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751 lines
21 KiB
C
751 lines
21 KiB
C
/*++
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Copyright (c) 1989-2000 Microsoft Corporation
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Module Name:
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FatInit.c
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Abstract:
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This module implements the DRIVER_INITIALIZATION routine for Fat
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--*/
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#include "fatprocs.h"
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#ifdef __REACTOS__
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#define _Unreferenced_parameter_
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#endif
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DRIVER_INITIALIZE DriverEntry;
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NTSTATUS
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NTAPI
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DriverEntry(
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_In_ PDRIVER_OBJECT DriverObject,
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_In_ PUNICODE_STRING RegistryPath
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);
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_Function_class_(DRIVER_UNLOAD)
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VOID
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NTAPI
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FatUnload(
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_In_ _Unreferenced_parameter_ PDRIVER_OBJECT DriverObject
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);
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NTSTATUS
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FatGetCompatibilityModeValue(
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IN PUNICODE_STRING ValueName,
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IN OUT PULONG Value
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);
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BOOLEAN
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FatIsFujitsuFMR (
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);
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(INIT, DriverEntry)
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#pragma alloc_text(INIT, FatGetCompatibilityModeValue)
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#pragma alloc_text(INIT, FatIsFujitsuFMR)
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//#pragma alloc_text(PAGE, FatUnload)
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#endif
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#define COMPATIBILITY_MODE_KEY_NAME L"\\Registry\\Machine\\System\\CurrentControlSet\\Control\\FileSystem"
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#define COMPATIBILITY_MODE_VALUE_NAME L"Win31FileSystem"
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#define CODE_PAGE_INVARIANCE_VALUE_NAME L"FatDisableCodePageInvariance"
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#define KEY_WORK_AREA ((sizeof(KEY_VALUE_FULL_INFORMATION) + \
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sizeof(ULONG)) + 64)
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#define REGISTRY_HARDWARE_DESCRIPTION_W \
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L"\\Registry\\Machine\\Hardware\\DESCRIPTION\\System"
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#define REGISTRY_MACHINE_IDENTIFIER_W L"Identifier"
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#define FUJITSU_FMR_NAME_W L"FUJITSU FMR-"
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NTSTATUS
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NTAPI
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DriverEntry(
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_In_ PDRIVER_OBJECT DriverObject,
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_In_ PUNICODE_STRING RegistryPath
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)
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/*++
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Routine Description:
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This is the initialization routine for the Fat file system
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device driver. This routine creates the device object for the FileSystem
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device and performs all other driver initialization.
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Arguments:
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DriverObject - Pointer to driver object created by the system.
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Return Value:
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NTSTATUS - The function value is the final status from the initialization
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operation.
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--*/
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{
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USHORT MaxDepth;
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NTSTATUS Status;
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UNICODE_STRING UnicodeString;
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FS_FILTER_CALLBACKS FilterCallbacks;
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UNICODE_STRING ValueName;
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ULONG Value;
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UNREFERENCED_PARAMETER( RegistryPath );
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//
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// Create the device object for disks. To avoid problems with filters who
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// know this name, we must keep it.
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//
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RtlInitUnicodeString( &UnicodeString, L"\\Fat" );
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Status = IoCreateDevice( DriverObject,
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0,
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&UnicodeString,
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FILE_DEVICE_DISK_FILE_SYSTEM,
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0,
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FALSE,
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&FatDiskFileSystemDeviceObject );
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if (!NT_SUCCESS( Status )) {
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return Status;
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}
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//
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// Create the device object for "cdroms".
