirEntry->TargetNameLength;

            uniTargetName.MaximumLength = uniTargetName.Length;

            uniTargetName.Buffer = (WCHAR *)((char *)pDirEntry + pDirEntry->TargetNameOffset);

            AFSAcquireExcl( &DirEntry->NonPaged->Lock,
                            TRUE);

            if( DirEntry->NameInformation.TargetName.Length == 0 ||
                RtlCompareUnicodeString( &uniTargetName,
                                         &DirEntry->NameInformation.TargetName,
                                         TRUE) != 0)
            {

                //
                // Update the target name
                //

                ntStatus = AFSUpdateTargetName( &DirEntry->NameInformation.TargetName,
                                                &DirEntry->Flags,
                                                uniTargetName.Buffer,
                                                uniTargetName.Length);

                if( !NT_SUCCESS( ntStatus))
                {

                    AFSReleaseResource( &DirEntry->NonPaged->Lock);

                    try_return( ntStatus);
                }
            }

            AFSReleaseResource( &DirEntry->NonPaged->Lock);
        }

try_exit:

        if( pDirEntry != NULL)
        {

            AFSExFreePool( pDirEntry);
        }
    }

    return ntStatus;
}

NTSTATUS
AFSValidateSymLink( IN GUID *AuthGroup,
                    IN AFSDirectoryCB *DirEntry)
{

    AFSDeviceExt *pDeviceExt = (AFSDeviceExt *)AFSRDRDeviceObject->DeviceExtension;
    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDirEnumEntry *pDirEntry = NULL;
    UNICODE_STRING uniTargetName;

    __Enter
    {

        ntStatus = AFSEvaluateTargetByID( DirEntry->ObjectInformation,
                                          AuthGroup,
                                          FALSE,
                                          &pDirEntry);

        if( !NT_SUCCESS( ntStatus))
        {

            try_return( ntStatus);
        }

        if( pDirEntry->FileType == AFS_FILE_TYPE_UNKNOWN ||
            pDirEntry->FileType == AFS_FILE_TYPE_INVALID)
        {

            try_return( ntStatus = STATUS_OBJECT_NAME_NOT_FOUND);
        }

        DirEntry->ObjectInformation->TargetFileId = pDirEntry->TargetFileId;

        DirEntry->ObjectInformation->Expiration = pDirEntry->Expiration;

        DirEntry->ObjectInformation->DataVersion = pDirEntry->DataVersion;

        //
        // Update the target name information if needed
        //

        uniTargetName.Length = (USHORT)pDirEntry->TargetNameLength;

        uniTargetName.MaximumLength = uniTargetName.Length;

        uniTargetName.Buffer = (WCHAR *)((char *)pDirEntry + pDirEntry->TargetNameOffset);

        if( uniTargetName.Length > 0)
        {

            AFSAcquireExcl( &DirEntry->NonPaged->Lock,
                            TRUE);

            if( DirEntry->NameInformation.TargetName.Length == 0 ||
                RtlCompareUnicodeString( &uniTargetName,
                                         &DirEntry->NameInformation.TargetName,
                                         TRUE) != 0)
            {

                //
                // Update the target name
                //

                ntStatus = AFSUpdateTargetName( &DirEntry->NameInformation.TargetName,
                                                &DirEntry->Flags,
                                                uniTargetName.Buffer,
                                                uniTargetName.Length);

                if( !NT_SUCCESS( ntStatus))
                {

                    AFSReleaseResource( &DirEntry->NonPaged->Lock);

                    try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
                }
            }

            AFSReleaseResource( &DirEntry->NonPaged->Lock);
        }

        //
        // If the FileType is the same then nothing to do since it IS
        // a SymLink
        //

        if( pDirEntry->FileType == DirEntry->ObjectInformation->FileType)
        {

            ASSERT( pDirEntry->FileType == AFS_FILE_TYPE_SYMLINK);

            try_return( ntStatus = STATUS_SUCCESS);
        }

        DirEntry->ObjectInformation->FileType = pDirEntry->FileType;

        DirEntry->ObjectInformation->CreationTime = pDirEntry->CreationTime;

        DirEntry->ObjectInformation->LastAccessTime = pDirEntry->LastAccessTime;

        DirEntry->ObjectInformation->LastWriteTime = pDirEntry->LastWriteTime;

        DirEntry->ObjectInformation->ChangeTime = pDirEntry->ChangeTime;

        DirEntry->ObjectInformation->EndOfFile = pDirEntry->EndOfFile;

        DirEntry->ObjectInformation->AllocationSize = pDirEntry->AllocationSize;

        DirEntry->ObjectInformation->FileAttributes = pDirEntry->FileAttributes;

        if( pDirEntry->FileType == AFS_FILE_TYPE_MOUNTPOINT)
        {

            DirEntry->ObjectInformation->FileAttributes = (FILE_ATTRIBUTE_DIRECTORY | FILE_ATTRIBUTE_REPARSE_POINT);
        }

        if( pDirEntry->FileType == AFS_FILE_TYPE_SYMLINK ||
            pDirEntry->FileType == AFS_FILE_TYPE_DFSLINK)
        {

            DirEntry->ObjectInformation->FileAttributes = FILE_ATTRIBUTE_REPARSE_POINT;
        }

        DirEntry->ObjectInformation->EaSize = pDirEntry->EaSize;

        DirEntry->ObjectInformation->Links = pDirEntry->Links;

try_exit:

        if( pDirEntry != NULL)
        {

            AFSExFreePool( pDirEntry);
        }
    }

    return ntStatus;
}

NTSTATUS
AFSInvalidateObject( IN OUT AFSObjectInfoCB **ppObjectInfo,
                     IN     ULONG Reason)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    IO_STATUS_BLOCK stIoStatus;
    ULONG ulFilter = 0;

    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                  AFS_TRACE_LEVEL_VERBOSE,
                  "AFSInvalidateObject Invalidation on node type %d for fid %08lX-%08lX-%08lX-%08lX Reason %d\n",
                  (*ppObjectInfo)->FileType,
                  (*ppObjectInfo)->FileId.Cell,
                  (*ppObjectInfo)->FileId.Volume,
                  (*ppObjectInfo)->FileId.Vnode,
                  (*ppObjectInfo)->FileId.Unique,
                  Reason);

    if( (*ppObjectInfo)->FileType == AFS_FILE_TYPE_SYMLINK ||
        (*ppObjectInfo)->FileType == AFS_FILE_TYPE_DFSLINK ||
        (*ppObjectInfo)->FileType == AFS_FILE_TYPE_MOUNTPOINT)
    {
        //
        // We only act on the mount point itself, not the target. If the
        // node has been deleted then mark it as such otherwise indicate
        // it requires verification
        //

        if( Reason == AFS_INVALIDATE_DELETED)
        {
            SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_OBJECT_INVALID);
        }
        else
        {

            if( Reason == AFS_INVALIDATE_FLUSHED)
            {

                (*ppObjectInfo)->DataVersion.QuadPart = (ULONGLONG)-1;

                SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_VERIFY_DATA);
            }

            (*ppObjectInfo)->Expiration.QuadPart = 0;

            (*ppObjectInfo)->TargetFileId.Vnode = 0;

