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reactos/drivers/filesystems/cdfs/cdinit.c
Pierre Schweitzer 45fd48bd0f
[CDFS_NEW] -> [CDFS] No old driver, thus no new driver
2018-08-21 12:32:15 +02:00

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/*++
Copyright (c) 1989-2000 Microsoft Corporation
Module Name:
CdInit.c
Abstract:
This module implements the DRIVER_INITIALIZATION routine for Cdfs
--*/
#include "cdprocs.h"
//
// The Bug check file id for this module
//
#define BugCheckFileId (CDFS_BUG_CHECK_CDINIT)
// Tell prefast the function type.
DRIVER_INITIALIZE DriverEntry;
NTSTATUS
NTAPI /* ReactOS Change: GCC Does not support STDCALL by default */
DriverEntry(
_In_ PDRIVER_OBJECT DriverObject,
_In_ PUNICODE_STRING RegistryPath
);
// tell prefast this is a driver unload function
DRIVER_UNLOAD CdUnload;
VOID
NTAPI /* ReactOS Change: GCC Does not support STDCALL by default */
CdUnload(
_In_ PDRIVER_OBJECT DriverObject
);
NTSTATUS
CdInitializeGlobalData (
_In_ PDRIVER_OBJECT DriverObject,
_In_ PDEVICE_OBJECT FileSystemDeviceObject
#ifdef __REACTOS__
,
IN PDEVICE_OBJECT HddFileSystemDeviceObject
#endif
);
#ifdef ALLOC_PRAGMA
#pragma alloc_text(INIT, DriverEntry)
#pragma alloc_text(PAGE, CdUnload)
#pragma alloc_text(INIT, CdInitializeGlobalData)
#endif
//
// Local support routine
//
NTSTATUS
NTAPI /* ReactOS Change: GCC Does not support STDCALL by default */
DriverEntry(
_In_ PDRIVER_OBJECT DriverObject,
_In_ PUNICODE_STRING RegistryPath
)
/*++
Routine Description:
This is the initialization routine for the Cdrom file system
device driver. This routine creates the device object for the FileSystem
device and performs all other driver initialization.
Arguments:
DriverObject - Pointer to driver object created by the system.
Return Value:
NTSTATUS - The function value is the final status from the initialization
operation.
--*/
{
NTSTATUS Status;
UNICODE_STRING UnicodeString;
PDEVICE_OBJECT CdfsFileSystemDeviceObject;
FS_FILTER_CALLBACKS FilterCallbacks;
#ifdef __REACTOS__
PDEVICE_OBJECT HddFileSystemDeviceObject;
#endif
UNREFERENCED_PARAMETER( RegistryPath );
//
// Create the device object.
//
RtlInitUnicodeString( &UnicodeString, L"\\Cdfs" );
Status = IoCreateDevice( DriverObject,
0,
&UnicodeString,
FILE_DEVICE_CD_ROM_FILE_SYSTEM,
0,
FALSE,
&CdfsFileSystemDeviceObject );
if (!NT_SUCCESS( Status )) {
return Status;
}
#ifdef __REACTOS__
//
// Create the HDD device object.
//
RtlInitUnicodeString( &UnicodeString, L"\\CdfsHdd" );
Status = IoCreateDevice( DriverObject,
0,
&UnicodeString,
FILE_DEVICE_DISK_FILE_SYSTEM,
0,
FALSE,
&HddFileSystemDeviceObject );
if (!NT_SUCCESS( Status )) {
IoDeleteDevice (CdfsFileSystemDeviceObject);
return Status;
}
#endif
#ifdef _MSC_VER
#pragma prefast(push)
#pragma prefast(disable: 28155, "the dispatch routine has the correct type, prefast is just being paranoid.")
#pragma prefast(disable: 28168, "the dispatch routine has the correct type, prefast is just being paranoid.")
#pragma prefast(disable: 28169, "the dispatch routine has the correct type, prefast is just being paranoid.")
#pragma prefast(disable: 28175, "we're allowed to change these.")
#endif
DriverObject->DriverUnload = CdUnload;
//
// Note that because of the way data caching is done, we set neither
// the Direct I/O or Buffered I/O bit in DeviceObject->Flags. If
// data is not in the cache, or the request is not buffered, we may,
// set up for Direct I/O by hand.
//
//
// Initialize the driver object with this driver's entry points.
//
// NOTE - Each entry in the dispatch table must have an entry in
// the Fsp/Fsd dispatch switch statements.