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//
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RtlInitUnicodeString( &UnicodeString, L"\\FatCdrom" );
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Status = IoCreateDevice( DriverObject,
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0,
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&UnicodeString,
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FILE_DEVICE_CD_ROM_FILE_SYSTEM,
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0,
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FALSE,
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&FatCdromFileSystemDeviceObject );
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if (!NT_SUCCESS( Status )) {
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IoDeleteDevice( FatDiskFileSystemDeviceObject);
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return Status;
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}
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#ifdef _MSC_VER
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#pragma prefast( push )
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#pragma prefast( disable:28155, "these are all correct" )
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#pragma prefast( disable:28169, "these are all correct" )
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#pragma prefast( disable:28175, "this is a filesystem, touching FastIoDispatch is allowed" )
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#endif
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DriverObject->DriverUnload = FatUnload;
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//
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// Note that because of the way data caching is done, we set neither
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// the Direct I/O or Buffered I/O bit in DeviceObject->Flags. If
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// data is not in the cache, or the request is not buffered, we may,
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// set up for Direct I/O by hand.
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//
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//
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// Initialize the driver object with this driver's entry points.
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//
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DriverObject->MajorFunction[IRP_MJ_CREATE] = (PDRIVER_DISPATCH)FatFsdCreate;
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DriverObject->MajorFunction[IRP_MJ_CLOSE] = (PDRIVER_DISPATCH)FatFsdClose;
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DriverObject->MajorFunction[IRP_MJ_READ] = (PDRIVER_DISPATCH)FatFsdRead;
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DriverObject->MajorFunction[IRP_MJ_WRITE] = (PDRIVER_DISPATCH)FatFsdWrite;
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DriverObject->MajorFunction[IRP_MJ_QUERY_INFORMATION] = (PDRIVER_DISPATCH)FatFsdQueryInformation;
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DriverObject->MajorFunction[IRP_MJ_SET_INFORMATION] = (PDRIVER_DISPATCH)FatFsdSetInformation;
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DriverObject->MajorFunction[IRP_MJ_QUERY_EA] = (PDRIVER_DISPATCH)FatFsdQueryEa;
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DriverObject->MajorFunction[IRP_MJ_SET_EA] = (PDRIVER_DISPATCH)FatFsdSetEa;
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DriverObject->MajorFunction[IRP_MJ_FLUSH_BUFFERS] = (PDRIVER_DISPATCH)FatFsdFlushBuffers;
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DriverObject->MajorFunction[IRP_MJ_QUERY_VOLUME_INFORMATION] = (PDRIVER_DISPATCH)FatFsdQueryVolumeInformation;
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DriverObject->MajorFunction[IRP_MJ_SET_VOLUME_INFORMATION] = (PDRIVER_DISPATCH)FatFsdSetVolumeInformation;
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DriverObject->MajorFunction[IRP_MJ_CLEANUP] = (PDRIVER_DISPATCH)FatFsdCleanup;
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DriverObject->MajorFunction[IRP_MJ_DIRECTORY_CONTROL] = (PDRIVER_DISPATCH)FatFsdDirectoryControl;
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DriverObject->MajorFunction[IRP_MJ_FILE_SYSTEM_CONTROL] = (PDRIVER_DISPATCH)FatFsdFileSystemControl;
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DriverObject->MajorFunction[IRP_MJ_LOCK_CONTROL] = (PDRIVER_DISPATCH)FatFsdLockControl;
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DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] = (PDRIVER_DISPATCH)FatFsdDeviceControl;
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DriverObject->MajorFunction[IRP_MJ_SHUTDOWN] = (PDRIVER_DISPATCH)FatFsdShutdown;
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DriverObject->MajorFunction[IRP_MJ_PNP] = (PDRIVER_DISPATCH)FatFsdPnp;
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DriverObject->FastIoDispatch = &FatFastIoDispatch;
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RtlZeroMemory(&FatFastIoDispatch, sizeof(FatFastIoDispatch));
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FatFastIoDispatch.SizeOfFastIoDispatch = sizeof(FAST_IO_DISPATCH);
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FatFastIoDispatch.FastIoCheckIfPossible = FatFastIoCheckIfPossible; // CheckForFastIo
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FatFastIoDispatch.FastIoRead = FsRtlCopyRead; // Read
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FatFastIoDispatch.FastIoWrite = FsRtlCopyWrite; // Write
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FatFastIoDispatch.FastIoQueryBasicInfo = FatFastQueryBasicInfo; // QueryBasicInfo
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FatFastIoDispatch.FastIoQueryStandardInfo = FatFastQueryStdInfo; // QueryStandardInfo
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FatFastIoDispatch.FastIoLock = FatFastLock; // Lock
