/* * ReactOS kernel * Copyright (C) 2017 ReactOS Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /* * COPYRIGHT: See COPYING in the top level directory * PROJECT: ReactOS kernel * FILE: sdk/lib/drivers/rdbsslib/rdbss.c * PURPOSE: RDBSS library * PROGRAMMER: Pierre Schweitzer (pierre@reactos.org) */ /* INCLUDES *****************************************************************/ #include #include #include #include #include #define NDEBUG #include #define RX_TOPLEVELCTX_FLAG_FROM_POOL 1 typedef NTSTATUS (NTAPI *PRX_FSD_DISPATCH) ( PRX_CONTEXT Context); typedef struct _RX_FSD_DISPATCH_VECTOR { PRX_FSD_DISPATCH CommonRoutine; } RX_FSD_DISPATCH_VECTOR, *PRX_FSD_DISPATCH_VECTOR; VOID NTAPI RxAcquireFileForNtCreateSection( PFILE_OBJECT FileObject); NTSTATUS NTAPI RxAcquireForCcFlush( PFILE_OBJECT FileObject, PDEVICE_OBJECT DeviceObject); VOID RxAddToTopLevelIrpAllocatedContextsList( PRX_TOPLEVELIRP_CONTEXT TopLevelContext); VOID RxAssert( PVOID Assert, PVOID File, ULONG Line, PVOID Message); NTSTATUS NTAPI RxCommonCleanup( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonClose( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonCreate( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDevFCBCleanup( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDevFCBClose( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDevFCBFsCtl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDevFCBIoCtl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDevFCBQueryVolInfo( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDeviceControl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDirectoryControl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonDispatchProblem( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonFileSystemControl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonFlushBuffers( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonLockControl( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonQueryEa( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonQueryInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonQueryQuotaInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonQuerySecurity( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonQueryVolumeInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonRead( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonSetEa( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonSetInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonSetQuotaInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonSetSecurity( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonSetVolumeInformation( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonUnimplemented( PRX_CONTEXT Context); NTSTATUS NTAPI RxCommonWrite( PRX_CONTEXT Context); VOID RxCopyCreateParameters( IN PRX_CONTEXT RxContext); NTSTATUS RxCreateFromNetRoot( PRX_CONTEXT Context, PUNICODE_STRING NetRootName); NTSTATUS RxCreateTreeConnect( IN PRX_CONTEXT RxContext); BOOLEAN NTAPI RxFastIoCheckIfPossible( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, BOOLEAN CheckForReadOperation, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject); BOOLEAN NTAPI RxFastIoDeviceControl( PFILE_OBJECT FileObject, BOOLEAN Wait, PVOID InputBuffer OPTIONAL, ULONG InputBufferLength, PVOID OutputBuffer OPTIONAL, ULONG OutputBufferLength, ULONG IoControlCode, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject); BOOLEAN NTAPI RxFastIoRead( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, PVOID Buffer, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject); BOOLEAN NTAPI RxFastIoWrite( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, PVOID Buffer, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject); NTSTATUS RxFindOrCreateFcb( PRX_CONTEXT RxContext, PUNICODE_STRING NetRootName); NTSTATUS RxFirstCanonicalize( PRX_CONTEXT RxContext, PUNICODE_STRING FileName, PUNICODE_STRING CanonicalName, PNET_ROOT_TYPE NetRootType); VOID RxFreeCanonicalNameBuffer( PRX_CONTEXT Context); VOID NTAPI RxFspDispatch( IN PVOID Context); VOID NTAPI RxGetRegistryParameters( IN PUNICODE_STRING RegistryPath); NTSTATUS NTAPI RxGetStringRegistryParameter( IN HANDLE KeyHandle, IN PCWSTR KeyName, OUT PUNICODE_STRING OutString, IN PUCHAR Buffer, IN ULONG BufferLength, IN BOOLEAN LogFailure); VOID NTAPI RxInitializeDebugSupport( VOID); VOID NTAPI RxInitializeDispatchVectors( PDRIVER_OBJECT DriverObject); NTSTATUS NTAPI RxInitializeRegistrationStructures( VOID); VOID NTAPI RxInitializeTopLevelIrpPackage( VOID); VOID NTAPI RxInitUnwind( PDRIVER_OBJECT DriverObject, USHORT State); BOOLEAN RxIsThisAnRdbssTopLevelContext( PRX_TOPLEVELIRP_CONTEXT TopLevelContext); NTSTATUS NTAPI RxLowIoIoCtlShellCompletion( PRX_CONTEXT RxContext); NTSTATUS RxLowIoReadShell( PRX_CONTEXT RxContext); NTSTATUS NTAPI RxLowIoReadShellCompletion( PRX_CONTEXT RxContext); NTSTATUS RxLowIoWriteShell( IN PRX_CONTEXT RxContext); NTSTATUS NTAPI RxLowIoWriteShellCompletion( PRX_CONTEXT RxContext); PVOID RxNewMapUserBuffer( PRX_CONTEXT RxContext); NTSTATUS RxNotifyChangeDirectory( PRX_CONTEXT RxContext); VOID NTAPI RxpCancelRoutine( PVOID Context); NTSTATUS RxpQueryInfoMiniRdr( PRX_CONTEXT RxContext, FILE_INFORMATION_CLASS FileInfoClass, PVOID Buffer); VOID RxPurgeNetFcb( PFCB Fcb, PRX_CONTEXT LocalContext); NTSTATUS RxQueryAlternateNameInfo( PRX_CONTEXT RxContext, PFILE_NAME_INFORMATION AltNameInfo); NTSTATUS RxQueryBasicInfo( PRX_CONTEXT RxContext, PFILE_BASIC_INFORMATION BasicInfo); NTSTATUS RxQueryCompressedInfo( PRX_CONTEXT RxContext, PFILE_COMPRESSION_INFORMATION CompressionInfo); NTSTATUS RxQueryDirectory( PRX_CONTEXT RxContext); NTSTATUS RxQueryEaInfo( PRX_CONTEXT RxContext, PFILE_EA_INFORMATION EaInfo); NTSTATUS RxQueryInternalInfo( PRX_CONTEXT RxContext, PFILE_INTERNAL_INFORMATION InternalInfo); NTSTATUS RxQueryNameInfo( PRX_CONTEXT RxContext, PFILE_NAME_INFORMATION NameInfo); NTSTATUS RxQueryPipeInfo( PRX_CONTEXT RxContext, PFILE_PIPE_INFORMATION PipeInfo); NTSTATUS RxQueryPositionInfo( PRX_CONTEXT RxContext, PFILE_POSITION_INFORMATION PositionInfo); NTSTATUS RxQueryStandardInfo( PRX_CONTEXT RxContext, PFILE_STANDARD_INFORMATION StandardInfo); VOID NTAPI RxReadRegistryParameters( VOID); VOID NTAPI RxReleaseFileForNtCreateSection( PFILE_OBJECT FileObject); NTSTATUS NTAPI RxReleaseForCcFlush( PFILE_OBJECT FileObject, PDEVICE_OBJECT DeviceObject); PRX_CONTEXT RxRemoveOverflowEntry( PRDBSS_DEVICE_OBJECT DeviceObject, WORK_QUEUE_TYPE Queue); NTSTATUS RxSearchForCollapsibleOpen( PRX_CONTEXT RxContext, ACCESS_MASK DesiredAccess, ULONG ShareAccess); NTSTATUS RxSetAllocationInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetBasicInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetDispositionInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetEndOfFileInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetPipeInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetPositionInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetRenameInfo( PRX_CONTEXT RxContext); NTSTATUS RxSetSimpleInfo( PRX_CONTEXT RxContext); VOID RxSetupNetFileObject( PRX_CONTEXT RxContext); NTSTATUS RxSystemControl( IN PRDBSS_DEVICE_OBJECT RxDeviceObject, IN PIRP Irp); VOID RxUninitializeCacheMap( PRX_CONTEXT RxContext, PFILE_OBJECT FileObject, PLARGE_INTEGER TruncateSize); VOID RxUnstart( PRX_CONTEXT Context, PRDBSS_DEVICE_OBJECT DeviceObject); NTSTATUS RxXXXControlFileCallthru( PRX_CONTEXT Context); PVOID NTAPI _RxAllocatePoolWithTag( _In_ POOL_TYPE PoolType, _In_ SIZE_T NumberOfBytes, _In_ ULONG Tag); VOID NTAPI _RxFreePool( _In_ PVOID Buffer); VOID NTAPI _RxFreePoolWithTag( _In_ PVOID Buffer, _In_ ULONG Tag); WCHAR RxStarForTemplate = '*'; WCHAR Rx8QMdot3QM[] = L">>>>>>>>.