            (*ppObjectInfo)->TargetFileId.Unique = 0;

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateObject Setting VERIFY flag on fid %08lX-%08lX-%08lX-%08lX\n",
                          (*ppObjectInfo)->FileId.Cell,
                          (*ppObjectInfo)->FileId.Volume,
                          (*ppObjectInfo)->FileId.Vnode,
                          (*ppObjectInfo)->FileId.Unique);

            SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_VERIFY);
        }

        ulFilter = FILE_NOTIFY_CHANGE_FILE_NAME;

        if( Reason == AFS_INVALIDATE_CREDS)
        {
            ulFilter |= FILE_NOTIFY_CHANGE_SECURITY;
        }

        if( Reason == AFS_INVALIDATE_DATA_VERSION ||
            Reason == AFS_INVALIDATE_FLUSHED)
        {
            ulFilter |= FILE_NOTIFY_CHANGE_SIZE | FILE_NOTIFY_CHANGE_LAST_WRITE;
        }
        else
        {
            ulFilter |= FILE_NOTIFY_CHANGE_ATTRIBUTES;
        }

        AFSFsRtlNotifyFullReportChange( (*ppObjectInfo)->ParentObjectInformation,
                                        NULL,
                                        FILE_NOTIFY_CHANGE_FILE_NAME |
                                        FILE_NOTIFY_CHANGE_ATTRIBUTES,
                                        FILE_ACTION_MODIFIED);

        try_return( ntStatus);
    }

    //
    // Depending on the reason for invalidation then perform work on the node
    //

    switch( Reason)
    {

    case AFS_INVALIDATE_DELETED:
        {

            //
            // Mark this node as invalid
            //

            SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_DELETED);

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateObject Set DELETE flag on fid %08lX-%08lX-%08lX-%08lX\n",
                          (*ppObjectInfo)->FileId.Cell,
                          (*ppObjectInfo)->FileId.Volume,
                          (*ppObjectInfo)->FileId.Vnode,
                          (*ppObjectInfo)->FileId.Unique);

            if( (*ppObjectInfo)->ParentObjectInformation != NULL)
            {

                AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateObject Set VERIFY flag on parent fid %08lX-%08lX-%08lX-%08lX\n",
                              (*ppObjectInfo)->ParentObjectInformation->FileId.Cell,
                              (*ppObjectInfo)->ParentObjectInformation->FileId.Volume,
                              (*ppObjectInfo)->ParentObjectInformation->FileId.Vnode,
                              (*ppObjectInfo)->ParentObjectInformation->FileId.Unique);

                SetFlag( (*ppObjectInfo)->ParentObjectInformation->Flags, AFS_OBJECT_FLAGS_VERIFY);

                (*ppObjectInfo)->ParentObjectInformation->DataVersion.QuadPart = (ULONGLONG)-1;

                (*ppObjectInfo)->ParentObjectInformation->Expiration.QuadPart = 0;
            }

            if( (*ppObjectInfo)->FileType == AFS_FILE_TYPE_DIRECTORY)
            {
                ulFilter = FILE_NOTIFY_CHANGE_DIR_NAME;
            }
            else
            {
                ulFilter = FILE_NOTIFY_CHANGE_FILE_NAME;
            }

            AFSFsRtlNotifyFullReportChange( (*ppObjectInfo)->ParentObjectInformation,
                                            NULL,
                                            ulFilter,
                                            FILE_ACTION_REMOVED);

            if( NT_SUCCESS( AFSQueueInvalidateObject( (*ppObjectInfo),
                                                      Reason)))
            {
                (*ppObjectInfo) = NULL; // We'll dec the count in the worker item
            }

            break;
        }

    case AFS_INVALIDATE_FLUSHED:
        {

            if( (*ppObjectInfo)->FileType == AFS_FILE_TYPE_FILE &&
                (*ppObjectInfo)->Fcb != NULL)
            {

                AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateObject Flush/purge file fid %08lX-%08lX-%08lX-%08lX\n",
                              (*ppObjectInfo)->FileId.Cell,
                              (*ppObjectInfo)->FileId.Volume,
                              (*ppObjectInfo)->FileId.Vnode,
                              (*ppObjectInfo)->FileId.Unique);

                AFSAcquireExcl( &(*ppObjectInfo)->Fcb->NPFcb->Resource,
                                TRUE);

                __try
                {

                    CcFlushCache( &(*ppObjectInfo)->Fcb->NPFcb->SectionObjectPointers,
                                  NULL,
                                  0,
                                  &stIoStatus);

                    if( !NT_SUCCESS( stIoStatus.Status))
                    {

                        AFSDbgLogMsg( AFS_SUBSYSTEM_IO_PROCESSING,
                                      AFS_TRACE_LEVEL_ERROR,
                                      "AFSInvalidateObject CcFlushCache failure FID %08lX-%08lX-%08lX-%08lX Status 0x%08lX Bytes 0x%08lX\n",
                                      (*ppObjectInfo)->FileId.Cell,
                                      (*ppObjectInfo)->FileId.Volume,
                                      (*ppObjectInfo)->FileId.Vnode,
                                      (*ppObjectInfo)->FileId.Unique,
                                      stIoStatus.Status,
                                      stIoStatus.Information);

                        ntStatus = stIoStatus.Status;
                    }

                    CcPurgeCacheSection( &(*ppObjectInfo)->Fcb->NPFcb->SectionObjectPointers,
                                         NULL,
                                         0,
                                         FALSE);
                }
                __except( EXCEPTION_EXECUTE_HANDLER)
                {

                    ntStatus = GetExceptionCode();
                }

                AFSReleaseResource( &(*ppObjectInfo)->Fcb->NPFcb->Resource);

                //
                // Clear out the extents
                // Get rid of them (note this involves waiting
                // for any writes or reads to the cache to complete)
                //

                (VOID) AFSTearDownFcbExtents( (*ppObjectInfo)->Fcb,
                                              NULL);
            }

            (*ppObjectInfo)->DataVersion.QuadPart = (ULONGLONG)-1;


            if( (*ppObjectInfo)->FileType == AFS_FILE_TYPE_FILE)
            {

                AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateObject Setting VERIFY_DATA flag on fid %08lX-%08lX-%08lX-%08lX\n",
                              (*ppObjectInfo)->FileId.Cell,
                              (*ppObjectInfo)->FileId.Volume,
                              (*ppObjectInfo)->FileId.Vnode,
                              (*ppObjectInfo)->FileId.Unique);

                SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_VERIFY_DATA);
            }

            // Fall through to the default processing
        }

    default:
        {

            if( (*ppObjectInfo)->FileType == AFS_FILE_TYPE_DIRECTORY)
            {
                ulFilter = FILE_NOTIFY_CHANGE_DIR_NAME;
            }
            else
            {
                ulFilter = FILE_NOTIFY_CHANGE_FILE_NAME;
            }

            if( Reason == AFS_INVALIDATE_CREDS)
            {
                ulFilter |= FILE_NOTIFY_CHANGE_SECURITY;
            }

            if( Reason == AFS_INVALIDATE_DATA_VERSION)
            {
                ulFilter |= FILE_NOTIFY_CHANGE_SIZE | FILE_NOTIFY_CHANGE_LAST_WRITE;
            }
            else
            {
                ulFilter |= FILE_NOTIFY_CHANGE_ATTRIBUTES;
            }