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FatFastIoDispatch.FastIoUnlockSingle = FatFastUnlockSingle; // UnlockSingle
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FatFastIoDispatch.FastIoUnlockAll = FatFastUnlockAll; // UnlockAll
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FatFastIoDispatch.FastIoUnlockAllByKey = FatFastUnlockAllByKey; // UnlockAllByKey
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FatFastIoDispatch.FastIoQueryNetworkOpenInfo = FatFastQueryNetworkOpenInfo;
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FatFastIoDispatch.AcquireForCcFlush = FatAcquireForCcFlush;
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FatFastIoDispatch.ReleaseForCcFlush = FatReleaseForCcFlush;
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FatFastIoDispatch.MdlRead = FsRtlMdlReadDev;
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FatFastIoDispatch.MdlReadComplete = FsRtlMdlReadCompleteDev;
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FatFastIoDispatch.PrepareMdlWrite = FsRtlPrepareMdlWriteDev;
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FatFastIoDispatch.MdlWriteComplete = FsRtlMdlWriteCompleteDev;
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#ifdef _MSC_VER
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#pragma prefast( pop )
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#endif
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//
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// Initialize the filter callbacks we use.
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//
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RtlZeroMemory( &FilterCallbacks,
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sizeof(FS_FILTER_CALLBACKS) );
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FilterCallbacks.SizeOfFsFilterCallbacks = sizeof(FS_FILTER_CALLBACKS);
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FilterCallbacks.PreAcquireForSectionSynchronization = FatFilterCallbackAcquireForCreateSection;
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Status = FsRtlRegisterFileSystemFilterCallbacks( DriverObject,
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&FilterCallbacks );
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if (!NT_SUCCESS( Status )) {
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IoDeleteDevice( FatDiskFileSystemDeviceObject );
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IoDeleteDevice( FatCdromFileSystemDeviceObject );
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return Status;
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}
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//
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// Initialize the global data structures
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//
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//
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// The FatData record
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//
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RtlZeroMemory( &FatData, sizeof(FAT_DATA));
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FatData.NodeTypeCode = FAT_NTC_DATA_HEADER;
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FatData.NodeByteSize = sizeof(FAT_DATA);
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InitializeListHead(&FatData.VcbQueue);
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FatData.DriverObject = DriverObject;
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FatData.DiskFileSystemDeviceObject = FatDiskFileSystemDeviceObject;
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FatData.CdromFileSystemDeviceObject = FatCdromFileSystemDeviceObject;
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//
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// This list head keeps track of closes yet to be done.
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//
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InitializeListHead( &FatData.AsyncCloseList );
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InitializeListHead( &FatData.DelayedCloseList );
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FatData.FatCloseItem = IoAllocateWorkItem( FatDiskFileSystemDeviceObject);
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if (FatData.FatCloseItem == NULL) {
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IoDeleteDevice (FatDiskFileSystemDeviceObject);
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IoDeleteDevice (FatCdromFileSystemDeviceObject);
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return STATUS_INSUFFICIENT_RESOURCES;
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}
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//
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// Allocate the zero page
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//
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FatData.ZeroPage = ExAllocatePoolWithTag( NonPagedPoolNx, PAGE_SIZE, 'ZtaF' );
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if (FatData.ZeroPage == NULL) {
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IoDeleteDevice (FatDiskFileSystemDeviceObject);
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IoDeleteDevice (FatCdromFileSystemDeviceObject);
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return STATUS_INSUFFICIENT_RESOURCES;
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}
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RtlZeroMemory( FatData.ZeroPage, PAGE_SIZE );
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//
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// Now initialize our general purpose spinlock (gag) and figure out how
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// deep and wide we want our delayed lists (along with fooling ourselves
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// about the lookaside depths).