//
DriverObject->MajorFunction[IRP_MJ_CREATE] =
DriverObject->MajorFunction[IRP_MJ_CLOSE] =
DriverObject->MajorFunction[IRP_MJ_READ] =
DriverObject->MajorFunction[IRP_MJ_WRITE] =
DriverObject->MajorFunction[IRP_MJ_QUERY_INFORMATION] =
DriverObject->MajorFunction[IRP_MJ_SET_INFORMATION] =
DriverObject->MajorFunction[IRP_MJ_QUERY_VOLUME_INFORMATION]=
DriverObject->MajorFunction[IRP_MJ_DIRECTORY_CONTROL] =
DriverObject->MajorFunction[IRP_MJ_FILE_SYSTEM_CONTROL] =
DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] =
DriverObject->MajorFunction[IRP_MJ_LOCK_CONTROL] =
DriverObject->MajorFunction[IRP_MJ_CLEANUP] =
DriverObject->MajorFunction[IRP_MJ_PNP] =
DriverObject->MajorFunction[IRP_MJ_SHUTDOWN] = (PDRIVER_DISPATCH) CdFsdDispatch;
#ifdef _MSC_VER
#pragma prefast(pop)
#pragma prefast(suppress: 28175, "this is a file system driver, we're allowed to touch FastIoDispatch.")
#endif
DriverObject->FastIoDispatch = &CdFastIoDispatch;
//
// Initialize the filter callbacks we use.
//
RtlZeroMemory( &FilterCallbacks,
sizeof(FS_FILTER_CALLBACKS) );
FilterCallbacks.SizeOfFsFilterCallbacks = sizeof(FS_FILTER_CALLBACKS);
FilterCallbacks.PreAcquireForSectionSynchronization = CdFilterCallbackAcquireForCreateSection;
Status = FsRtlRegisterFileSystemFilterCallbacks( DriverObject,
&FilterCallbacks );
if (!NT_SUCCESS( Status )) {
IoDeleteDevice( CdfsFileSystemDeviceObject );
#ifdef __REACTOS__
IoDeleteDevice (HddFileSystemDeviceObject);
#endif
return Status;
}
//
// Initialize the global data structures
//
#ifndef __REACTOS__
Status = CdInitializeGlobalData( DriverObject, CdfsFileSystemDeviceObject );
#else
Status = CdInitializeGlobalData( DriverObject, CdfsFileSystemDeviceObject, HddFileSystemDeviceObject );
#endif
if (!NT_SUCCESS (Status)) {
IoDeleteDevice (CdfsFileSystemDeviceObject);
#ifdef __REACTOS__
IoDeleteDevice (HddFileSystemDeviceObject);
#endif
return Status;
}
//
// Register the file system as low priority with the I/O system. This will cause
// CDFS to receive mount requests after a) other filesystems currently registered
// and b) other normal priority filesystems that may be registered later.
//
CdfsFileSystemDeviceObject->Flags |= DO_LOW_PRIORITY_FILESYSTEM;
#ifdef __REACTOS__
HddFileSystemDeviceObject->Flags |= DO_LOW_PRIORITY_FILESYSTEM;
#endif
IoRegisterFileSystem( CdfsFileSystemDeviceObject );
ObReferenceObject (CdfsFileSystemDeviceObject);
#ifdef __REACTOS__
IoRegisterFileSystem( HddFileSystemDeviceObject );
ObReferenceObject (HddFileSystemDeviceObject);
#endif
#ifdef CDFS_TELEMETRY_DATA
//
// Initialize Telemetry
//
CdInitializeTelemetry();
#endif
//
// And return to our caller
//
return( STATUS_SUCCESS );
}
VOID
NTAPI /* ReactOS Change: GCC Does not support STDCALL by default */
CdUnload(
_In_ PDRIVER_OBJECT DriverObject
)
/*++
Routine Description:
This routine unload routine for CDFS.
Arguments:
DriverObject - Supplies the driver object for CDFS.
Return Value:
None.
--*/
{
PIRP_CONTEXT IrpContext;
PAGED_CODE();
UNREFERENCED_PARAMETER( DriverObject );
//
// Free any IRP contexts
//
while (1) {
IrpContext = (PIRP_CONTEXT) PopEntryList( &CdData.IrpContextList) ;
if (IrpContext == NULL) {
break;
}
CdFreePool(&IrpContext);
}
IoFreeWorkItem (CdData.CloseItem);
ExDeleteResourceLite( &CdData.DataResource );
ObDereferenceObject (CdData.FileSystemDeviceObject);
#ifdef __REACTOS__
ObDereferenceObject (CdData.HddFileSystemDeviceObject);
#endif
}
//
// Local support routine
//
NTSTATUS
CdInitializeGlobalData (
_In_ PDRIVER_OBJECT DriverObject,
_In_ PDEVICE_OBJECT FileSystemDeviceObject
#ifdef __REACTOS__
,
IN PDEVICE_OBJECT HddFileSystemDeviceObject
#endif
)
/*++
Routine Description:
This routine initializes the global cdfs data structures.
Arguments:
DriverObject - Supplies the driver object for CDFS.
FileSystemDeviceObject - Supplies the device object for CDFS.
Return Value:
None.
--*/
{
//
// Start by initializing the FastIoDispatch Table.