            AFSFsRtlNotifyFullReportChange( (*ppObjectInfo)->ParentObjectInformation,
                                            NULL,
                                            ulFilter,
                                            FILE_ACTION_MODIFIED);

            //
            // Indicate this node requires re-evaluation for the remaining reasons
            //

            (*ppObjectInfo)->Expiration.QuadPart = 0;

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateObject Setting VERIFY flag on fid %08lX-%08lX-%08lX-%08lX\n",
                          (*ppObjectInfo)->FileId.Cell,
                          (*ppObjectInfo)->FileId.Volume,
                          (*ppObjectInfo)->FileId.Vnode,
                          (*ppObjectInfo)->FileId.Unique);

            SetFlag( (*ppObjectInfo)->Flags, AFS_OBJECT_FLAGS_VERIFY);

            if( Reason == AFS_INVALIDATE_DATA_VERSION ||
                (*ppObjectInfo)->FileType == AFS_FILE_TYPE_FILE &&
                ( Reason == AFS_INVALIDATE_CALLBACK ||
                  Reason == AFS_INVALIDATE_EXPIRED))
            {
                if ( NT_SUCCESS( AFSQueueInvalidateObject( (*ppObjectInfo),
                                                           AFS_INVALIDATE_DATA_VERSION)))
                {

                    (*ppObjectInfo) = NULL; // We'll dec the count in the worker item
                }
            }

            break;
        }
    }

  try_exit:

    return ntStatus;
}

NTSTATUS
AFSInvalidateCache( IN AFSInvalidateCacheCB *InvalidateCB)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSFcb      *pDcb = NULL, *pFcb = NULL, *pNextFcb = NULL;
    AFSVolumeCB *pVolumeCB = NULL;
    AFSFcb      *pTargetDcb = NULL;
    AFSDeviceExt *pDevExt = (AFSDeviceExt *) AFSRDRDeviceObject->DeviceExtension;
    AFSDirectoryCB *pCurrentDirEntry = NULL;
    BOOLEAN     bIsChild = FALSE;
    ULONGLONG   ullIndex = 0;
    AFSObjectInfoCB *pObjectInfo = NULL;
    LONG lCount;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInvalidateCache Invalidation FID %08lX-%08lX-%08lX-%08lX Type %d WholeVolume %d Reason %d\n",
                      InvalidateCB->FileID.Cell,
                      InvalidateCB->FileID.Volume,
                      InvalidateCB->FileID.Vnode,
                      InvalidateCB->FileID.Unique,
                      InvalidateCB->FileType,
                      InvalidateCB->WholeVolume,
                      InvalidateCB->Reason);

        //
        // Need to locate the Fcb for the directory to purge
        //

        AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInvalidateCache Acquiring RDR VolumeTreeLock lock %08lX SHARED %08lX\n",
                      &pDevExt->Specific.RDR.VolumeTreeLock,
                      PsGetCurrentThread());

        //
        // Starve any exclusive waiters on this paticular call
        //

        AFSAcquireSharedStarveExclusive( &pDevExt->Specific.RDR.VolumeTreeLock, TRUE);

        //
        // Locate the volume node
        //

        ullIndex = AFSCreateHighIndex( &InvalidateCB->FileID);

        ntStatus = AFSLocateHashEntry( pDevExt->Specific.RDR.VolumeTree.TreeHead,
                                       ullIndex,
                                       (AFSBTreeEntry **)&pVolumeCB);

        if( pVolumeCB != NULL)
        {

            lCount = InterlockedIncrement( &pVolumeCB->VolumeReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_VOLUME_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateCache Increment count on volume %08lX Cnt %d\n",
                          pVolumeCB,
                          lCount);
        }

        AFSReleaseResource( &pDevExt->Specific.RDR.VolumeTreeLock);

        if( !NT_SUCCESS( ntStatus) ||
            pVolumeCB == NULL)
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_WARNING,
                          "AFSInvalidateCache Invalidation FAILURE Unable to locate volume node FID %08lX-%08lX-%08lX-%08lX Status %08lX\n",
                          InvalidateCB->FileID.Cell,
                          InvalidateCB->FileID.Volume,
                          InvalidateCB->FileID.Vnode,
                          InvalidateCB->FileID.Unique,
                          ntStatus);

            try_return( ntStatus = STATUS_SUCCESS);
        }

        //
        // If this is a whole volume invalidation then go do it now
        //

        if( InvalidateCB->WholeVolume)
        {

            ntStatus = AFSInvalidateVolume( pVolumeCB,
                                            InvalidateCB->Reason);

            lCount = InterlockedDecrement( &pVolumeCB->VolumeReferenceCount);

            try_return( ntStatus);
        }

        AFSAcquireShared( pVolumeCB->ObjectInfoTree.TreeLock,
                          TRUE);

        if ( AFSIsVolumeFID( &InvalidateCB->FileID))
        {

            pObjectInfo = &pVolumeCB->ObjectInformation;
        }
        else
        {

            lCount = InterlockedDecrement( &pVolumeCB->VolumeReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_VOLUME_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateCache Decrement count on volume %08lX Cnt %d\n",
                          pVolumeCB,
                          pVolumeCB->VolumeReferenceCount);

            ullIndex = AFSCreateLowIndex( &InvalidateCB->FileID);

            ntStatus = AFSLocateHashEntry( pVolumeCB->ObjectInfoTree.TreeHead,
                                           ullIndex,
                                           (AFSBTreeEntry **)&pObjectInfo);
        }

        if( pObjectInfo != NULL)
        {

            //
            // Reference the node so it won't be torn down
            //

            lCount = InterlockedIncrement( &pObjectInfo->ObjectReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateCache Increment count on object %08lX Cnt %d\n",
                          pObjectInfo,
                          lCount);
        }

        AFSReleaseResource( pVolumeCB->ObjectInfoTree.TreeLock);

        if( !NT_SUCCESS( ntStatus) ||
            pObjectInfo == NULL)
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_WARNING,
                          "AFSInvalidateCache Invalidation FAILURE Unable to locate object FID %08lX-%08lX-%08lX-%08lX Status %08lX\n",
                          InvalidateCB->FileID.Cell,
                          InvalidateCB->FileID.Volume,
                          InvalidateCB->FileID.Vnode,
                          InvalidateCB->FileID.Unique,
                          ntStatus);

            try_return( ntStatus = STATUS_SUCCESS);
        }

        AFSInvalidateObject( &pObjectInfo,
                             InvalidateCB->Reason);

try_exit:

        if( pObjectInfo != NULL)
        {

            lCount = InterlockedDecrement( &pObjectInfo->ObjectReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateCache Decrement count on object %08lX Cnt %d\n",
                          pObjectInfo,
                          lCount);
        }
    }

    return ntStatus;
}

BOOLEAN
AFSIsChildOfParent( IN AFSFcb *Dcb,
                    IN AFSFcb *Fcb)
{