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//
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KeInitializeSpinLock( &FatData.GeneralSpinLock );
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switch ( MmQuerySystemSize() ) {
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case MmSmallSystem:
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MaxDepth = 4;
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FatMaxDelayedCloseCount = FAT_MAX_DELAYED_CLOSES;
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break;
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case MmMediumSystem:
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MaxDepth = 8;
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FatMaxDelayedCloseCount = 4 * FAT_MAX_DELAYED_CLOSES;
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break;
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case MmLargeSystem:
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default:
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MaxDepth = 16;
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FatMaxDelayedCloseCount = 16 * FAT_MAX_DELAYED_CLOSES;
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break;
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}
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//
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// Initialize the cache manager callback routines
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//
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FatData.CacheManagerCallbacks.AcquireForLazyWrite = &FatAcquireFcbForLazyWrite;
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FatData.CacheManagerCallbacks.ReleaseFromLazyWrite = &FatReleaseFcbFromLazyWrite;
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FatData.CacheManagerCallbacks.AcquireForReadAhead = &FatAcquireFcbForReadAhead;
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FatData.CacheManagerCallbacks.ReleaseFromReadAhead = &FatReleaseFcbFromReadAhead;
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FatData.CacheManagerNoOpCallbacks.AcquireForLazyWrite = &FatNoOpAcquire;
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FatData.CacheManagerNoOpCallbacks.ReleaseFromLazyWrite = &FatNoOpRelease;
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FatData.CacheManagerNoOpCallbacks.AcquireForReadAhead = &FatNoOpAcquire;
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FatData.CacheManagerNoOpCallbacks.ReleaseFromReadAhead = &FatNoOpRelease;
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//
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// Set up global pointer to our process.
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//
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FatData.OurProcess = PsGetCurrentProcess();
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//
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// Setup the number of processors we support for statistics as the current number
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// running.
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//
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#if (NTDDI_VERSION >= NTDDI_VISTA)
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FatData.NumberProcessors = KeQueryActiveProcessorCount( NULL );
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#else
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FatData.NumberProcessors = KeNumberProcessors;
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#endif
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//
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// Read the registry to determine if we are in ChicagoMode.
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//
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ValueName.Buffer = COMPATIBILITY_MODE_VALUE_NAME;
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ValueName.Length = sizeof(COMPATIBILITY_MODE_VALUE_NAME) - sizeof(WCHAR);
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ValueName.MaximumLength = sizeof(COMPATIBILITY_MODE_VALUE_NAME);
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Status = FatGetCompatibilityModeValue( &ValueName, &Value );
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if (NT_SUCCESS(Status) && FlagOn(Value, 1)) {
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FatData.ChicagoMode = FALSE;
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} else {
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FatData.ChicagoMode = TRUE;
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}
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//
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// Read the registry to determine if we are going to generate LFNs
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// for valid 8.3 names with extended characters.
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//
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ValueName.Buffer = CODE_PAGE_INVARIANCE_VALUE_NAME;
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ValueName.Length = sizeof(CODE_PAGE_INVARIANCE_VALUE_NAME) - sizeof(WCHAR);
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ValueName.MaximumLength = sizeof(CODE_PAGE_INVARIANCE_VALUE_NAME);
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Status = FatGetCompatibilityModeValue( &ValueName, &Value );
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if (NT_SUCCESS(Status) && FlagOn(Value, 1)) {
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FatData.CodePageInvariant = FALSE;
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} else {
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FatData.CodePageInvariant = TRUE;
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}
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//
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// Initialize our global resource and fire up the lookaside lists.