>>>*"; BOOLEAN DisableByteRangeLockingOnReadOnlyFiles = FALSE; BOOLEAN DisableFlushOnCleanup = FALSE; ULONG ReadAheadGranularity = 1 << PAGE_SHIFT; LIST_ENTRY RxActiveContexts; NPAGED_LOOKASIDE_LIST RxContextLookasideList; RDBSS_DATA RxData; FCB RxDeviceFCB; BOOLEAN RxLoudLowIoOpsEnabled = FALSE; RX_FSD_DISPATCH_VECTOR RxDeviceFCBVector[IRP_MJ_MAXIMUM_FUNCTION + 1] = { { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDevFCBClose }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDevFCBQueryVolInfo }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDevFCBFsCtl }, { RxCommonDevFCBIoCtl }, { RxCommonDevFCBIoCtl }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDevFCBCleanup }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonDispatchProblem }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, }; RDBSS_EXPORTS RxExports; FAST_IO_DISPATCH RxFastIoDispatch; PRDBSS_DEVICE_OBJECT RxFileSystemDeviceObject; RX_FSD_DISPATCH_VECTOR RxFsdDispatchVector[IRP_MJ_MAXIMUM_FUNCTION + 1] = { { RxCommonCreate }, { RxCommonUnimplemented }, { RxCommonClose }, { RxCommonRead }, { RxCommonWrite }, { RxCommonQueryInformation }, { RxCommonSetInformation }, { RxCommonQueryEa }, { RxCommonSetEa }, { RxCommonFlushBuffers }, { RxCommonQueryVolumeInformation }, { RxCommonSetVolumeInformation }, { RxCommonDirectoryControl }, { RxCommonFileSystemControl }, { RxCommonDeviceControl }, { RxCommonDeviceControl }, { RxCommonUnimplemented }, { RxCommonLockControl }, { RxCommonCleanup }, { RxCommonUnimplemented }, { RxCommonQuerySecurity }, { RxCommonSetSecurity }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonUnimplemented }, { RxCommonQueryQuotaInformation }, { RxCommonSetQuotaInformation }, { RxCommonUnimplemented }, }; ULONG RxFsdEntryCount; LIST_ENTRY RxIrpsList; KSPIN_LOCK RxIrpsListSpinLock; KMUTEX RxScavengerMutex; KMUTEX RxSerializationMutex; UCHAR RxSpaceForTheWrappersDeviceObject[sizeof(*RxFileSystemDeviceObject)]; KSPIN_LOCK TopLevelIrpSpinLock; LIST_ENTRY TopLevelIrpAllocatedContextsList; BOOLEAN RxForceQFIPassThrough = FALSE; BOOLEAN RxNoAsync = FALSE; DECLARE_CONST_UNICODE_STRING(unknownId, L"???"); #if RDBSS_ASSERTS #ifdef ASSERT #undef ASSERT #endif #define ASSERT(exp) \ if (!(exp)) \ { \ RxAssert(#exp, __FILE__, __LINE__, NULL); \ } #endif #if RX_POOL_WRAPPER #undef RxAllocatePool #undef RxAllocatePoolWithTag #undef RxFreePool #define RxAllocatePool(P, S) _RxAllocatePoolWithTag(P, S, 0) #define RxAllocatePoolWithTag _RxAllocatePoolWithTag #define RxFreePool _RxFreePool #define RxFreePoolWithTag _RxFreePoolWithTag #endif /* FUNCTIONS ****************************************************************/ /* * @implemented */ VOID CheckForLoudOperations( PRX_CONTEXT RxContext) { RxCaptureFcb; PAGED_CODE(); #define ALLSCR_LENGTH (sizeof(L"all.scr") - sizeof(UNICODE_NULL)) /* Are loud operations enabled? */ if (RxLoudLowIoOpsEnabled) { /* If so, the operation will be loud only if filename ends with all.scr */ if (RtlCompareMemory(Add2Ptr(capFcb->PrivateAlreadyPrefixedName.Buffer, (capFcb->PrivateAlreadyPrefixedName.Length - ALLSCR_LENGTH)), L"all.scr", ALLSCR_LENGTH) == ALLSCR_LENGTH) { SetFlag(RxContext->LowIoContext.Flags, LOWIO_CONTEXT_FLAG_LOUDOPS); } } #undef ALLSCR_LENGTH } /* * @implemented */ VOID __RxInitializeTopLevelIrpContext( IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext, IN PIRP Irp, IN PRDBSS_DEVICE_OBJECT RxDeviceObject, IN ULONG Flags) { DPRINT("__RxInitializeTopLevelIrpContext(%p, %p, %p, %u)\n", TopLevelContext, Irp, RxDeviceObject, Flags); RtlZeroMemory(TopLevelContext, sizeof(RX_TOPLEVELIRP_CONTEXT)); TopLevelContext->Irp = Irp; TopLevelContext->Flags = (Flags ? RX_TOPLEVELCTX_FLAG_FROM_POOL : 0); TopLevelContext->Signature = RX_TOPLEVELIRP_CONTEXT_SIGNATURE; TopLevelContext->RxDeviceObject = RxDeviceObject; TopLevelContext->Previous = IoGetTopLevelIrp(); TopLevelContext->Thread = PsGetCurrentThread(); /* We cannot add to list something that'd come from stack */ if (BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)) { RxAddToTopLevelIrpAllocatedContextsList(TopLevelContext); } } /* * @implemented */ VOID __RxWriteReleaseResources( PRX_CONTEXT RxContext, BOOLEAN ResourceOwnerSet, ULONG LineNumber, PCSTR FileName, ULONG SerialNumber) { RxCaptureFcb; PAGED_CODE(); ASSERT(RxContext != NULL); ASSERT(capFcb != NULL); /* If FCB resource was acquired, release it */ if (RxContext->FcbResourceAcquired) { /* Taking care of owner */ if (ResourceOwnerSet) { RxReleaseFcbForThread(RxContext, capFcb, RxContext->LowIoContext.ResourceThreadId); } else { RxReleaseFcb(RxContext, capFcb); } RxContext->FcbResourceAcquired = FALSE; } /* If FCB paging resource was acquired, release it */ if (RxContext->FcbPagingIoResourceAcquired) { /* Taking care of owner */ if (ResourceOwnerSet) { RxReleasePagingIoResourceForThread(RxContext, capFcb, RxContext->LowIoContext.ResourceThreadId); } else { RxReleasePagingIoResource(RxContext, capFcb); } /* No need to release boolean here, RxReleasePagingIoResource() takes care of it */ } } /* * @implemented */ VOID RxAddToTopLevelIrpAllocatedContextsList( PRX_TOPLEVELIRP_CONTEXT TopLevelContext) { KIRQL OldIrql; DPRINT("RxAddToTopLevelIrpAllocatedContextsList(%p)\n", TopLevelContext); ASSERT(TopLevelContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE); ASSERT(BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)); KeAcquireSpinLock(&TopLevelIrpSpinLock, &OldIrql); InsertTailList(&TopLevelIrpAllocatedContextsList, &TopLevelContext->ListEntry); KeReleaseSpinLock(&TopLevelIrpSpinLock, OldIrql); } /* * @implemented */ VOID NTAPI RxAddToWorkque( IN PRX_CONTEXT RxContext, IN PIRP Irp) { ULONG Queued; KIRQL OldIrql; WORK_QUEUE_TYPE Queue; RxCaptureParamBlock; RxContext->PostRequest = FALSE; /* First of all, select the appropriate queue - delayed for prefix claim, critical for the rest */ if (RxContext->MajorFunction == IRP_MJ_DEVICE_CONTROL && capPARAMS->Parameters.DeviceIoControl.IoControlCode == IOCTL_REDIR_QUERY_PATH) { Queue = DelayedWorkQueue; SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_FSP_DELAYED_OVERFLOW_QUEUE); } else { Queue = CriticalWorkQueue; SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE); } /* Check for overflow */ if (capPARAMS->FileObject != NULL) { KeAcquireSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock, &OldIrql); Queued = InterlockedIncrement(&RxFileSystemDeviceObject->PostedRequestCount[Queue]); /* In case of an overflow, add the new queued call to the overflow list */ if (Queued > 1) { InterlockedDecrement(&RxFileSystemDeviceObject->PostedRequestCount[Queue]); InsertTailList(&RxFileSystemDeviceObject->OverflowQueue[Queue], &RxContext->OverflowListEntry); ++RxFileSystemDeviceObject->OverflowQueueCount[Queue]; KeReleaseSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock, OldIrql); return; } KeReleaseSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock, OldIrql); } ExInitializeWorkItem(&RxContext->WorkQueueItem, RxFspDispatch, RxContext); ExQueueWorkItem((PWORK_QUEUE_ITEM)&RxContext->WorkQueueItem, Queue); } /* * @implemented */ VOID RxAdjustFileTimesAndSize( PRX_CONTEXT RxContext) { NTSTATUS Status; LARGE_INTEGER CurrentTime; FILE_BASIC_INFORMATION FileBasicInfo; FILE_END_OF_FILE_INFORMATION FileEOFInfo; BOOLEAN FileModified, SetLastChange, SetLastAccess, SetLastWrite, NeedUpdate; RxCaptureFcb; RxCaptureFobx; RxCaptureParamBlock; RxCaptureFileObject; PAGED_CODE(); /* If Cc isn't initialized, the file was not read nor written, nothing to do */ if (capFileObject->PrivateCacheMap == NULL) { return; } /* Get now */ KeQuerySystemTime(&CurrentTime); /* Was the file modified? */ FileModified = BooleanFlagOn(capFileObject->Flags, FO_FILE_MODIFIED); /* We'll set last write if it was modified and user didn't update yet */ SetLastWrite = FileModified && !BooleanFlagOn(capFobx->Flags, FOBX_FLAG_USER_SET_LAST_WRITE); /* File was accessed if: written or read (fastio), we'll update last access if user didn't */ SetLastAccess = SetLastWrite || (BooleanFlagOn(capFileObject->Flags, FO_FILE_FAST_IO_READ) && !BooleanFlagOn(capFobx->Flags, FOBX_FLAG_USER_SET_LAST_ACCESS)); /* We'll set last change if it was modified and user didn't update yet */ SetLastChange = FileModified && !BooleanFlagOn(capFobx->Flags, FOBX_FLAG_USER_SET_LAST_CHANGE); /* Nothing to update? Job done */ if (!FileModified && !SetLastWrite && !SetLastAccess && !SetLastChange) { return; } /* By default, we won't issue any MRxSetFileInfoAtCleanup call */ NeedUpdate = FALSE; RtlZeroMemory(&FileBasicInfo, sizeof(FileBasicInfo)); /* Update lastwrite time if required */ if (SetLastWrite) { NeedUpdate = TRUE; capFcb->LastWriteTime.QuadPart = CurrentTime.QuadPart; FileBasicInfo.LastWriteTime.QuadPart = CurrentTime.QuadPart; } /* Update lastaccess time if required */ if (SetLastAccess) { NeedUpdate = TRUE; capFcb->LastAccessTime.QuadPart = CurrentTime.QuadPart; FileBasicInfo.LastAccessTime.QuadPart = CurrentTime.QuadPart; } /* Update lastchange time if required */ if (SetLastChange) { NeedUpdate = TRUE; capFcb->LastChangeTime.QuadPart = CurrentTime.QuadPart; FileBasicInfo.ChangeTime.QuadPart = CurrentTime.QuadPart; } /* If one of the date was modified, issue a call to mini-rdr */ if (NeedUpdate) { RxContext->Info.FileInformationClass = FileBasicInformation; RxContext->Info.Buffer = &FileBasicInfo; RxContext->Info.Length = sizeof(FileBasicInfo); MINIRDR_CALL(Status, RxContext, capFcb->MRxDispatch, MRxSetFileInfoAtCleanup, (RxContext)); (void)Status; } /* If the file was modified, update its EOF */ if (FileModified) { FileEOFInfo.EndOfFile.QuadPart = capFcb->Header.FileSize.QuadPart; RxContext->Info.FileInformationClass = FileEndOfFileInformation; RxContext->Info.Buffer = &FileEOFInfo; RxContext->Info.Length = sizeof(FileEOFInfo); MINIRDR_CALL(Status, RxContext, capFcb->MRxDispatch, MRxSetFileInfoAtCleanup, (RxContext)); (void)Status; } } /* * @implemented */ NTSTATUS RxAllocateCanonicalNameBuffer( PRX_CONTEXT RxContext, PUNICODE_STRING CanonicalName, USHORT CanonicalLength) { PAGED_CODE(); DPRINT("RxContext: %p - CanonicalNameBuffer: %p\n", RxContext, RxContext->Create.CanonicalNameBuffer); /* Context must be free of any already allocated name */ ASSERT(RxContext->Create.CanonicalNameBuffer == NULL); /* Validate string length */ if (CanonicalLength > USHRT_MAX - 1) { CanonicalName->Buffer = NULL; return STATUS_OBJECT_PATH_INVALID; } CanonicalName->Buffer = RxAllocatePoolWithTag(PagedPool | POOL_COLD_ALLOCATION, CanonicalLength, RX_MISC_POOLTAG); if (CanonicalName->Buffer == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } CanonicalName->Length = 0; CanonicalName->MaximumLength = CanonicalLength; /* Set the two places - they must always be identical */ RxContext->Create.CanonicalNameBuffer = CanonicalName->Buffer; RxContext->AlsoCanonicalNameBuffer = CanonicalName->Buffer; return STATUS_SUCCESS; } /* * @implemented */ VOID RxCancelNotifyChangeDirectoryRequestsForFobx( PFOBX Fobx) { KIRQL OldIrql; PLIST_ENTRY Entry; PRX_CONTEXT Context; LIST_ENTRY ContextsToCancel; /* Init a list for the contexts to cancel */ InitializeListHead(&ContextsToCancel); /* Lock our list lock */ KeAcquireSpinLock(&RxStrucSupSpinLock, &OldIrql); /* Now, browse all the active contexts, to find the associated ones */ Entry = RxActiveContexts.Flink; while (Entry != &RxActiveContexts) { Context = CONTAINING_RECORD(Entry, RX_CONTEXT, ContextListEntry); Entry = Entry->Flink; /* Not the IRP we're looking for, ignore */ if (Context->MajorFunction != IRP_MJ_DIRECTORY_CONTROL || Context->MinorFunction != IRP_MN_NOTIFY_CHANGE_DIRECTORY) { continue; } /* Not the FOBX we're looking for, ignore */ if ((PFOBX)Context->pFobx != Fobx) { continue; } /* No cancel routine (can't be cancel, then), ignore */ if (Context->MRxCancelRoutine == NULL) { continue; } /* Mark our context as cancelled */ SetFlag(Context->Flags, RX_CONTEXT_FLAG_CANCELLED); /* Move it to our list */ RemoveEntryList(&Context->ContextListEntry); InsertTailList(&ContextsToCancel, &Context->ContextListEntry); InterlockedIncrement((volatile long *)&Context->ReferenceCount); } /* Done with the contexts */ KeReleaseSpinLock(&RxStrucSupSpinLock, OldIrql); /* Now, handle all our "extracted" contexts */ while (!IsListEmpty(&ContextsToCancel)) { Entry = RemoveHeadList(&ContextsToCancel); Context = CONTAINING_RECORD(Entry, RX_CONTEXT, ContextListEntry); /* If they had an associated IRP (should be always true) */ if (Context->CurrentIrp != NULL) { /* Then, call cancel routine */ ASSERT(Context->MRxCancelRoutine != NULL); DPRINT1("Canceling %p with %p\n", Context, Context->MRxCancelRoutine); Context->MRxCancelRoutine(Context); } /* And delete the context */ RxDereferenceAndDeleteRxContext(Context); } } /* * @implemented */ NTSTATUS RxCancelNotifyChangeDirectoryRequestsForVNetRoot( PV_NET_ROOT VNetRoot, BOOLEAN ForceFilesClosed) { KIRQL OldIrql; NTSTATUS Status; PLIST_ENTRY Entry; PRX_CONTEXT Context; LIST_ENTRY ContextsToCancel; /* Init a list for the contexts to cancel */ InitializeListHead(&ContextsToCancel); /* Lock our list lock */ KeAcquireSpinLock(&RxStrucSupSpinLock, &OldIrql); /* Assume success */ Status = STATUS_SUCCESS; /* Now, browse all the active contexts, to find the associated ones */ Entry = RxActiveContexts.Flink; while (Entry != &RxActiveContexts) { Context = CONTAINING_RECORD(Entry, RX_CONTEXT, ContextListEntry); Entry = Entry->Flink; /* Not the IRP we're looking for, ignore */ if (Context->MajorFunction != IRP_MJ_DIRECTORY_CONTROL || Context->MinorFunction != IRP_MN_NOTIFY_CHANGE_DIRECTORY) { continue; } /* Not the VNetRoot we're looking for, ignore */ if (Context->pFcb == NULL || (PV_NET_ROOT)Context->NotifyChangeDirectory.pVNetRoot != VNetRoot) { continue; } /* No cancel routine (can't be cancel, then), ignore */ if (Context->MRxCancelRoutine == NULL) { continue; } /* At that point, we found a matching context * If we're not asked to force close, then fail - it's still open */ if (!ForceFilesClosed) { Status = STATUS_FILES_OPEN; break; } /* Mark our context as cancelled */ SetFlag(Context->Flags, RX_CONTEXT_FLAG_CANCELLED); /* Move it to our list */ RemoveEntryList(&Context->ContextListEntry); InsertTailList(&ContextsToCancel, &Context->ContextListEntry); InterlockedIncrement((volatile long *)&Context->ReferenceCount); } /* Done with the contexts */ KeReleaseSpinLock(&RxStrucSupSpinLock, OldIrql); if (Status != STATUS_SUCCESS) { return Status; } /* Now, handle all our "extracted" contexts */ while (!IsListEmpty(&ContextsToCancel)) { Entry = RemoveHeadList(&ContextsToCancel); Context = CONTAINING_RECORD(Entry, RX_CONTEXT, ContextListEntry); /* If they had an associated IRP (should be always true) */ if (Context->CurrentIrp != NULL) { /* Then, call cancel routine */ ASSERT(Context->MRxCancelRoutine != NULL); DPRINT1("Canceling %p with %p\n", Context, Context->MRxCancelRoutine); Context->MRxCancelRoutine(Context); } /* And delete the context */ RxDereferenceAndDeleteRxContext(Context); } return Status; } /* * @implemented */ BOOLEAN RxCancelOperationInOverflowQueue( PRX_CONTEXT RxContext) { KIRQL OldIrql; BOOLEAN OperationToCancel; /* By default, nothing cancelled */ OperationToCancel = FALSE; /* Acquire the overflow spinlock */ KeAcquireSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock, &OldIrql); /* Is our context in any queue? */ if (BooleanFlagOn(RxContext->Flags, (RX_CONTEXT_FLAG_FSP_DELAYED_OVERFLOW_QUEUE | RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE))) { /* Make sure flag is consistent with facts... */ if (RxContext->OverflowListEntry.Flink != NULL) { /* Remove it from the list */ RemoveEntryList(&RxContext->OverflowListEntry); RxContext->OverflowListEntry.Flink = NULL; /* Decrement appropriate count */ if (BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE)) { --RxFileSystemDeviceObject->OverflowQueueCount[CriticalWorkQueue]; } else { --RxFileSystemDeviceObject->OverflowQueueCount[DelayedWorkQueue]; } /* Clear the flag */ ClearFlag(RxContext->Flags, ~(RX_CONTEXT_FLAG_FSP_DELAYED_OVERFLOW_QUEUE | RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE)); /* Time to cancel! */ OperationToCancel = TRUE; } } KeReleaseSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock, OldIrql); /* We have something to cancel & complete */ if (OperationToCancel) { RxRemoveOperationFromBlockingQueue(RxContext); RxCompleteRequest(RxContext, STATUS_CANCELLED); } return OperationToCancel; } /* * @implemented */ VOID NTAPI RxCancelRoutine( PDEVICE_OBJECT DeviceObject, PIRP Irp) { KIRQL OldIrql; PLIST_ENTRY Entry; PRX_CONTEXT RxContext; /* Lock our contexts list */ KeAcquireSpinLock(&RxStrucSupSpinLock, &OldIrql); /* Now, find a context that matches the cancelled IRP */ Entry = RxActiveContexts.Flink; while (Entry != &RxActiveContexts) { RxContext = CONTAINING_RECORD(Entry, RX_CONTEXT, ContextListEntry); Entry = Entry->Flink; /* Found! */ if (RxContext->CurrentIrp == Irp) { break; } } /* If we reached the end of the list, we didn't find any context, so zero the buffer * If the context is already under cancellation, forget about it too */ if (Entry == &RxActiveContexts || BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_CANCELLED)) { RxContext = NULL; } else { /* Otherwise, reference it and mark it cancelled */ SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_CANCELLED); InterlockedIncrement((volatile long *)&RxContext->ReferenceCount); } /* Done with the contexts list */ KeReleaseSpinLock(&RxStrucSupSpinLock, OldIrql); /* And done with the cancellation, we'll do it now */ IoReleaseCancelSpinLock(Irp->CancelIrql); /* If we have a context to cancel */ if (RxContext != NULL) { /* We cannot executed at dispatch, so queue a deferred cancel */ if (KeGetCurrentIrql() >= DISPATCH_LEVEL) { RxDispatchToWorkerThread(RxFileSystemDeviceObject, CriticalWorkQueue, RxpCancelRoutine, RxContext); } /* Cancel now! */ else { RxpCancelRoutine(RxContext); } } } /* * @implemented */ NTSTATUS RxCanonicalizeFileNameByServerSpecs( PRX_CONTEXT RxContext, PUNICODE_STRING NetRootName) { USHORT NextChar, CurChar; USHORT MaxChars; PAGED_CODE(); /* Validate file name is not empty */ MaxChars = NetRootName->Length / sizeof(WCHAR); if (MaxChars == 0) { return STATUS_MORE_PROCESSING_REQUIRED; } /* Validate name is correct */ for (NextChar = 0, CurChar = 0; CurChar + 1 < MaxChars; NextChar = CurChar + 1) { USHORT i; for (i = NextChar + 1; i < MaxChars; ++i) { if (NetRootName->Buffer[i] == '\\' || NetRootName->Buffer[i] == ':') { break; } } CurChar = i - 1; if (CurChar == NextChar) { if (((NetRootName->Buffer[NextChar] != '\\' && NetRootName->Buffer[NextChar] != ':') || NextChar == (MaxChars - 1)) && NetRootName->Buffer[NextChar] != '.') { continue; } if (CurChar != 0) { if (CurChar >= MaxChars - 1) { continue; } if (NetRootName->Buffer[CurChar + 1] != ':') { return STATUS_OBJECT_PATH_SYNTAX_BAD; } } else { if (NetRootName->Buffer[1] != ':') { return STATUS_OBJECT_PATH_SYNTAX_BAD; } } } else { if ((CurChar - NextChar) == 1) { if (NetRootName->Buffer[NextChar + 2] != '.') { continue; } if (NetRootName->Buffer[NextChar] == '\\' || NetRootName->Buffer[NextChar] == ':' || NetRootName->Buffer[NextChar] == '.') { return STATUS_OBJECT_PATH_SYNTAX_BAD; } } else { if ((CurChar - NextChar) != 2 || (NetRootName->Buffer[NextChar] != '\\' && NetRootName->Buffer[NextChar] != ':') || NetRootName->Buffer[NextChar + 1] != '.') { continue; } if (NetRootName->Buffer[NextChar + 2] == '.') { return STATUS_OBJECT_PATH_SYNTAX_BAD; } } } } return STATUS_MORE_PROCESSING_REQUIRED; } NTSTATUS RxCanonicalizeNameAndObtainNetRoot( PRX_CONTEXT RxContext, PUNICODE_STRING FileName, PUNICODE_STRING NetRootName) { NTSTATUS Status; NET_ROOT_TYPE NetRootType; UNICODE_STRING CanonicalName; RxCaptureParamBlock; RxCaptureFileObject; PAGED_CODE(); NetRootType = NET_ROOT_WILD; RtlInitEmptyUnicodeString(NetRootName, NULL, 0); RtlInitEmptyUnicodeString(&CanonicalName, NULL, 0); /* if not relative opening, just handle the passed name */ if (capFileObject->RelatedFileObject == NULL) { Status = RxFirstCanonicalize(RxContext, FileName, &CanonicalName, &NetRootType); if (!NT_SUCCESS(Status)) { return Status; } } else { PFCB Fcb; /* Make sure we have a valid FCB and a FOBX */ Fcb = capFileObject->RelatedFileObject->FsContext; if (Fcb == NULL || capFileObject->RelatedFileObject->FsContext2 == NULL) { return STATUS_INVALID_PARAMETER; } if (!NodeTypeIsFcb(Fcb)) { return STATUS_INVALID_PARAMETER; } UNIMPLEMENTED; } /* Get/Create the associated VNetRoot for opening */ Status = RxFindOrConstructVirtualNetRoot(RxContext, &CanonicalName, NetRootType, NetRootName); if (!NT_SUCCESS(Status) && Status != STATUS_PENDING && BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_MAILSLOT_REPARSE)) { ASSERT(CanonicalName.Buffer == RxContext->Create.CanonicalNameBuffer); RxFreeCanonicalNameBuffer(RxContext); Status = RxFirstCanonicalize(RxContext, FileName, &CanonicalName, &NetRootType); if (NT_SUCCESS(Status)) { Status = RxFindOrConstructVirtualNetRoot(RxContext, &CanonicalName, NetRootType, NetRootName); } } /* Filename cannot contain wildcards */ if (FsRtlDoesNameContainWildCards(NetRootName)) { Status = STATUS_OBJECT_NAME_INVALID; } /* Make sure file name is correct */ if (NT_SUCCESS(Status)) { Status = RxCanonicalizeFileNameByServerSpecs(RxContext, NetRootName); } /* Give the mini-redirector a chance to prepare the name */ if (NT_SUCCESS(Status) || Status == STATUS_MORE_PROCESSING_REQUIRED) { if (RxContext->Create.pNetRoot != NULL) { NTSTATUS IgnoredStatus; MINIRDR_CALL(IgnoredStatus, RxContext, RxContext->Create.pNetRoot->pSrvCall->RxDeviceObject->Dispatch, MRxPreparseName, (RxContext, NetRootName)); (void)IgnoredStatus; } } return Status; } /* * @implemented */ VOID NTAPI RxCheckFcbStructuresForAlignment( VOID) { PAGED_CODE(); } #if DBG NTSTATUS RxCheckShareAccess( _In_ ACCESS_MASK DesiredAccess, _In_ ULONG DesiredShareAccess, _Inout_ PFILE_OBJECT FileObject, _Inout_ PSHARE_ACCESS ShareAccess, _In_ BOOLEAN Update, _In_ PSZ where, _In_ PSZ wherelogtag) { PAGED_CODE(); RxDumpWantedAccess(where, "", wherelogtag, DesiredAccess, DesiredShareAccess); RxDumpCurrentAccess(where, "", wherelogtag, ShareAccess); return IoCheckShareAccess(DesiredAccess, DesiredShareAccess, FileObject, ShareAccess, Update); } #endif /* * @implemented */ NTSTATUS RxCheckShareAccessPerSrvOpens( IN PFCB Fcb, IN ACCESS_MASK DesiredAccess, IN ULONG DesiredShareAccess) { BOOLEAN ReadAccess; BOOLEAN WriteAccess; BOOLEAN DeleteAccess; PSHARE_ACCESS ShareAccess; PAGED_CODE(); ShareAccess = &Fcb->ShareAccessPerSrvOpens; RxDumpWantedAccess("RxCheckShareAccessPerSrvOpens", "", "RxCheckShareAccessPerSrvOpens", DesiredAccess, DesiredShareAccess); RxDumpCurrentAccess("RxCheckShareAccessPerSrvOpens", "", "RxCheckShareAccessPerSrvOpens", ShareAccess); /* Check if any access wanted */ ReadAccess = (DesiredAccess & (FILE_READ_DATA | FILE_EXECUTE)) != 0; WriteAccess = (DesiredAccess & (FILE_WRITE_DATA | FILE_APPEND_DATA)) != 0; DeleteAccess = (DesiredAccess & DELETE) != 0; if (ReadAccess || WriteAccess || DeleteAccess) { BOOLEAN SharedRead = (DesiredShareAccess & FILE_SHARE_READ) != 0; BOOLEAN SharedWrite = (DesiredShareAccess & FILE_SHARE_WRITE) != 0; BOOLEAN SharedDelete = (DesiredShareAccess & FILE_SHARE_DELETE) != 0; /* Check whether there's a violation */ if ((ReadAccess && (ShareAccess->SharedRead < ShareAccess->OpenCount)) || (WriteAccess && (ShareAccess->SharedWrite < ShareAccess->OpenCount)) || (DeleteAccess && (ShareAccess->SharedDelete < ShareAccess->OpenCount)) || ((ShareAccess->Readers != 0) && !SharedRead) || ((ShareAccess->Writers != 0) && !SharedWrite) || ((ShareAccess->Deleters != 0) && !SharedDelete)) { return STATUS_SHARING_VIOLATION; } } return STATUS_SUCCESS; } VOID RxCleanupPipeQueues( PRX_CONTEXT Context) { UNIMPLEMENTED; } /* * @implemented */ NTSTATUS RxCloseAssociatedSrvOpen( IN PFOBX Fobx, IN PRX_CONTEXT RxContext OPTIONAL) { PFCB Fcb; NTSTATUS Status; PSRV_OPEN SrvOpen; BOOLEAN CloseSrvOpen; PRX_CONTEXT LocalContext; PAGED_CODE(); /* Assume SRV_OPEN is already closed */ CloseSrvOpen = FALSE; /* If we have a FOBX, we'll have to close it */ if (Fobx != NULL) { /* If the FOBX isn't closed yet */ if (!BooleanFlagOn(Fobx->Flags, FOBX_FLAG_SRVOPEN_CLOSED)) { SrvOpen = Fobx->SrvOpen; Fcb = (PFCB)SrvOpen->pFcb; /* Check whether we've to close SRV_OPEN first */ if (!BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_CLOSED)) { CloseSrvOpen = TRUE; } else { ASSERT(RxIsFcbAcquiredExclusive(Fcb)); /* Not much to do */ SetFlag(Fobx->Flags, FOBX_FLAG_SRVOPEN_CLOSED); if (SrvOpen->OpenCount > 0) { --SrvOpen->OpenCount; } } } /* No need to close SRV_OPEN, so close FOBX */ if (!CloseSrvOpen) { RxMarkFobxOnClose(Fobx); return STATUS_SUCCESS; } } else { /* No FOBX? No RX_CONTEXT, ok, job done! */ if (RxContext == NULL) { return STATUS_SUCCESS; } /* Get the FCB from RX_CONTEXT */ Fcb = (PFCB)RxContext->pFcb; SrvOpen = NULL; } /* If we don't have RX_CONTEXT, allocte one, we'll need it */ if (RxContext == NULL) { ASSERT(Fobx != NULL); LocalContext = RxCreateRxContext(NULL, Fcb->RxDeviceObject, RX_CONTEXT_FLAG_MUST_SUCCEED_NONBLOCKING | RX_CONTEXT_FLAG_WAIT); if (LocalContext == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } LocalContext->MajorFunction = 2; LocalContext->pFcb = RX_GET_MRX_FCB(Fcb); LocalContext->pFobx = (PMRX_FOBX)Fobx; LocalContext->pRelevantSrvOpen = (PMRX_SRV_OPEN)Fobx->SrvOpen; } else { LocalContext = RxContext; } ASSERT(RxIsFcbAcquiredExclusive(Fcb)); /* Now, close the FOBX */ if (Fobx != NULL) { RxMarkFobxOnClose(Fobx); } else { InterlockedDecrement((volatile long *)&Fcb->OpenCount); } /* If not a "standard" file, SRV_OPEN can be null */ if (SrvOpen == NULL) { ASSERT((NodeType(Fcb) == RDBSS_NTC_OPENTARGETDIR_FCB) || (NodeType(Fcb) == RDBSS_NTC_IPC_SHARE) || (NodeType(Fcb) == RDBSS_NTC_MAILSLOT)); RxDereferenceNetFcb(Fcb); if (LocalContext != RxContext) { RxDereferenceAndDeleteRxContext(LocalContext); } return STATUS_SUCCESS; } /* If SRV_OPEN isn't in a good condition, nothing to close */ if (SrvOpen->Condition != Condition_Good) { if (LocalContext != RxContext) { RxDereferenceAndDeleteRxContext(LocalContext); } return STATUS_SUCCESS; } /* Decrease open count */ if (SrvOpen->OpenCount > 0) { --SrvOpen->OpenCount; } /* If we're the only one left, is there a FOBX handled by Scavenger? */ if (SrvOpen->OpenCount == 1) { if (!IsListEmpty(&SrvOpen->FobxList)) { if (!IsListEmpty(&CONTAINING_RECORD(SrvOpen->FobxList.Flink, FOBX, FobxQLinks)->ScavengerFinalizationList)) { SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_CLOSE_DELAYED); } } } /* Nothing left, purge FCB */ if (SrvOpen->OpenCount == 0 && RxContext == NULL) { RxPurgeNetFcb(Fcb, LocalContext); } /* Already closed? Job done! */ SrvOpen = Fobx->SrvOpen; if (SrvOpen == NULL || (SrvOpen->OpenCount != 0 && !BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_BUFFERING_STATE_CHANGE_PENDING)) || BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_CLOSED)) { SetFlag(Fobx->Flags, FOBX_FLAG_SRVOPEN_CLOSED); if (LocalContext != RxContext) { RxDereferenceAndDeleteRxContext(LocalContext); } return STATUS_SUCCESS; } ASSERT(RxIsFcbAcquiredExclusive(Fcb)); /* Inform mini-rdr about closing */ MINIRDR_CALL(Status, LocalContext, Fcb->MRxDispatch, MRxCloseSrvOpen, (LocalContext)); DPRINT("MRxCloseSrvOpen returned: %lx, called with RX_CONTEXT %p for FOBX %p (FCB %p, SRV_OPEN %p)\n ", Status, RxContext, Fobx, Fcb, SrvOpen); /* And mark as such */ SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_CLOSED); SrvOpen->Key = (PVOID)-1; /* If we were delayed, we're not! */ if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_CLOSE_DELAYED)) { InterlockedDecrement(&((PSRV_CALL)Fcb->pNetRoot->pSrvCall)->NumberOfCloseDelayedFiles); } /* Clear access */ RxRemoveShareAccessPerSrvOpens(SrvOpen); RxPurgeChangeBufferingStateRequestsForSrvOpen(SrvOpen); /* Dereference */ RxDereferenceSrvOpen(SrvOpen, LHS_ExclusiveLockHeld); /* Mark the FOBX closed as well */ SetFlag(Fobx->Flags, FOBX_FLAG_SRVOPEN_CLOSED); if (LocalContext != RxContext) { RxDereferenceAndDeleteRxContext(LocalContext); } return Status; } /* * @implemented */ NTSTATUS RxCollapseOrCreateSrvOpen( PRX_CONTEXT RxContext) { NTSTATUS Status; ULONG Disposition; PSRV_OPEN SrvOpen; USHORT ShareAccess; ACCESS_MASK DesiredAccess; RX_BLOCK_CONDITION FcbCondition; RxCaptureFcb; RxCaptureParamBlock; PAGED_CODE(); DPRINT("RxCollapseOrCreateSrvOpen(%p)\n", RxContext); ASSERT(RxIsFcbAcquiredExclusive(capFcb)); ++capFcb->UncleanCount; DesiredAccess = capPARAMS->Parameters.Create.SecurityContext->DesiredAccess & FILE_ALL_ACCESS; ShareAccess = capPARAMS->Parameters.Create.ShareAccess & FILE_SHARE_VALID_FLAGS; Disposition = RxContext->Create.NtCreateParameters.Disposition; /* Try to find a reusable SRV_OPEN */ Status = RxSearchForCollapsibleOpen(RxContext, DesiredAccess, ShareAccess); if (Status == STATUS_NOT_FOUND) { /* If none found, create one */ SrvOpen = RxCreateSrvOpen((PV_NET_ROOT)RxContext->Create.pVNetRoot, capFcb); if (SrvOpen == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; } else { SrvOpen->DesiredAccess = DesiredAccess; SrvOpen->ShareAccess = ShareAccess; Status = STATUS_SUCCESS; } RxContext->pRelevantSrvOpen = (PMRX_SRV_OPEN)SrvOpen; if (Status != STATUS_SUCCESS) { FcbCondition = Condition_Bad; } else { RxInitiateSrvOpenKeyAssociation(SrvOpen); /* Cookie to check the mini-rdr doesn't mess with RX_CONTEXT */ RxContext->CurrentIrp->IoStatus.Information = 0xABCDEF; /* Inform the mini-rdr we're handling a create */ MINIRDR_CALL(Status, RxContext, capFcb->MRxDispatch, MRxCreate, (RxContext)); ASSERT(RxContext->CurrentIrp->IoStatus.Information == 0xABCDEF); DPRINT("MRxCreate returned: %x\n", Status); if (Status == STATUS_SUCCESS) { /* In case of overwrite, reset file size */ if (Disposition == FILE_OVERWRITE || Disposition == FILE_OVERWRITE_IF) { RxAcquirePagingIoResource(RxContext, capFcb); capFcb->Header.AllocationSize.QuadPart = 0LL; capFcb->Header.FileSize.QuadPart = 0LL; capFcb->Header.ValidDataLength.QuadPart = 0LL; RxContext->CurrentIrpSp->FileObject->SectionObjectPointer = &capFcb->NonPaged->SectionObjectPointers; CcSetFileSizes(RxContext->CurrentIrpSp->FileObject, (PCC_FILE_SIZES)&capFcb->Header.AllocationSize); RxReleasePagingIoResource(RxContext, capFcb); } else { /* Otherwise, adjust sizes */ RxContext->CurrentIrpSp->FileObject->SectionObjectPointer = &capFcb->NonPaged->SectionObjectPointers; if (CcIsFileCached(RxContext->CurrentIrpSp->FileObject)) { RxAdjustAllocationSizeforCC(capFcb); } CcSetFileSizes(RxContext->CurrentIrpSp->FileObject, (PCC_FILE_SIZES)&capFcb->Header.AllocationSize); } } /* Set the IoStatus with information returned by mini-rdr */ RxContext->CurrentIrp->IoStatus.Information = RxContext->Create.ReturnedCreateInformation; SrvOpen->OpenStatus = Status; /* Set SRV_OPEN state - good or bad - depending on whether create succeed */ RxTransitionSrvOpen(SrvOpen, (Status == STATUS_SUCCESS ? Condition_Good : Condition_Bad)); ASSERT(RxIsFcbAcquiredExclusive(capFcb)); RxCompleteSrvOpenKeyAssociation(SrvOpen); if (Status == STATUS_SUCCESS) { if (BooleanFlagOn(capPARAMS->Parameters.Create.Options, FILE_DELETE_ON_CLOSE)) { ClearFlag(capFcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); } SrvOpen->CreateOptions = RxContext->Create.NtCreateParameters.CreateOptions; FcbCondition = Condition_Good; } else { FcbCondition = Condition_Bad; RxDereferenceSrvOpen(SrvOpen, LHS_ExclusiveLockHeld); RxContext->pRelevantSrvOpen = NULL; if (RxContext->pFobx != NULL) { RxDereferenceNetFobx(RxContext->pFobx, LHS_ExclusiveLockHeld); RxContext->pFobx = NULL; } } } /* Set FCB state - good or bad - depending on whether create succeed */ DPRINT("Transitioning FCB %p to condition %lx\n", capFcb, capFcb->Condition); RxTransitionNetFcb(capFcb, FcbCondition); } else if (Status == STATUS_SUCCESS) { BOOLEAN IsGood, ExtraOpen; /* A reusable SRV_OPEN was found */ RxContext->CurrentIrp->IoStatus.Information = FILE_OPENED; ExtraOpen = FALSE; SrvOpen = (PSRV_OPEN)RxContext->pRelevantSrvOpen; IsGood = (SrvOpen->Condition == Condition_Good); /* If the SRV_OPEN isn't in a stable situation, wait for it to become stable */ if (!StableCondition(SrvOpen->Condition)) { RxReferenceSrvOpen(SrvOpen); ++SrvOpen->OpenCount; ExtraOpen = TRUE; RxReleaseFcb(RxContext, capFcb); RxContext->Create.FcbAcquired = FALSE; RxWaitForStableSrvOpen(SrvOpen, RxContext); if (NT_SUCCESS(RxAcquireExclusiveFcb(RxContext, capFcb))) { RxContext->Create.FcbAcquired = TRUE; } IsGood = (SrvOpen->Condition == Condition_Good); } /* Inform the mini-rdr we do an opening with a reused SRV_OPEN */ if (IsGood) { MINIRDR_CALL(Status, RxContext, capFcb->MRxDispatch, MRxCollapseOpen, (RxContext)); ASSERT(RxIsFcbAcquiredExclusive(capFcb)); } else { Status = SrvOpen->OpenStatus; } if (ExtraOpen) { --SrvOpen->OpenCount; RxDereferenceSrvOpen(SrvOpen, LHS_ExclusiveLockHeld); } } --capFcb->UncleanCount; DPRINT("Status: %x\n", Status); return Status; } /* * @implemented */ NTSTATUS NTAPI RxCommonCleanup( PRX_CONTEXT Context) { #define BugCheckFileId RDBSS_BUG_CHECK_CLEANUP PFCB Fcb; PFOBX Fobx; ULONG OpenCount; NTSTATUS Status; PNET_ROOT NetRoot; PFILE_OBJECT FileObject; LARGE_INTEGER TruncateSize; PLARGE_INTEGER TruncateSizePtr; BOOLEAN NeedPurge, FcbTableAcquired, OneLeft, IsFile, FcbAcquired, LeftForDelete; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; DPRINT("RxCommonCleanup(%p); FOBX: %p, FCB: %p\n", Context, Fobx, Fcb); /* File system closing, it's OK */ if (Fobx == NULL) { if (Fcb->UncleanCount > 0) { InterlockedDecrement((volatile long *)&Fcb->UncleanCount); } return STATUS_SUCCESS; } /* Check we have a correct FCB type */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_FILE && NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_DIRECTORY && NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_UNKNOWN && NodeType(Fcb) != RDBSS_NTC_SPOOLFILE) { DPRINT1("Invalid Fcb type for %p\n", Fcb); RxBugCheck(Fcb->Header.NodeTypeCode, 0, 0); } FileObject = Context->CurrentIrpSp->FileObject; ASSERT(!BooleanFlagOn(FileObject->Flags, FO_CLEANUP_COMPLETE)); RxMarkFobxOnCleanup(Fobx, &NeedPurge); Status = RxAcquireExclusiveFcb(Context, Fcb); if (!NT_SUCCESS(Status)) { return Status; } FcbAcquired = TRUE; Fobx->AssociatedFileObject = NULL; /* In case it was already orphaned */ if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_ORPHANED)) { ASSERT(Fcb->UncleanCount != 0); InterlockedDecrement((volatile long *)&Fcb->UncleanCount); if (BooleanFlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) { --Fcb->UncachedUncleanCount; } /* Inform mini-rdr */ MINIRDR_CALL(Status, Context, Fcb->MRxDispatch, MRxCleanupFobx, (Context)); ASSERT(Fobx->SrvOpen->UncleanFobxCount != 0); --Fobx->SrvOpen->UncleanFobxCount; RxUninitializeCacheMap(Context, FileObject, NULL); RxReleaseFcb(Context, Fcb); return STATUS_SUCCESS; } /* Report the fact that file could be set as delete on close */ if (BooleanFlagOn(Fobx->Flags, FOBX_FLAG_DELETE_ON_CLOSE)) { SetFlag(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE); } /* Cancel any pending notification */ RxCancelNotifyChangeDirectoryRequestsForFobx(Fobx); /* Backup open count before we start playing with it */ OpenCount = Fcb->ShareAccess.OpenCount; NetRoot = (PNET_ROOT)Fcb->pNetRoot; FcbTableAcquired = FALSE; LeftForDelete = FALSE; OneLeft = (Fcb->UncleanCount == 1); _SEH2_TRY { /* Unclean count and delete on close? Verify whether we're the one */ if (OneLeft && BooleanFlagOn(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE)) { if (RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, FALSE)) { FcbTableAcquired = TRUE; } else { RxReleaseFcb(Context, Fcb); RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, TRUE); Status = RxAcquireExclusiveFcb(Context, Fcb); if (Status != STATUS_SUCCESS) { RxReleaseFcbTableLock(&NetRoot->FcbTable); return Status; } FcbTableAcquired = TRUE; } /* That means we'll perform the delete on close! */ if (Fcb->UncleanCount == 1) { LeftForDelete = TRUE; } else { RxReleaseFcbTableLock(&NetRoot->FcbTable); FcbTableAcquired = FALSE; } } IsFile = FALSE; TruncateSizePtr = NULL; /* Handle cleanup for pipes and printers */ if (NetRoot->Type == NET_ROOT_PIPE || NetRoot->Type == NET_ROOT_PRINT) { RxCleanupPipeQueues(Context); } /* Handle cleanup for files */ else if (NetRoot->Type == NET_ROOT_DISK || NetRoot->Type == NET_ROOT_WILD) { Context->LowIoContext.Flags |= LOWIO_CONTEXT_FLAG_SAVEUNLOCKS; if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_FILE) { /* First, unlock */ FsRtlFastUnlockAll(&Fcb->Specific.Fcb.FileLock, FileObject, RxGetRequestorProcess(Context), Context); /* If there are still locks to release, proceed */ if (Context->LowIoContext.ParamsFor.Locks.LockList != NULL) { RxInitializeLowIoContext(&Context->LowIoContext, LOWIO_OP_UNLOCK_MULTIPLE); Context->LowIoContext.ParamsFor.Locks.Flags = 0; Status = RxLowIoLockControlShell(Context); } /* Fix times and size */ RxAdjustFileTimesAndSize(Context); /* If we're the only one left... */ if (OneLeft) { /* And if we're supposed to delete on close */ if (LeftForDelete) { /* Update the sizes */ RxAcquirePagingIoResource(Context, Fcb); Fcb->Header.FileSize.QuadPart = 0; Fcb->Header.ValidDataLength.QuadPart = 0; RxReleasePagingIoResource(Context, Fcb); } /* Otherwise, call the mini-rdr to adjust sizes */ else { /* File got grown up, fill with zeroes */ if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_PAGING_FILE) && (Fcb->Header.ValidDataLength.QuadPart < Fcb->Header.FileSize.QuadPart)) { MINIRDR_CALL(Status, Context, Fcb->MRxDispatch, MRxZeroExtend, (Context)); Fcb->Header.ValidDataLength.QuadPart = Fcb->Header.FileSize.QuadPart; } /* File was truncated, let mini-rdr proceed */ if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_TRUNCATE_ON_CLOSE)) { MINIRDR_CALL(Status, Context, Fcb->MRxDispatch, MRxTruncate, (Context)); ClearFlag(Fcb->FcbState, FCB_STATE_TRUNCATE_ON_CLOSE); /* Keep track of file change for Cc uninit */ TruncateSize.QuadPart = Fcb->Header.FileSize.QuadPart; TruncateSizePtr = &TruncateSize; } } } /* If RxMarkFobxOnCleanup() asked for purge, make sure we're the only one left first */ if (NeedPurge) { if (!OneLeft) { NeedPurge = FALSE; } } /* Otherwise, try to see whether we can purge */ else { NeedPurge = (OneLeft && (LeftForDelete || !BooleanFlagOn(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED))); } IsFile = TRUE; } } /* We have to still be there! */ ASSERT(Fcb->UncleanCount != 0); InterlockedDecrement((volatile long *)&Fcb->UncleanCount); if (BooleanFlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) { --Fcb->UncachedUncleanCount; } /* Inform mini-rdr about ongoing cleanup */ MINIRDR_CALL(Status, Context, Fcb->MRxDispatch, MRxCleanupFobx, (Context)); ASSERT(Fobx->SrvOpen->UncleanFobxCount != 0); --Fobx->SrvOpen->UncleanFobxCount; /* Flush cache */ if (DisableFlushOnCleanup) { /* Only if we're the last standing */ if (Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL && Fcb->UncleanCount == Fcb->UncachedUncleanCount) { DPRINT("Flushing %p due to last cached handle cleanup\n", Context); RxFlushFcbInSystemCache(Fcb, TRUE); } } else { /* Always */ if (Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL) { DPRINT("Flushing %p on cleanup\n", Context); RxFlushFcbInSystemCache(Fcb, TRUE); } } /* If only remaining uncached & unclean, then flush and purge */ if (!BooleanFlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) { if (Fcb->UncachedUncleanCount != 0) { if (Fcb->UncachedUncleanCount == Fcb->UncleanCount && Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL) { DPRINT("Flushing FCB in system cache for %p\n", Context); RxPurgeFcbInSystemCache(Fcb, NULL, 0, FALSE, TRUE); } } } /* If purge required, and not about to delete, flush */ if (!LeftForDelete && NeedPurge) { DPRINT("Flushing FCB in system cache for %p\n", Context); RxFlushFcbInSystemCache(Fcb, TRUE); } /* If it was a file, drop cache */ if (IsFile) { DPRINT("Uninit cache map for file\n"); RxUninitializeCacheMap(Context, FileObject, TruncateSizePtr); } /* If that's the one left for deletion, or if it needs purge, flush */ if (LeftForDelete || NeedPurge) { RxPurgeFcbInSystemCache(Fcb, NULL, 0, FALSE, !LeftForDelete); /* If that's for deletion, also remove from FCB table */ if (LeftForDelete) { RxRemoveNameNetFcb(Fcb); RxReleaseFcbTableLock(&NetRoot->FcbTable); FcbTableAcquired = FALSE; } } /* Remove any share access */ if (OpenCount != 0 && NetRoot->Type == NET_ROOT_DISK) { RxRemoveShareAccess(FileObject, &Fcb->ShareAccess, "Cleanup the share access", "ClnUpShr"); } /* In case there's caching, on a file, and we were asked to drop collapsing, handle it */ if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_FILE && BooleanFlagOn(Fobx->Flags, FOBX_FLAG_DISABLE_COLLAPSING) && RxWriteCacheingAllowed(Fcb, Fobx->pSrvOpen)) { NTSTATUS InternalStatus; PRX_CONTEXT InternalContext; /* If we can properly set EOF, there's no need to drop collapsing, try to do it */ InternalStatus = STATUS_UNSUCCESSFUL; InternalContext = RxCreateRxContext(Context->CurrentIrp, Fcb->RxDeviceObject, RX_CONTEXT_FLAG_WAIT | RX_CONTEXT_FLAG_MUST_SUCCEED_NONBLOCKING); if (InternalContext != NULL) { FILE_END_OF_FILE_INFORMATION FileEOF; InternalStatus = STATUS_SUCCESS; /* Initialize the context for file information set */ InternalContext->pFcb = RX_GET_MRX_FCB(Fcb); InternalContext->pFobx = (PMRX_FOBX)Fobx; InternalContext->pRelevantSrvOpen = Fobx->pSrvOpen; /* Get EOF from the FCB */ FileEOF.EndOfFile.QuadPart = Fcb->Header.FileSize.QuadPart; InternalContext->Info.FileInformationClass = FileEndOfFileInformation; InternalContext->Info.Buffer = &FileEOF; InternalContext->Info.Length = sizeof(FileEOF); /* Call the mini-rdr */ MINIRDR_CALL_THROUGH(InternalStatus, Fcb->MRxDispatch, MRxSetFileInfo, (InternalContext)); /* We're done */ RxDereferenceAndDeleteRxContext(InternalContext); } /* We tried, so, clean the FOBX flag */ ClearFlag(Fobx->Flags, FOBX_FLAG_DISABLE_COLLAPSING); /* If it failed, then, disable collapsing on the FCB */ if (!NT_SUCCESS(InternalStatus)) { ClearFlag(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); } } /* We're clean! */ SetFlag(FileObject->Flags, FO_CLEANUP_COMPLETE); FcbAcquired = FALSE; RxReleaseFcb(Context, Fcb); } _SEH2_FINALLY { if (FcbAcquired) { RxReleaseFcb(Context, Fcb); } if (FcbTableAcquired) { RxReleaseFcbTableLock(&NetRoot->FcbTable); } } _SEH2_END; return Status; #undef BugCheckFileId } NTSTATUS NTAPI RxCommonClose( PRX_CONTEXT Context) { #define BugCheckFileId RDBSS_BUG_CHECK_CLOSE PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PFILE_OBJECT FileObject; BOOLEAN DereferenceFobx, AcquiredFcb; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; FileObject = Context->CurrentIrpSp->FileObject; DPRINT("RxCommonClose(%p); FOBX: %p, FCB: %p, FO: %p\n", Context, Fobx, Fcb, FileObject); Status = RxAcquireExclusiveFcb(Context, Fcb); if (!NT_SUCCESS(Status)) { return Status; } AcquiredFcb = TRUE; _SEH2_TRY { BOOLEAN Freed; /* Check our FCB type is expected */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_UNKNOWN && (NodeType(Fcb) < RDBSS_NTC_STORAGE_TYPE_DIRECTORY || (NodeType(Fcb) > RDBSS_NTC_STORAGE_TYPE_FILE && (NodeType(Fcb) < RDBSS_NTC_SPOOLFILE || NodeType(Fcb) > RDBSS_NTC_OPENTARGETDIR_FCB)))) { RxBugCheck(NodeType(Fcb), 0, 0); } RxReferenceNetFcb(Fcb); DereferenceFobx = FALSE; /* If we're not closing FS */ if (Fobx != NULL) { PSRV_OPEN SrvOpen; PSRV_CALL SrvCall; SrvOpen = (PSRV_OPEN)Fobx->pSrvOpen; SrvCall = (PSRV_CALL)Fcb->pNetRoot->pSrvCall; /* Handle delayed close */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_DIRECTORY) { if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE | FCB_STATE_ORPHANED)) { if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED)) { DPRINT("Delay close for FOBX: %p, SrvOpen %p\n", Fobx, SrvOpen); if (SrvOpen->OpenCount == 1 && !BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_COLLAPSING_DISABLED)) { if (InterlockedIncrement(&SrvCall->NumberOfCloseDelayedFiles) >= SrvCall->MaximumNumberOfCloseDelayedFiles) { InterlockedDecrement(&SrvCall->NumberOfCloseDelayedFiles); } else { DereferenceFobx = TRUE; SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_CLOSE_DELAYED); } } } } } /* If we reach maximum of delayed close/or if there are no delayed close */ if (!DereferenceFobx) { PNET_ROOT NetRoot; NetRoot = (PNET_ROOT)Fcb->pNetRoot; if (NetRoot->Type != NET_ROOT_PRINT) { /* Delete if asked */ if (BooleanFlagOn(Fobx->Flags, FOBX_FLAG_DELETE_ON_CLOSE)) { RxScavengeRelatedFobxs(Fcb); RxSynchronizeWithScavenger(Context); RxReleaseFcb(Context, Fcb); RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, TRUE); RxOrphanThisFcb(Fcb); RxReleaseFcbTableLock(&NetRoot->FcbTable); Status = RxAcquireExclusiveFcb(Context, Fcb); ASSERT(NT_SUCCESS(Status)); } } } RxMarkFobxOnClose(Fobx); } if (DereferenceFobx) { ASSERT(Fobx != NULL); RxDereferenceNetFobx(Fobx, LHS_SharedLockHeld); } else { RxCloseAssociatedSrvOpen(Fobx, Context); if (Fobx != NULL) { RxDereferenceNetFobx(Fobx, LHS_ExclusiveLockHeld); } } Freed = RxDereferenceAndFinalizeNetFcb(Fcb, Context, FALSE, FALSE); AcquiredFcb = !Freed; FileObject->FsContext = (PVOID)-1; if (Freed) { RxTrackerUpdateHistory(Context, NULL, TRACKER_FCB_FREE, __LINE__, __FILE__, 0); } else { RxReleaseFcb(Context, Fcb); AcquiredFcb = FALSE; } } _SEH2_FINALLY { if (_SEH2_AbnormalTermination()) { if (AcquiredFcb) { RxReleaseFcb(Context, Fcb); } } else { ASSERT(!AcquiredFcb); } } _SEH2_END; DPRINT("Status: %x\n", Status); return Status; #undef BugCheckFileId } /* * @implemented */ NTSTATUS NTAPI RxCommonCreate( PRX_CONTEXT Context) { PIRP Irp; NTSTATUS Status; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; PAGED_CODE(); DPRINT("RxCommonCreate(%p)\n", Context); Irp = Context->CurrentIrp; Stack = Context->CurrentIrpSp; FileObject = Stack->FileObject; /* Check whether that's a device opening */ if (FileObject->FileName.Length == 0 && FileObject->RelatedFileObject == NULL) { FileObject->FsContext = &RxDeviceFCB; FileObject->FsContext2 = NULL; ++RxDeviceFCB.NodeReferenceCount; ++RxDeviceFCB.OpenCount; Irp->IoStatus.Information = FILE_OPENED; DPRINT("Device opening FO: %p, DO: %p, Name: %wZ\n", FileObject, Context->RxDeviceObject, &Context->RxDeviceObject->DeviceName); Status = STATUS_SUCCESS; } else { PFCB RelatedFcb = NULL; /* Make sure caller is consistent */ if (FlagOn(Stack->Parameters.Create.Options, FILE_DIRECTORY_FILE | FILE_NON_DIRECTORY_FILE | FILE_OPEN_REMOTE_INSTANCE) == (FILE_DIRECTORY_FILE | FILE_NON_DIRECTORY_FILE | FILE_OPEN_REMOTE_INSTANCE)) { DPRINT1("Create.Options: %x\n", Stack->Parameters.Create.Options); return STATUS_INVALID_PARAMETER; } DPRINT("Ctxt: %p, FO: %p, Options: %lx, Flags: %lx, Attr: %lx, ShareAccess: %lx, DesiredAccess: %lx\n", Context, FileObject, Stack->Parameters.Create.Options, Stack->Flags, Stack->Parameters.Create.FileAttributes, Stack->Parameters.Create.ShareAccess, Stack->Parameters.Create.SecurityContext->DesiredAccess); DPRINT("FileName: %wZ\n", &FileObject->FileName); if (FileObject->RelatedFileObject != NULL) { RelatedFcb = FileObject->RelatedFileObject->FsContext; DPRINT("Rel FO: %p, path: %wZ\n", FileObject->RelatedFileObject, RelatedFcb->FcbTableEntry.Path); } /* Going to rename? */ if (BooleanFlagOn(Stack->Flags, SL_OPEN_TARGET_DIRECTORY)) { DPRINT("TargetDir!\n"); } /* Copy create parameters to the context */ RxCopyCreateParameters(Context); /* If the caller wants to establish a connection, go ahead */ if (BooleanFlagOn(Stack->Parameters.Create.Options, FILE_CREATE_TREE_CONNECTION)) { Status = RxCreateTreeConnect(Context); } else { /* Validate file name */ if (FileObject->FileName.Length > sizeof(WCHAR) && FileObject->FileName.Buffer[1] == OBJ_NAME_PATH_SEPARATOR && FileObject->FileName.Buffer[0] == OBJ_NAME_PATH_SEPARATOR) { FileObject->FileName.Length -= sizeof(WCHAR); RtlMoveMemory(&FileObject->FileName.Buffer[0], &FileObject->FileName.Buffer[1], FileObject->FileName.Length); if (FileObject->FileName.Length > sizeof(WCHAR) && FileObject->FileName.Buffer[1] == OBJ_NAME_PATH_SEPARATOR && FileObject->FileName.Buffer[0] == OBJ_NAME_PATH_SEPARATOR) { return STATUS_OBJECT_NAME_INVALID; } } /* Attempt to open the file */ do { UNICODE_STRING NetRootName; /* Strip last \ if required */ if (FileObject->FileName.Length != 0 && FileObject->FileName.Buffer[FileObject->FileName.Length / sizeof(WCHAR) - 1] == OBJ_NAME_PATH_SEPARATOR) { if (BooleanFlagOn(Stack->Parameters.Create.Options, FILE_NON_DIRECTORY_FILE)) { return STATUS_OBJECT_NAME_INVALID; } FileObject->FileName.Length -= sizeof(WCHAR); Context->Create.Flags |= RX_CONTEXT_CREATE_FLAG_STRIPPED_TRAILING_BACKSLASH; } if (BooleanFlagOn(Context->Flags, RX_CONTEXT_FLAG_WRITE_THROUGH)) { FileObject->Flags |= FO_WRITE_THROUGH; } /* Get the associated net root to opening */ Status = RxCanonicalizeNameAndObtainNetRoot(Context, &FileObject->FileName, &NetRootName); if (Status != STATUS_MORE_PROCESSING_REQUIRED) { break; } /* And attempt to open */ Status = RxCreateFromNetRoot(Context, &NetRootName); if (Status == STATUS_SHARING_VIOLATION) { ASSERT(!BooleanFlagOn(Context->Create.Flags, RX_CONTEXT_CREATE_FLAG_REPARSE)); /* If that happens for file creation, fail for real */ if (Context->Create.NtCreateParameters.Disposition == FILE_CREATE) { Status = STATUS_OBJECT_NAME_COLLISION; } else { /* Otherwise, if possible, attempt to scavenger current FOBX * to check whether a dormant FOBX is the reason for sharing violation */ if (Context->Create.TryForScavengingOnSharingViolation && !Context->Create.ScavengingAlreadyTried) { /* Only doable with a VNetRoot */ if (Context->Create.pVNetRoot != NULL) { PV_NET_ROOT VNetRoot; NT_CREATE_PARAMETERS SavedParameters; /* Save create parameters */ RtlCopyMemory(&SavedParameters, &Context->Create.NtCreateParameters, sizeof(NT_CREATE_PARAMETERS)); /* Reference the VNetRoot for the scavenging time */ VNetRoot = (PV_NET_ROOT)Context->Create.pVNetRoot; RxReferenceVNetRoot(VNetRoot); /* Prepare the RX_CONTEXT for reuse */ RxpPrepareCreateContextForReuse(Context); RxReinitializeContext(Context); /* Copy what we saved */ RtlCopyMemory(&Context->Create.NtCreateParameters, &SavedParameters, sizeof(NT_CREATE_PARAMETERS)); /* And recopy what can be */ RxCopyCreateParameters(Context); /* And start purging, then scavenging FOBX */ RxPurgeRelatedFobxs((PNET_ROOT)VNetRoot->pNetRoot, Context, DONT_ATTEMPT_FINALIZE_ON_PURGE, NULL); RxScavengeFobxsForNetRoot((PNET_ROOT)VNetRoot->pNetRoot, NULL, TRUE); /* Ask for a second round */ Status = STATUS_MORE_PROCESSING_REQUIRED; /* Keep track we already scavenged */ Context->Create.ScavengingAlreadyTried = TRUE; /* Reference our SRV_CALL for CBS handling */ RxReferenceSrvCall(VNetRoot->pNetRoot->pSrvCall); RxpProcessChangeBufferingStateRequests((PSRV_CALL)VNetRoot->pNetRoot->pSrvCall, FALSE); /* Drop