    BOOLEAN bIsChild = FALSE;
    AFSFcb *pCurrentFcb = Fcb;

    while( pCurrentFcb != NULL)
    {

        if( pCurrentFcb->ObjectInformation->ParentObjectInformation == Dcb->ObjectInformation)
        {

            bIsChild = TRUE;

            break;
        }

        pCurrentFcb = pCurrentFcb->ObjectInformation->ParentObjectInformation->Fcb;
    }

    return bIsChild;
}

inline
ULONGLONG
AFSCreateHighIndex( IN AFSFileID *FileID)
{

    ULONGLONG ullIndex = 0;

    ullIndex = (((ULONGLONG)FileID->Cell << 32) | FileID->Volume);

    return ullIndex;
}

inline
ULONGLONG
AFSCreateLowIndex( IN AFSFileID *FileID)
{

    ULONGLONG ullIndex = 0;

    ullIndex = (((ULONGLONG)FileID->Vnode << 32) | FileID->Unique);

    return ullIndex;
}

BOOLEAN
AFSCheckAccess( IN ACCESS_MASK DesiredAccess,
                IN ACCESS_MASK GrantedAccess,
                IN BOOLEAN DirectoryEntry)
{

    BOOLEAN bAccessGranted = TRUE;

    //
    // Check if we are asking for read/write and granted only read only
    // NOTE: There will be more checks here
    //

    if( !AFSCheckForReadOnlyAccess( DesiredAccess,
                                    DirectoryEntry) &&
        AFSCheckForReadOnlyAccess( GrantedAccess,
                                   DirectoryEntry))
    {

        bAccessGranted = FALSE;
    }

    return bAccessGranted;
}

NTSTATUS
AFSGetDriverStatus( IN AFSDriverStatusRespCB *DriverStatus)
{

    NTSTATUS         ntStatus = STATUS_SUCCESS;
    AFSDeviceExt    *pControlDevExt = (AFSDeviceExt *)AFSControlDeviceObject->DeviceExtension;

    //
    // Start with read
    //

    DriverStatus->Status = AFS_DRIVER_STATUS_READY;

    if( AFSGlobalRoot == NULL)
    {

        //
        // We are not ready
        //

        DriverStatus->Status = AFS_DRIVER_STATUS_NOT_READY;
    }

    if( pControlDevExt->Specific.Control.CommServiceCB.IrpPoolControlFlag != POOL_ACTIVE)
    {

        //
        // No service yet
        //

        DriverStatus->Status = AFS_DRIVER_STATUS_NO_SERVICE;
    }

    return ntStatus;
}

NTSTATUS
AFSSubstituteSysName( IN UNICODE_STRING *ComponentName,
                      IN UNICODE_STRING *SubstituteName,
                      IN ULONG StringIndex)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDeviceExt    *pControlDevExt = (AFSDeviceExt *)AFSControlDeviceObject->DeviceExtension;
    AFSSysNameCB    *pSysName = NULL;
    ERESOURCE       *pSysNameLock = NULL;
    ULONG            ulIndex = 1;
    USHORT           usIndex = 0;
    UNICODE_STRING   uniSysName;

    __Enter
    {

#if defined(_WIN64)

        if( IoIs32bitProcess( NULL))
        {

            pSysNameLock = &pControlDevExt->Specific.Control.SysName32ListLock;

            pSysName = pControlDevExt->Specific.Control.SysName32ListHead;
        }
        else
        {

            pSysNameLock = &pControlDevExt->Specific.Control.SysName64ListLock;

            pSysName = pControlDevExt->Specific.Control.SysName64ListHead;
        }
#else

        pSysNameLock = &pControlDevExt->Specific.Control.SysName32ListLock;

        pSysName = pControlDevExt->Specific.Control.SysName32ListHead;

#endif

        AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSSubstituteSysName Acquiring SysName lock %08lX SHARED %08lX\n",
                      pSysNameLock,
                      PsGetCurrentThread());

        AFSAcquireShared( pSysNameLock,
                          TRUE);

        //
        // Find where we are in the list
        //

        while( pSysName != NULL &&
            ulIndex < StringIndex)
        {

            pSysName = pSysName->fLink;

            ulIndex++;
        }

        if( pSysName == NULL)
        {

            try_return( ntStatus = STATUS_OBJECT_NAME_NOT_FOUND);
        }

        RtlInitUnicodeString( &uniSysName,
                              L"@SYS");
        //
        // If it is a full component of @SYS then just substitue the
        // name in
        //

        if( RtlCompareUnicodeString( &uniSysName,
                                     ComponentName,
                                     TRUE) == 0)
        {

            SubstituteName->Length = pSysName->SysName.Length;
            SubstituteName->MaximumLength = SubstituteName->Length;

            SubstituteName->Buffer = (WCHAR *)AFSExAllocatePoolWithTag( PagedPool,
                                                                        SubstituteName->Length,
                                                                        AFS_SUBST_BUFFER_TAG);

            if( SubstituteName->Buffer == NULL)
            {

                try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
            }

            RtlCopyMemory( SubstituteName->Buffer,
                           pSysName->SysName.Buffer,
                           pSysName->SysName.Length);
        }
        else
        {

            usIndex = 0;

            while( ComponentName->Buffer[ usIndex] != L'@')
            {

                usIndex++;
            }

            SubstituteName->Length = (usIndex * sizeof( WCHAR)) + pSysName->SysName.Length;
            SubstituteName->MaximumLength = SubstituteName->Length;

            SubstituteName->Buffer = (WCHAR *)AFSExAllocatePoolWithTag( PagedPool,
                                                                        SubstituteName->Length,
                                                                        AFS_SUBST_BUFFER_TAG);

            if( SubstituteName->Buffer == NULL)
            {

                try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
            }

            RtlCopyMemory( SubstituteName->Buffer,
                           ComponentName->Buffer,
                           usIndex * sizeof( WCHAR));

            RtlCopyMemory( &SubstituteName->Buffer[ usIndex],
                           pSysName->SysName.Buffer,
                           pSysName->SysName.Length);
        }

try_exit:

        AFSReleaseResource( pSysNameLock);
    }

    return ntStatus;
}

NTSTATUS
AFSSubstituteNameInPath( IN OUT UNICODE_STRING *FullPathName,
                         IN OUT UNICODE_STRING *ComponentName,
                         IN UNICODE_STRING *SubstituteName,
                         IN OUT UNICODE_STRING *RemainingPath,
                         IN BOOLEAN FreePathName)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    UNICODE_STRING uniPathName;
    USHORT usPrefixNameLen = 0;
    SHORT  sNameLenDelta = 0;

    __Enter
    {

        //
        // If the passed in name can handle the additional length
        // then just moves things around
        //

        sNameLenDelta = SubstituteName->Length - ComponentName->Length;

        usPrefixNameLen = (USHORT)(ComponentName->Buffer - FullPathName->Buffer);

        if( FullPathName->MaximumLength > FullPathName->Length + sNameLenDelta)
        {

            if( FullPathName->Length > usPrefixNameLen + ComponentName->Length)
            {

                RtlMoveMemory( &FullPathName->Buffer[ ((usPrefixNameLen*sizeof( WCHAR) + SubstituteName->Length)/sizeof( WCHAR))],
                               &FullPathName->Buffer[ ((usPrefixNameLen*sizeof( WCHAR) + ComponentName->Length)/sizeof( WCHAR))],
                               FullPathName->Length - usPrefixNameLen*sizeof( WCHAR) - ComponentName->Length);
            }