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//
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ExInitializeResourceLite( &FatData.Resource );
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ExInitializeNPagedLookasideList( &FatIrpContextLookasideList,
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NULL,
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NULL,
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POOL_NX_ALLOCATION | POOL_RAISE_IF_ALLOCATION_FAILURE,
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sizeof(IRP_CONTEXT),
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TAG_IRP_CONTEXT,
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MaxDepth );
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ExInitializeNPagedLookasideList( &FatNonPagedFcbLookasideList,
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NULL,
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NULL,
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POOL_NX_ALLOCATION | POOL_RAISE_IF_ALLOCATION_FAILURE,
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sizeof(NON_PAGED_FCB),
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TAG_FCB_NONPAGED,
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MaxDepth );
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ExInitializeNPagedLookasideList( &FatEResourceLookasideList,
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NULL,
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NULL,
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POOL_NX_ALLOCATION | POOL_RAISE_IF_ALLOCATION_FAILURE,
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sizeof(ERESOURCE),
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TAG_ERESOURCE,
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MaxDepth );
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ExInitializeSListHead( &FatCloseContextSList );
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ExInitializeFastMutex( &FatCloseQueueMutex );
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KeInitializeEvent( &FatReserveEvent, SynchronizationEvent, TRUE );
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//
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// Register the file system with the I/O system
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//
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IoRegisterFileSystem(FatDiskFileSystemDeviceObject);
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ObReferenceObject (FatDiskFileSystemDeviceObject);
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IoRegisterFileSystem(FatCdromFileSystemDeviceObject);
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ObReferenceObject (FatCdromFileSystemDeviceObject);
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//
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// Find out if we are running an a FujitsuFMR machine.
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//
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FatData.FujitsuFMR = FatIsFujitsuFMR();
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#if (NTDDI_VERSION >= NTDDI_WIN8)
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//
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// Find out global disk accounting state, cache the result
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//
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FatDiskAccountingEnabled = PsIsDiskCountersEnabled();
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#endif
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//
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// And return to our caller
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//
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return( STATUS_SUCCESS );
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}
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_Function_class_(DRIVER_UNLOAD)
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VOID
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NTAPI
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FatUnload(
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_In_ _Unreferenced_parameter_ PDRIVER_OBJECT DriverObject
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)
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|
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/*++
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Routine Description:
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This is the unload routine for the filesystem
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Arguments:
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DriverObject - Pointer to driver object created by the system.
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Return Value:
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None
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--*/
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{
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UNREFERENCED_PARAMETER( DriverObject );
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ExDeleteNPagedLookasideList (&FatEResourceLookasideList);
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ExDeleteNPagedLookasideList (&FatNonPagedFcbLookasideList);
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ExDeleteNPagedLookasideList (&FatIrpContextLookasideList);
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ExDeleteResourceLite( &FatData.Resource );
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IoFreeWorkItem (FatData.FatCloseItem);
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ObDereferenceObject( FatDiskFileSystemDeviceObject);
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ObDereferenceObject( FatCdromFileSystemDeviceObject);
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}
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//
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// Local Support routine
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//
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NTSTATUS
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FatGetCompatibilityModeValue (
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IN PUNICODE_STRING ValueName,
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IN OUT PULONG Value
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)
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|
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/*++
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|
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Routine Description:
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Given a unicode value name this routine will go into the registry
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location for the Chicago compatibilitymode information and get the
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value.
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Arguments:
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ValueName - the unicode name for the registry value located in the registry.
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Value - a pointer to the ULONG for the result.
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Return Value:
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NTSTATUS
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If STATUS_SUCCESSFUL is returned, the location *Value will be
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updated with the DWORD value from the registry. If any failing
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status is returned, this value is untouched.