//
RtlZeroMemory( &CdFastIoDispatch, sizeof( FAST_IO_DISPATCH ));
CdFastIoDispatch.SizeOfFastIoDispatch = sizeof(FAST_IO_DISPATCH);
#ifdef _MSC_VER
#pragma prefast(push)
#pragma prefast(disable:28155, "these are all correct")
#endif
CdFastIoDispatch.FastIoCheckIfPossible = CdFastIoCheckIfPossible; // CheckForFastIo
CdFastIoDispatch.FastIoRead = FsRtlCopyRead; // Read
CdFastIoDispatch.FastIoQueryBasicInfo = CdFastQueryBasicInfo; // QueryBasicInfo
CdFastIoDispatch.FastIoQueryStandardInfo = CdFastQueryStdInfo; // QueryStandardInfo
CdFastIoDispatch.FastIoLock = CdFastLock; // Lock
CdFastIoDispatch.FastIoUnlockSingle = CdFastUnlockSingle; // UnlockSingle
CdFastIoDispatch.FastIoUnlockAll = CdFastUnlockAll; // UnlockAll
CdFastIoDispatch.FastIoUnlockAllByKey = CdFastUnlockAllByKey; // UnlockAllByKey
//
// This callback has been replaced by CdFilterCallbackAcquireForCreateSection.
//
CdFastIoDispatch.AcquireFileForNtCreateSection = NULL;
CdFastIoDispatch.ReleaseFileForNtCreateSection = CdReleaseForCreateSection;
CdFastIoDispatch.FastIoQueryNetworkOpenInfo = CdFastQueryNetworkInfo; // QueryNetworkInfo
CdFastIoDispatch.MdlRead = FsRtlMdlReadDev;
CdFastIoDispatch.MdlReadComplete = FsRtlMdlReadCompleteDev;
CdFastIoDispatch.PrepareMdlWrite = FsRtlPrepareMdlWriteDev;
CdFastIoDispatch.MdlWriteComplete = FsRtlMdlWriteCompleteDev;
#ifdef _MSC_VER
#pragma prefast(pop)
#endif
//
// Initialize the CdData structure.
//
RtlZeroMemory( &CdData, sizeof( CD_DATA ));
CdData.NodeTypeCode = CDFS_NTC_DATA_HEADER;
CdData.NodeByteSize = sizeof( CD_DATA );
CdData.DriverObject = DriverObject;
CdData.FileSystemDeviceObject = FileSystemDeviceObject;
#ifdef __REACTOS__
CdData.HddFileSystemDeviceObject = HddFileSystemDeviceObject;
#endif
InitializeListHead( &CdData.VcbQueue );
ExInitializeResourceLite( &CdData.DataResource );
//
// Initialize the cache manager callback routines
//
CdData.CacheManagerCallbacks.AcquireForLazyWrite = (PVOID)&CdAcquireForCache;/* ReactOS Change: GCC "assignment from incompatible pointer type" */
CdData.CacheManagerCallbacks.ReleaseFromLazyWrite = (PVOID)&CdReleaseFromCache;/* ReactOS Change: GCC "assignment from incompatible pointer type" */
CdData.CacheManagerCallbacks.AcquireForReadAhead = (PVOID)&CdAcquireForCache;/* ReactOS Change: GCC "assignment from incompatible pointer type" */
CdData.CacheManagerCallbacks.ReleaseFromReadAhead = (PVOID)&CdReleaseFromCache;/* ReactOS Change: GCC "assignment from incompatible pointer type" */
CdData.CacheManagerVolumeCallbacks.AcquireForLazyWrite = &CdNoopAcquire;
CdData.CacheManagerVolumeCallbacks.ReleaseFromLazyWrite = &CdNoopRelease;
CdData.CacheManagerVolumeCallbacks.AcquireForReadAhead = &CdNoopAcquire;
CdData.CacheManagerVolumeCallbacks.ReleaseFromReadAhead = &CdNoopRelease;
//
// Initialize the lock mutex and the async and delay close queues.
//
ExInitializeFastMutex( &CdData.CdDataMutex );
InitializeListHead( &CdData.AsyncCloseQueue );
InitializeListHead( &CdData.DelayedCloseQueue );
CdData.CloseItem = IoAllocateWorkItem (FileSystemDeviceObject);
if (CdData.CloseItem == NULL) {
ExDeleteResourceLite( &CdData.DataResource );
return STATUS_INSUFFICIENT_RESOURCES;
}
//
// Do the initialization based on the system size.
//
switch (MmQuerySystemSize()) {
case MmSmallSystem:
CdData.IrpContextMaxDepth = 4;
CdData.MaxDelayedCloseCount = 8;
CdData.MinDelayedCloseCount = 2;
break;
case MmMediumSystem:
CdData.IrpContextMaxDepth = 8;
CdData.MaxDelayedCloseCount = 24;
CdData.MinDelayedCloseCount = 6;
break;
case MmLargeSystem:
CdData.IrpContextMaxDepth = 32;
CdData.MaxDelayedCloseCount = 72;
CdData.MinDelayedCloseCount = 18;
break;
}
return STATUS_SUCCESS;
}
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