            RtlCopyMemory( &FullPathName->Buffer[ usPrefixNameLen],
                           SubstituteName->Buffer,
                           SubstituteName->Length);

            FullPathName->Length += sNameLenDelta;

            ComponentName->Length += sNameLenDelta;

            ComponentName->MaximumLength = ComponentName->Length;

            if ( RemainingPath->Buffer)
            {

                RemainingPath->Buffer += sNameLenDelta/sizeof( WCHAR);
            }

            try_return( ntStatus);
        }

        //
        // Need to re-allocate the buffer
        //

        uniPathName.Length = FullPathName->Length -
                                         ComponentName->Length +
                                         SubstituteName->Length;

        uniPathName.MaximumLength = FullPathName->MaximumLength + PAGE_SIZE;

        uniPathName.Buffer = (WCHAR *)AFSExAllocatePoolWithTag( PagedPool,
                                                                uniPathName.MaximumLength,
                                                                AFS_NAME_BUFFER_FOUR_TAG);

        if( uniPathName.Buffer == NULL)
        {

            try_return( ntStatus = STATUS_INSUFFICIENT_RESOURCES);
        }

        usPrefixNameLen = (USHORT)(ComponentName->Buffer - FullPathName->Buffer);

        usPrefixNameLen *= sizeof( WCHAR);

        RtlZeroMemory( uniPathName.Buffer,
                       uniPathName.MaximumLength);

        RtlCopyMemory( uniPathName.Buffer,
                       FullPathName->Buffer,
                       usPrefixNameLen);

        RtlCopyMemory( &uniPathName.Buffer[ (usPrefixNameLen/sizeof( WCHAR))],
                       SubstituteName->Buffer,
                       SubstituteName->Length);

        if( FullPathName->Length > usPrefixNameLen + ComponentName->Length)
        {

            RtlCopyMemory( &uniPathName.Buffer[ (usPrefixNameLen + SubstituteName->Length)/sizeof( WCHAR)],
                           &FullPathName->Buffer[ (usPrefixNameLen + ComponentName->Length)/sizeof( WCHAR)],
                           FullPathName->Length - usPrefixNameLen - ComponentName->Length);
        }

        ComponentName->Buffer = uniPathName.Buffer + (ComponentName->Buffer - FullPathName->Buffer);

        ComponentName->Length += sNameLenDelta;

        ComponentName->MaximumLength = ComponentName->Length;

        if ( RemainingPath->Buffer)
        {

            RemainingPath->Buffer = uniPathName.Buffer
                + (RemainingPath->Buffer - FullPathName->Buffer)
                + sNameLenDelta/sizeof( WCHAR);
        }

        if( FreePathName)
        {
            AFSExFreePool( FullPathName->Buffer);
        }

        *FullPathName = uniPathName;

try_exit:

        NOTHING;
    }

    return ntStatus;
}

NTSTATUS
AFSInvalidateVolume( IN AFSVolumeCB *VolumeCB,
                     IN ULONG Reason)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSObjectInfoCB *pCurrentObject = NULL;
    AFSObjectInfoCB *pNextObject = NULL;
    LONG lCount;
    AFSFcb *pFcb = NULL;
    ULONG ulFilter = 0;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInvalidateVolume Invalidate volume fid %08lX-%08lX-%08lX-%08lX Reason %08lX\n",
                      VolumeCB->ObjectInformation.FileId.Cell,
                      VolumeCB->ObjectInformation.FileId.Volume,
                      VolumeCB->ObjectInformation.FileId.Vnode,
                      VolumeCB->ObjectInformation.FileId.Unique,
                      Reason);

        //
        // Depending on the reason for invalidation then perform work on the node
        //

        switch( Reason)
        {

            case AFS_INVALIDATE_DELETED:
            {

                //
                // Mark this volume as invalid
                //

                SetFlag( VolumeCB->ObjectInformation.Flags, AFS_OBJECT_FLAGS_OBJECT_INVALID);

                SetFlag( VolumeCB->Flags, AFS_VOLUME_FLAGS_OFFLINE);

                break;
            }
        }

        //
        // Invalidate the volume root directory
        //

        pCurrentObject = &VolumeCB->ObjectInformation;

        if ( pCurrentObject )
        {

            lCount = InterlockedIncrement( &pCurrentObject->ObjectReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateVolumeObjects Increment count on object %08lX Cnt %d\n",
                          pCurrentObject,
                          lCount);

            AFSInvalidateObject( &pCurrentObject,
                                 Reason);

            if ( pCurrentObject)
            {

                lCount = InterlockedDecrement( &pCurrentObject->ObjectReferenceCount);

                AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateVolumeObjects Decrement count on object %08lX Cnt %d\n",
                              pCurrentObject,
                              lCount);
            }
        }

        //
        // Apply invalidation to all other volume objects
        //

        AFSAcquireShared( VolumeCB->ObjectInfoTree.TreeLock,
                          TRUE);

        pCurrentObject = VolumeCB->ObjectInfoListHead;

        if ( pCurrentObject)
        {

            //
            // Reference the node so it won't be torn down
            //

            lCount = InterlockedIncrement( &pCurrentObject->ObjectReferenceCount);

            AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSInvalidateVolumeObjects Increment count on object %08lX Cnt %d\n",
                          pCurrentObject,
                          lCount);
        }

        while( pCurrentObject != NULL)
        {

            pNextObject = (AFSObjectInfoCB *)pCurrentObject->ListEntry.fLink;

            if ( pNextObject)
            {

                //
                // Reference the node so it won't be torn down
                //

                lCount = InterlockedIncrement( &pNextObject->ObjectReferenceCount);

                AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateVolumeObjects Increment count on object %08lX Cnt %d\n",
                              pNextObject,
                              lCount);
            }

            AFSReleaseResource( VolumeCB->ObjectInfoTree.TreeLock);

            AFSInvalidateObject( &pCurrentObject,
                                 Reason);

            if ( pCurrentObject )
            {

                lCount = InterlockedDecrement( &pCurrentObject->ObjectReferenceCount);

                AFSDbgLogMsg( AFS_SUBSYSTEM_OBJECT_REF_COUNTING,
                              AFS_TRACE_LEVEL_VERBOSE,
                              "AFSInvalidateVolumeObjects Decrement count on object %08lX Cnt %d\n",
                              pCurrentObject,
                              lCount);
            }

            AFSAcquireShared( VolumeCB->ObjectInfoTree.TreeLock,
                              TRUE);

            pCurrentObject = pNextObject;
        }

        AFSReleaseResource( VolumeCB->ObjectInfoTree.TreeLock);
    }

    return ntStatus;
}

VOID
AFSInvalidateAllVolumes( VOID)
{
    AFSVolumeCB *pVolumeCB = NULL;
    AFSVolumeCB *pNextVolumeCB = NULL;
    AFSDeviceExt *pRDRDeviceExt = NULL;
    LONG lCount;

    pRDRDeviceExt = (AFSDeviceExt *)AFSRDRDeviceObject->DeviceExtension;