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--*/
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{
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HANDLE Handle;
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NTSTATUS Status;
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ULONG RequestLength;
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ULONG ResultLength;
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UCHAR Buffer[KEY_WORK_AREA];
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UNICODE_STRING KeyName;
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OBJECT_ATTRIBUTES ObjectAttributes;
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PKEY_VALUE_FULL_INFORMATION KeyValueInformation;
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KeyName.Buffer = COMPATIBILITY_MODE_KEY_NAME;
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KeyName.Length = sizeof(COMPATIBILITY_MODE_KEY_NAME) - sizeof(WCHAR);
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KeyName.MaximumLength = sizeof(COMPATIBILITY_MODE_KEY_NAME);
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InitializeObjectAttributes(&ObjectAttributes,
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&KeyName,
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OBJ_CASE_INSENSITIVE,
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NULL,
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NULL);
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Status = ZwOpenKey(&Handle,
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KEY_READ,
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&ObjectAttributes);
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|
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if (!NT_SUCCESS(Status)) {
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return Status;
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}
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RequestLength = KEY_WORK_AREA;
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KeyValueInformation = (PKEY_VALUE_FULL_INFORMATION)Buffer;
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while (1) {
|
||
|
||
Status = ZwQueryValueKey(Handle,
|
||
ValueName,
|
||
KeyValueFullInformation,
|
||
KeyValueInformation,
|
||
RequestLength,
|
||
&ResultLength);
|
||
|
||
NT_ASSERT( Status != STATUS_BUFFER_OVERFLOW );
|
||
|
||
if (Status == STATUS_BUFFER_OVERFLOW) {
|
||
|
||
//
|
||
// Try to get a buffer big enough.
|
||
//
|
||
|
||
if (KeyValueInformation != (PKEY_VALUE_FULL_INFORMATION)Buffer) {
|
||
|
||
ExFreePool(KeyValueInformation);
|
||
}
|
||
|
||
RequestLength += 256;
|
||
|
||
KeyValueInformation = (PKEY_VALUE_FULL_INFORMATION)
|
||
ExAllocatePoolWithTag(PagedPool,
|
||
RequestLength,
|
||
' taF');
|
||
|
||
if (!KeyValueInformation) {
|
||
|
||
ZwClose(Handle);
|
||
return STATUS_NO_MEMORY;
|
||
}
|
||
|
||
} else {
|
||
|
||
break;
|
||
}
|
||
}
|
||
|
||
ZwClose(Handle);
|
||
|
||
if (NT_SUCCESS(Status)) {
|
||
|
||
if (KeyValueInformation->DataLength != 0) {
|
||
|
||
PULONG DataPtr;
|
||
|
||
//
|
||
// Return contents to the caller.
|
||
//
|
||
|
||
DataPtr = (PULONG)
|
||
((PUCHAR)KeyValueInformation + KeyValueInformation->DataOffset);
|
||
*Value = *DataPtr;
|
||
|
||
} else {
|
||
|
||
//
|
||
// Treat as if no value was found
|
||
//
|
||
|
||
Status = STATUS_OBJECT_NAME_NOT_FOUND;
|
||
}
|
||
}
|
||
|
||
if (KeyValueInformation != (PKEY_VALUE_FULL_INFORMATION)Buffer) {
|
||
|
||
ExFreePool(KeyValueInformation);
|
||
}
|
||
|
||
return Status;
|
||
}
|
||
|
||
//
|
||
// Local Support routine
|
||
//
|
||
|
||
BOOLEAN
|
||
FatIsFujitsuFMR (
|
||
)
|
||
|
||
/*++
|
||
|
||
Routine Description:
|
||
|
||
This routine tells us if we are running on a FujitsuFMR machine.
|
||
|
||
Arguments:
|
||
|
||
|
||
Return Value:
|
||
|
||
BOOLEAN - TRUE if we are and FALSE otherwise
|
||
|
||
--*/
|
||
|
||
{
|
||
BOOLEAN Result;
|
||
HANDLE Handle;
|
||
NTSTATUS Status;
|
||
ULONG RequestLength;
|
||
ULONG ResultLength;
|
||
UCHAR Buffer[KEY_WORK_AREA];
|
||
UNICODE_STRING KeyName;
|
||
UNICODE_STRING ValueName;
|
||
OBJECT_ATTRIBUTES ObjectAttributes;
|
||
PKEY_VALUE_FULL_INFORMATION KeyValueInformation;
|
||
|
||
//
|
||
// Set default as PC/AT
|
||
//
|
||
|
||
KeyName.Buffer = REGISTRY_HARDWARE_DESCRIPTION_W;
|
||
KeyName.Length = sizeof(REGISTRY_HARDWARE_DESCRIPTION_W) - sizeof(WCHAR);
|
||
KeyName.MaximumLength = sizeof(REGISTRY_HARDWARE_DESCRIPTION_W);
|
||
|
||
InitializeObjectAttributes(&ObjectAttributes,
|
||
&KeyName,
|
||
OBJ_CASE_INSENSITIVE,
|
||
NULL,
|
||
NULL);
|
||
|
||
Status = ZwOpenKey(&Handle,
|
||
KEY_READ,
|
||
&ObjectAttributes);
|
||
|
||
if (!NT_SUCCESS(Status)) {
|
||
|
||
return FALSE;
|
||
}
|
||
|
||
ValueName.Buffer = REGISTRY_MACHINE_IDENTIFIER_W;
|
||
ValueName.Length = sizeof(REGISTRY_MACHINE_IDENTIFIER_W) - sizeof(WCHAR);
|
||
ValueName.MaximumLength = sizeof(REGISTRY_MACHINE_IDENTIFIER_W);
|
||
|
||
RequestLength = KEY_WORK_AREA;
|
||
|
||
KeyValueInformation = (PKEY_VALUE_FULL_INFORMATION)Buffer;
|
||
|
||
while (1) {
|
||
|
||
Status = ZwQueryValueKey(Handle,
|
||
&ValueName,
|
||
KeyValueFullInformation,
|
||
KeyValueInformation,
|
||
RequestLength,
|
||
&ResultLength);
|
||
|
||
// NT_ASSERT( Status != STATUS_BUFFER_OVERFLOW );
|
||
|
||
if (Status == STATUS_BUFFER_OVERFLOW) {
|
||
|
||
//
|
||
// Try to get a buffer big enough.
|
||
//
|
||
|
||
if (KeyValueInformation != (PKEY_VALUE_FULL_INFORMATION)Buffer) {
|
||
|
||
ExFreePool(KeyValueInformation);
|
||
}
|
||
|
||
RequestLength += 256;
|
||
|
||
KeyValueInformation = (PKEY_VALUE_FULL_INFORMATION)
|
||
ExAllocatePoolWithTag(PagedPool, RequestLength, ' taF');
|
||
|
||
if (!KeyValueInformation) {
|
||
|
||
ZwClose(Handle);
|
||
return FALSE;
|
||
}
|
||
|
||
} else {
|
||
|
||
break;
|
||
}
|
||
}
|
||
|
||
ZwClose(Handle);
|
||
|
||
if (NT_SUCCESS(Status) &&
|
||
(KeyValueInformation->DataLength >= sizeof(FUJITSU_FMR_NAME_W)) &&
|
||
(RtlCompareMemory((PUCHAR)KeyValueInformation + KeyValueInformation->DataOffset,
|
||
FUJITSU_FMR_NAME_W,
|
||
sizeof(FUJITSU_FMR_NAME_W) - sizeof(WCHAR)) ==
|
||
sizeof(FUJITSU_FMR_NAME_W) - sizeof(WCHAR))) {
|
||
|
||
Result = TRUE;
|
||
|
||
} else {
|
||
|
||
Result = FALSE;
|
||
}
|
||
|
||
if (KeyValueInformation != (PKEY_VALUE_FULL_INFORMATION)Buffer) {
|
||
|
||
ExFreePool(KeyValueInformation);
|
||
}
|
||
|
||
return Result;
|
||
}
|
||
|