    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                  AFS_TRACE_LEVEL_VERBOSE,
                  "AFSInvalidateAllVolumes Acquiring RDR VolumeListLock lock %08lX SHARED %08lX\n",
                  &pRDRDeviceExt->Specific.RDR.VolumeListLock,
                  PsGetCurrentThread());

    AFSAcquireShared( &pRDRDeviceExt->Specific.RDR.VolumeListLock,
                      TRUE);

    pVolumeCB = pRDRDeviceExt->Specific.RDR.VolumeListHead;

    if ( pVolumeCB)
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSInvalidateAllVolumes Acquiring VolumeRoot ObjectInfoTree lock %08lX SHARED %08lX\n",
                      pVolumeCB->ObjectInfoTree.TreeLock,
                      PsGetCurrentThread());

        lCount = InterlockedIncrement( &pVolumeCB->VolumeReferenceCount);
    }

    while( pVolumeCB != NULL)
    {

        pNextVolumeCB = (AFSVolumeCB *)pVolumeCB->ListEntry.fLink;

        if ( pNextVolumeCB)
        {

            lCount = InterlockedIncrement( &pNextVolumeCB->VolumeReferenceCount);
        }

        AFSReleaseResource( &pRDRDeviceExt->Specific.RDR.VolumeListLock);

        // do I need to hold the volume lock here?

        AFSInvalidateVolume( pVolumeCB, AFS_INVALIDATE_EXPIRED);

        AFSAcquireShared( &pRDRDeviceExt->Specific.RDR.VolumeListLock,
                          TRUE);

        lCount = InterlockedDecrement( &pVolumeCB->VolumeReferenceCount);

        pVolumeCB = pNextVolumeCB;
    }

    AFSReleaseResource( &pRDRDeviceExt->Specific.RDR.VolumeListLock);
}

NTSTATUS
AFSVerifyEntry( IN GUID *AuthGroup,
                IN AFSDirectoryCB *DirEntry)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDirEnumEntry *pDirEnumEntry = NULL;
    AFSObjectInfoCB *pObjectInfo = DirEntry->ObjectInformation;
    IO_STATUS_BLOCK stIoStatus;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE_2,
                      "AFSVerifyEntry Verifying entry %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                      &DirEntry->NameInformation.FileName,
                      pObjectInfo->FileId.Cell,
                      pObjectInfo->FileId.Volume,
                      pObjectInfo->FileId.Vnode,
                      pObjectInfo->FileId.Unique);

        ntStatus = AFSEvaluateTargetByID( pObjectInfo,
                                          AuthGroup,
                                          FALSE,
                                          &pDirEnumEntry);

        if( !NT_SUCCESS( ntStatus))
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_ERROR,
                          "AFSValidateEntry Evaluate Target failed %wZ FID %08lX-%08lX-%08lX-%08lX Status 0x%08lX\n",
                          &DirEntry->NameInformation.FileName,
                          pObjectInfo->FileId.Cell,
                          pObjectInfo->FileId.Volume,
                          pObjectInfo->FileId.Vnode,
                          pObjectInfo->FileId.Unique,
                          ntStatus);

            try_return( ntStatus);
        }

        //
        // Check the data version of the file
        //

        if( pObjectInfo->DataVersion.QuadPart == pDirEnumEntry->DataVersion.QuadPart &&
            !BooleanFlagOn( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY_DATA))
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                          "AFSVerifyEntry No DV change %I64X for Fcb %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                          pObjectInfo->DataVersion.QuadPart,
                          &DirEntry->NameInformation.FileName,
                          pObjectInfo->FileId.Cell,
                          pObjectInfo->FileId.Volume,
                          pObjectInfo->FileId.Vnode,
                          pObjectInfo->FileId.Unique);

            //
            // We are ok, just get out
            //

            ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);

            try_return( ntStatus = STATUS_SUCCESS);
        }

        //
        // New data version so we will need to process the node based on the type
        //

        switch( pDirEnumEntry->FileType)
        {

            case AFS_FILE_TYPE_MOUNTPOINT:
            {

                //
                // For a mount point we need to ensure the target is the same
                //

                if( !AFSIsEqualFID( &pObjectInfo->TargetFileId,
                                    &pDirEnumEntry->TargetFileId))
                {

                }

                //
                // Update the metadata for the entry
                //

                ntStatus = AFSUpdateMetaData( DirEntry,
                                              pDirEnumEntry);

                if( NT_SUCCESS( ntStatus))
                {

                    ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);
                }

                break;
            }

            case AFS_FILE_TYPE_SYMLINK:
            {

                ASSERT( pDirEnumEntry->TargetNameLength > 0);

                //
                // Update the metadata for the entry
                //

                ntStatus = AFSUpdateMetaData( DirEntry,
                                              pDirEnumEntry);

                if( NT_SUCCESS( ntStatus))
                {

                    ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);
                }

                break;
            }

            case AFS_FILE_TYPE_FILE:
            {
                FILE_OBJECT * pCCFileObject = NULL;
                BOOLEAN bPurgeExtents = FALSE;

                if ( BooleanFlagOn( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY_DATA))
                {
                    bPurgeExtents = TRUE;

                    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE,
                                  "AFSVerifyEntry Clearing VERIFY_DATA flag %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                                  &DirEntry->NameInformation.FileName,
                                  pObjectInfo->FileId.Cell,
                                  pObjectInfo->FileId.Volume,
                                  pObjectInfo->FileId.Vnode,
                                  pObjectInfo->FileId.Unique);

                    ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY_DATA);
                }

                //
                // Update the metadata for the entry
                //

                ntStatus = AFSUpdateMetaData( DirEntry,
                                              pDirEnumEntry);

                if( !NT_SUCCESS( ntStatus))
                {

                    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                                  AFS_TRACE_LEVEL_ERROR,
                                  "AFSVerifyEntry Meta Data Update failed %wZ FID %08lX-%08lX-%08lX-%08lX ntStatus %08lX\n",
                                  &DirEntry->NameInformation.FileName,
                                  pObjectInfo->FileId.Cell,
                                  pObjectInfo->FileId.Volume,
                                  pObjectInfo->FileId.Vnode,
                                  pObjectInfo->FileId.Unique,
                                  ntStatus);

                    break;
                }

                if( pObjectInfo->Fcb != NULL)
                {

                    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE,
                                  "AFSVerifyEntry Flush/purge entry %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                                  &DirEntry->NameInformation.FileName,
                                  pObjectInfo->FileId.Cell,
                                  pObjectInfo->FileId.Volume,
                                  pObjectInfo->FileId.Vnode,
                                  pObjectInfo->FileId.Unique);

                    AFSAcquireExcl( &pObjectInfo->Fcb->NPFcb->Resource,
                                    TRUE);

                    __try
                    {

                        CcFlushCache( &pObjectInfo->Fcb->NPFcb->SectionObjectPointers,
                                      NULL,
                                      0,
                                      &stIoStatus);

                        if( !NT_SUCCESS( stIoStatus.Status))
                        {

                            AFSDbgLogMsg( AFS_SUBSYSTEM_IO_PROCESSING,
                                          AFS_TRACE_LEVEL_ERROR,
                                          "AFSVerifyEntry CcFlushCache failure %wZ FID %08lX-%08lX-%08lX-%08lX Status 0x%08lX Bytes 0x%08lX\n",
                                          &DirEntry->NameInformation.FileName,
                                          pObjectInfo->FileId.Cell,
                                          pObjectInfo->FileId.Volume,
                                          pObjectInfo->FileId.Vnode,
                                          pObjectInfo->FileId.Unique,
                                          stIoStatus.Status,
                                          stIoStatus.Information);

                            ntStatus = stIoStatus.Status;
                        }

                        if ( bPurgeExtents)
                        {

                            CcPurgeCacheSection( &pObjectInfo->Fcb->NPFcb->SectionObjectPointers,
                                                 NULL,
                                                 0,
                                                 FALSE);
                        }
                    }
                    __except( EXCEPTION_EXECUTE_HANDLER)
                    {
                        ntStatus = GetExceptionCode();

                        AFSDbgLogMsg( AFS_SUBSYSTEM_IO_PROCESSING,
                                      AFS_TRACE_LEVEL_ERROR,
                                      "AFSVerifyEntry CcFlushCache or CcPurgeCacheSection Exception %wZ FID %08lX-%08lX-%08lX-%08lX Status 0x%08lX\n",
                                      &DirEntry->NameInformation.FileName,
                                      pObjectInfo->FileId.Cell,
                                      pObjectInfo->FileId.Volume,
                                      pObjectInfo->FileId.Vnode,
                                      pObjectInfo->FileId.Unique,
                                      ntStatus);
                    }

                    AFSReleaseResource( &pObjectInfo->Fcb->NPFcb->Resource);

                    if ( bPurgeExtents)
                    {
                        AFSFlushExtents( pObjectInfo->Fcb,
                                         AuthGroup);
                    }

                    //
                    // Reacquire the Fcb to purge the cache
                    //

                    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE,
                                  "AFSVerifyEntry Acquiring Fcb lock %08lX EXCL %08lX\n",
                                  &pObjectInfo->Fcb->NPFcb->Resource,
                                  PsGetCurrentThread());

                    AFSAcquireExcl( &pObjectInfo->Fcb->NPFcb->Resource,
                                    TRUE);

                    //
                    // Update file sizes
                    //

                    pObjectInfo->Fcb->Header.AllocationSize.QuadPart  = pObjectInfo->AllocationSize.QuadPart;
                    pObjectInfo->Fcb->Header.FileSize.QuadPart        = pObjectInfo->EndOfFile.QuadPart;
                    pObjectInfo->Fcb->Header.ValidDataLength.QuadPart = pObjectInfo->EndOfFile.QuadPart;

                    pCCFileObject = CcGetFileObjectFromSectionPtrs( &pObjectInfo->Fcb->NPFcb->SectionObjectPointers);

                    if ( pCCFileObject != NULL)
                    {
                        CcSetFileSizes( pCCFileObject,
                                        (PCC_FILE_SIZES)&pObjectInfo->Fcb->Header.AllocationSize);
                    }

                    AFSReleaseResource( &pObjectInfo->Fcb->NPFcb->Resource);
                }
                else
                {
                    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                                  AFS_TRACE_LEVEL_WARNING,
                                  "AFSValidateEntry Fcb NULL %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                                  &DirEntry->NameInformation.FileName,
                                  pObjectInfo->FileId.Cell,
                                  pObjectInfo->FileId.Volume,
                                  pObjectInfo->FileId.Vnode,
                                  pObjectInfo->FileId.Unique);
                }

                ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);

                break;
            }

            case AFS_FILE_TYPE_DIRECTORY:
            {

                AFSFcb *pCurrentFcb = NULL;
                AFSDirectoryCB *pCurrentDirEntry = NULL;

                //
                // For a directory or root entry flush the content of
                // the directory enumeration.
                //

                if( BooleanFlagOn( pObjectInfo->Flags, AFS_OBJECT_FLAGS_DIRECTORY_ENUMERATED))
                {

                    AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE_2,
                                  "AFSVerifyEntry Validating directory content for entry %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                                  &DirEntry->NameInformation.FileName,
                                  pObjectInfo->FileId.Cell,
                                  pObjectInfo->FileId.Volume,
                                  pObjectInfo->FileId.Vnode,
                                  pObjectInfo->FileId.Unique);

                    AFSAcquireExcl( pObjectInfo->Specific.Directory.DirectoryNodeHdr.TreeLock,
                                    TRUE);

                    ntStatus = AFSValidateDirectoryCache( pObjectInfo,
                                                          AuthGroup);

                    AFSReleaseResource( pObjectInfo->Specific.Directory.DirectoryNodeHdr.TreeLock);

                    if ( !NT_SUCCESS( ntStatus))
                    {

                        try_return( ntStatus);
                    }
                }

                //
                // Update the metadata for the entry
                //

                ntStatus = AFSUpdateMetaData( DirEntry,
                                              pDirEnumEntry);

                if( NT_SUCCESS( ntStatus))
                {

                    ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);
                }

                break;
            }

            case AFS_FILE_TYPE_DFSLINK:
            {

                UNICODE_STRING uniTargetName;

                //
                // For a DFS link need to check the target name has not changed
                //

                uniTargetName.Length = (USHORT)pDirEnumEntry->TargetNameLength;

                uniTargetName.MaximumLength = uniTargetName.Length;

                uniTargetName.Buffer = (WCHAR *)((char *)pDirEnumEntry + pDirEnumEntry->TargetNameOffset);

                AFSAcquireExcl( &DirEntry->NonPaged->Lock,
                                TRUE);

                if( DirEntry->NameInformation.TargetName.Length == 0 ||
                    RtlCompareUnicodeString( &uniTargetName,
                                             &DirEntry->NameInformation.TargetName,
                                             TRUE) != 0)
                {

                    //
                    // Update the target name
                    //

                    ntStatus = AFSUpdateTargetName( &DirEntry->NameInformation.TargetName,
                                                    &DirEntry->Flags,
                                                    uniTargetName.Buffer,
                                                    uniTargetName.Length);

                    if( !NT_SUCCESS( ntStatus))
                    {

                        AFSReleaseResource( &DirEntry->NonPaged->Lock);

                        break;
                    }
                }

                AFSReleaseResource( &DirEntry->NonPaged->Lock);

                //
                // Update the metadata for the entry
                //

                ntStatus = AFSUpdateMetaData( DirEntry,
                                              pDirEnumEntry);

                if( NT_SUCCESS( ntStatus))
                {

                    ClearFlag( pObjectInfo->Flags, AFS_OBJECT_FLAGS_VERIFY);
                }

                break;
            }

            default:

                AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                              AFS_TRACE_LEVEL_WARNING,
                              "AFSVerifyEntry Attempt to verify node of type %d %wZ FID %08lX-%08lX-%08lX-%08lX\n",
                              pObjectInfo->FileType,
                              &DirEntry->NameInformation.FileName,
                              pObjectInfo->FileId.Cell,
                              pObjectInfo->FileId.Volume,
                              pObjectInfo->FileId.Vnode,
                              pObjectInfo->FileId.Unique);

                break;
        }

 try_exit:

        if( pDirEnumEntry != NULL)
        {

            AFSExFreePool( pDirEnumEntry);
        }
    }

    return ntStatus;
}

NTSTATUS
AFSSetVolumeState( IN AFSVolumeStatusCB *VolumeStatus)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    AFSDeviceExt *pDevExt = (AFSDeviceExt *) AFSRDRDeviceObject->DeviceExtension;
    ULONGLONG   ullIndex = 0;
    AFSVolumeCB *pVolumeCB = NULL;
    AFSFcb *pFcb = NULL;
    AFSObjectInfoCB *pCurrentObject = NULL;
    LONG lCount;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSSetVolumeState Marking volume state %d Volume Cell %08lX Volume %08lX\n",
                      VolumeStatus->Online,
                      VolumeStatus->FileID.Cell,
                      VolumeStatus->FileID.Volume);

        //
        // Need to locate the Fcb for the directory to purge
        //

        AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSSetVolumeState Acquiring RDR VolumeTreeLock lock %08lX SHARED %08lX\n",
                      &pDevExt->Specific.RDR.VolumeTreeLock,
                      PsGetCurrentThread());

        AFSAcquireShared( &pDevExt->Specific.RDR.VolumeTreeLock, TRUE);

        //
        // Locate the volume node
        //

        ullIndex = AFSCreateHighIndex( &VolumeStatus->FileID);

        ntStatus = AFSLocateHashEntry( pDevExt->Specific.RDR.VolumeTree.TreeHead,
                                       ullIndex,
                                       (AFSBTreeEntry **)&pVolumeCB);

        if( pVolumeCB != NULL)
        {

            lCount = InterlockedIncrement( &pVolumeCB->VolumeReferenceCount);

            AFSReleaseResource( &pDevExt->Specific.RDR.VolumeTreeLock);

            //
            // Set the volume state accordingly
            //

            if( VolumeStatus->Online)
            {

                InterlockedAnd( (LONG *)&(pVolumeCB->Flags), ~AFS_VOLUME_FLAGS_OFFLINE);
            }
            else
            {

                InterlockedOr( (LONG *)&(pVolumeCB->Flags), AFS_VOLUME_FLAGS_OFFLINE);
            }

            AFSAcquireShared( pVolumeCB->ObjectInfoTree.TreeLock,
                              TRUE);

            pCurrentObject = pVolumeCB->ObjectInfoListHead;;

            while( pCurrentObject != NULL)
            {

                if( VolumeStatus->Online)
                {

                    ClearFlag( pCurrentObject->Flags, AFS_OBJECT_FLAGS_OBJECT_INVALID);

                    SetFlag( pCurrentObject->Flags, AFS_OBJECT_FLAGS_VERIFY);

                    pCurrentObject->DataVersion.QuadPart = (ULONGLONG)-1;
                }
                else
                {

                    SetFlag( pCurrentObject->Flags, AFS_OBJECT_FLAGS_OBJECT_INVALID);
                }

                pFcb = pCurrentObject->Fcb;

                if( pFcb != NULL &&
                    !(VolumeStatus->Online) &&
                    pFcb->Header.NodeTypeCode == AFS_FILE_FCB)
                {

                    AFSDbgLogMsg( AFS_SUBSYSTEM_EXTENT_PROCESSING,
                                  AFS_TRACE_LEVEL_ERROR,
                                  "AFSSetVolumeState Marking volume offline and canceling extents Volume Cell %08lX Volume %08lX\n",
                                  VolumeStatus->FileID.Cell,
                                  VolumeStatus->FileID.Volume);

                    //
                    // Clear out the extents
                    //

                    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE,
                                  "AFSSetVolumeState Acquiring Fcb extents lock %08lX EXCL %08lX\n",
                                  &pFcb->NPFcb->Specific.File.ExtentsResource,
                                  PsGetCurrentThread());

                    AFSAcquireExcl( &pFcb->NPFcb->Specific.File.ExtentsResource,
                                    TRUE);

                    pFcb->NPFcb->Specific.File.ExtentsRequestStatus = STATUS_CANCELLED;

                    KeSetEvent( &pFcb->NPFcb->Specific.File.ExtentsRequestComplete,
                                0,
                                FALSE);

                    AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                                  AFS_TRACE_LEVEL_VERBOSE,
                                  "AFSSetVolumeState Releasing Fcb extents lock %08lX EXCL %08lX\n",
                                  &pFcb->NPFcb->Specific.File.ExtentsResource,
                                  PsGetCurrentThread());

                    AFSReleaseResource( &pFcb->NPFcb->Specific.File.ExtentsResource);

                    //
                    // And get rid of them (note this involves waiting
                    // for any writes or reads to the cache to complete)
                    //

                    (VOID) AFSTearDownFcbExtents( pFcb,
                                                  NULL);
                }

                pCurrentObject = (AFSObjectInfoCB *)pCurrentObject->ListEntry.fLink;
            }

            AFSReleaseResource( pVolumeCB->ObjectInfoTree.TreeLock);

            lCount = InterlockedDecrement( &pVolumeCB->VolumeReferenceCount);
        }
        else
        {

            AFSReleaseResource( &pDevExt->Specific.RDR.VolumeTreeLock);
        }
    }

    return ntStatus;
}

NTSTATUS
AFSSetNetworkState( IN AFSNetworkStatusCB *NetworkStatus)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;

    __Enter
    {

        if( AFSGlobalRoot == NULL)
        {

            try_return( ntStatus);
        }

        AFSAcquireExcl( AFSGlobalRoot->VolumeLock,
                        TRUE);

        //
        // Set the network state according to the information
        //

        if( NetworkStatus->Online)
        {

            ClearFlag( AFSGlobalRoot->Flags, AFS_VOLUME_FLAGS_OFFLINE);
        }
        else
        {

            SetFlag( AFSGlobalRoot->Flags, AFS_VOLUME_FLAGS_OFFLINE);
        }

        AFSReleaseResource( AFSGlobalRoot->VolumeLock);

try_exit:

        NOTHING;
    }

    return ntStatus;
}

NTSTATUS
AFSValidateDirectoryCache( IN AFSObjectInfoCB *ObjectInfo,
                           IN GUID *AuthGroup)
{

    NTSTATUS ntStatus = STATUS_SUCCESS;
    BOOLEAN  bAcquiredLock = FALSE;
    AFSDirectoryCB *pCurrentDirEntry = NULL, *pNextDirEntry = NULL;
    AFSFcb *pFcb = NULL;

    __Enter
    {

        AFSDbgLogMsg( AFS_SUBSYSTEM_FILE_PROCESSING,
                      AFS_TRACE_LEVEL_VERBOSE,
                      "AFSValidateDirectoryCache Validating content for FID %08lX-%08lX-%08lX-%08lX\n",
                      ObjectInfo->FileId.Cell,
                      ObjectInfo->FileId.Volume,
                      ObjectInfo->FileId.Vnode,
                      ObjectInfo->FileId.Unique);

        if( !ExIsResourceAcquiredLite( ObjectInfo->Specific.Directory.DirectoryNodeHdr.TreeLock))
        {

            AFSDbgLogMsg( AFS_SUBSYSTEM_LOCK_PROCESSING,
                          AFS_TRACE_LEVEL_VERBOSE,
                         &