our extra reference */ RxDereferenceVNetRoot(VNetRoot, LHS_LockNotHeld); } } } } else if (Status == STATUS_REPARSE) { Context->CurrentIrp->IoStatus.Information = 0; } else { ASSERT(!BooleanFlagOn(Context->Create.Flags, RX_CONTEXT_CREATE_FLAG_REPARSE)); } } while (Status == STATUS_MORE_PROCESSING_REQUIRED); } if (Status == STATUS_RETRY) { RxpPrepareCreateContextForReuse(Context); } ASSERT(Status != STATUS_PENDING); } DPRINT("Status: %lx\n", Status); return Status; } /* * @implemented */ NTSTATUS NTAPI RxCommonDevFCBCleanup( PRX_CONTEXT Context) { PMRX_FCB Fcb; NTSTATUS Status; PAGED_CODE(); DPRINT("RxCommonDevFCBCleanup(%p)\n", Context); Fcb = Context->pFcb; Status = STATUS_SUCCESS; ASSERT(NodeType(Fcb) == RDBSS_NTC_DEVICE_FCB); /* Our FOBX if set, has to be a VNetRoot */ if (Context->pFobx != NULL) { RxAcquirePrefixTableLockShared(Context->RxDeviceObject->pRxNetNameTable, TRUE); if (Context->pFobx->NodeTypeCode != RDBSS_NTC_V_NETROOT) { Status = STATUS_INVALID_DEVICE_REQUEST; } RxReleasePrefixTableLock(Context->RxDeviceObject->pRxNetNameTable); } else { --Fcb->UncleanCount; } return Status; } /* * @implemented */ NTSTATUS NTAPI RxCommonDevFCBClose( PRX_CONTEXT Context) { PMRX_FCB Fcb; NTSTATUS Status; PMRX_V_NET_ROOT NetRoot; PAGED_CODE(); DPRINT("RxCommonDevFCBClose(%p)\n", Context); Fcb = Context->pFcb; NetRoot = (PMRX_V_NET_ROOT)Context->pFobx; Status = STATUS_SUCCESS; ASSERT(NodeType(Fcb) == RDBSS_NTC_DEVICE_FCB); /* Our FOBX if set, has to be a VNetRoot */ if (NetRoot != NULL) { RxAcquirePrefixTableLockExclusive(Context->RxDeviceObject->pRxNetNameTable, TRUE); if (NetRoot->NodeTypeCode == RDBSS_NTC_V_NETROOT) { --NetRoot->NumberOfOpens; RxDereferenceVNetRoot(NetRoot, LHS_ExclusiveLockHeld); } else { Status = STATUS_NOT_IMPLEMENTED; } RxReleasePrefixTableLock(Context->RxDeviceObject->pRxNetNameTable); } else { --Fcb->OpenCount; } return Status; } NTSTATUS NTAPI RxCommonDevFCBFsCtl( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxCommonDevFCBIoCtl( PRX_CONTEXT Context) { NTSTATUS Status; PAGED_CODE(); DPRINT("RxCommonDevFCBIoCtl(%p)\n", Context); if (Context->pFobx != NULL) { return STATUS_INVALID_HANDLE; } /* Is that a prefix claim from MUP? */ if (Context->CurrentIrpSp->Parameters.DeviceIoControl.IoControlCode == IOCTL_REDIR_QUERY_PATH) { return RxPrefixClaim(Context); } /* Otherwise, pass through the mini-rdr */ Status = RxXXXControlFileCallthru(Context); if (Status != STATUS_PENDING) { if (Context->PostRequest) { Context->ResumeRoutine = RxCommonDevFCBIoCtl; Status = RxFsdPostRequest(Context); } } DPRINT("Status: %lx\n", Status); return Status; } NTSTATUS NTAPI RxCommonDevFCBQueryVolInfo( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxCommonDeviceControl( PRX_CONTEXT Context) { NTSTATUS Status; PAGED_CODE(); /* Prefix claim is only allowed for device, not files */ if (Context->CurrentIrpSp->Parameters.DeviceIoControl.IoControlCode == IOCTL_REDIR_QUERY_PATH) { return STATUS_INVALID_DEVICE_REQUEST; } /* Submit to mini-rdr */ RxInitializeLowIoContext(&Context->LowIoContext, LOWIO_OP_IOCTL); Status = RxLowIoSubmit(Context, RxLowIoIoCtlShellCompletion); if (Status == STATUS_PENDING) { RxDereferenceAndDeleteRxContext_Real(Context); } return Status; } /* * @implemented */ NTSTATUS NTAPI RxCommonDirectoryControl( PRX_CONTEXT Context) { PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PIO_STACK_LOCATION Stack; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; Stack = Context->CurrentIrpSp; DPRINT("RxCommonDirectoryControl(%p) FOBX: %p, FCB: %p, Minor: %d\n", Context, Fobx, Fcb, Stack->MinorFunction); /* Call the appropriate helper */ if (Stack->MinorFunction == IRP_MN_QUERY_DIRECTORY) { Status = RxQueryDirectory(Context); } else if (Stack->MinorFunction == IRP_MN_NOTIFY_CHANGE_DIRECTORY) { Status = RxNotifyChangeDirectory(Context); if (Status == STATUS_PENDING) { RxDereferenceAndDeleteRxContext_Real(Context); } } else { Status = STATUS_INVALID_DEVICE_REQUEST; } return Status; } NTSTATUS NTAPI RxCommonDispatchProblem( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonFileSystemControl( PRX_CONTEXT Context) { PIRP Irp; ULONG ControlCode; PIO_STACK_LOCATION Stack; PAGED_CODE(); Irp = Context->CurrentIrp; Stack = Context->CurrentIrpSp; ControlCode = Stack->Parameters.FileSystemControl.FsControlCode; DPRINT1("RxCommonFileSystemControl: %p, %p, %d, %lx\n", Context, Irp, Stack->MinorFunction, ControlCode); UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonFlushBuffers( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonLockControl( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonQueryEa( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxCommonQueryInformation( PRX_CONTEXT Context) { #define SET_SIZE_AND_QUERY(AlreadyConsummed, Function) \ Context->Info.Length = Stack->Parameters.QueryFile.Length - (AlreadyConsummed); \ Status = Function(Context, Add2Ptr(Buffer, AlreadyConsummed)) PFCB Fcb; PIRP Irp; PFOBX Fobx; BOOLEAN Locked; NTSTATUS Status; PIO_STACK_LOCATION Stack; FILE_INFORMATION_CLASS FileInfoClass; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; DPRINT("RxCommonQueryInformation(%p) FCB: %p, FOBX: %p\n", Context, Fcb, Fobx); Irp = Context->CurrentIrp; Stack = Context->CurrentIrpSp; DPRINT("Buffer: %p, Length: %lx, Class: %ld\n", Irp->AssociatedIrp.SystemBuffer, Stack->Parameters.QueryFile.Length, Stack->Parameters.QueryFile.FileInformationClass); Context->Info.Length = Stack->Parameters.QueryFile.Length; FileInfoClass = Stack->Parameters.QueryFile.FileInformationClass; Locked = FALSE; _SEH2_TRY { PVOID Buffer; /* Get a writable buffer */ Buffer = RxMapSystemBuffer(Context); if (Buffer == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; _SEH2_LEAVE; } /* Zero it */ RtlZeroMemory(Buffer, Context->Info.Length); /* Validate file type */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_UNKNOWN) { if (NodeType(Fcb) < RDBSS_NTC_STORAGE_TYPE_DIRECTORY) { Status = STATUS_INVALID_PARAMETER; _SEH2_LEAVE; } else if (NodeType(Fcb) > RDBSS_NTC_STORAGE_TYPE_FILE) { if (NodeType(Fcb) == RDBSS_NTC_MAILSLOT) { Status = STATUS_NOT_IMPLEMENTED; } else { Status = STATUS_INVALID_PARAMETER; } _SEH2_LEAVE; } } /* Acquire the right lock */ if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_PAGING_FILE) && FileInfoClass != FileNameInformation) { if (FileInfoClass == FileCompressionInformation) { Status = RxAcquireExclusiveFcb(Context, Fcb); } else { Status = RxAcquireSharedFcb(Context, Fcb); } if (Status == STATUS_LOCK_NOT_GRANTED) { Status = STATUS_PENDING; _SEH2_LEAVE; } else if (!NT_SUCCESS(Status)) { _SEH2_LEAVE; } Locked = TRUE; } /* Dispatch to the right helper */ switch (FileInfoClass) { case FileBasicInformation: Status = RxQueryBasicInfo(Context, Buffer); break; case FileStandardInformation: Status = RxQueryStandardInfo(Context, Buffer); break; case FileInternalInformation: Status = RxQueryInternalInfo(Context, Buffer); break; case FileEaInformation: Status = RxQueryEaInfo(Context, Buffer); break; case FileNameInformation: Status = RxQueryNameInfo(Context, Buffer); break; case FileAllInformation: SET_SIZE_AND_QUERY(0, RxQueryBasicInfo); if (!NT_SUCCESS(Status)) { break; } SET_SIZE_AND_QUERY(sizeof(FILE_BASIC_INFORMATION), RxQueryStandardInfo); if (!NT_SUCCESS(Status)) { break; } SET_SIZE_AND_QUERY(sizeof(FILE_BASIC_INFORMATION) + sizeof(FILE_STANDARD_INFORMATION), RxQueryInternalInfo); if (!NT_SUCCESS(Status)) { break; } SET_SIZE_AND_QUERY(sizeof(FILE_BASIC_INFORMATION) + sizeof(FILE_STANDARD_INFORMATION) + sizeof(FILE_INTERNAL_INFORMATION), RxQueryEaInfo); if (!NT_SUCCESS(Status)) { break; } SET_SIZE_AND_QUERY(sizeof(FILE_BASIC_INFORMATION) + sizeof(FILE_STANDARD_INFORMATION) + sizeof(FILE_INTERNAL_INFORMATION) + sizeof(FILE_EA_INFORMATION), RxQueryPositionInfo); if (!NT_SUCCESS(Status)) { break; } SET_SIZE_AND_QUERY(sizeof(FILE_BASIC_INFORMATION) + sizeof(FILE_STANDARD_INFORMATION) + sizeof(FILE_INTERNAL_INFORMATION) + sizeof(FILE_EA_INFORMATION) + sizeof(FILE_POSITION_INFORMATION), RxQueryNameInfo); break; case FileAlternateNameInformation: Status = RxQueryAlternateNameInfo(Context, Buffer); break; case FilePipeInformation: case FilePipeLocalInformation: case FilePipeRemoteInformation: Status = RxQueryPipeInfo(Context, Buffer); break; case FileCompressionInformation: Status = RxQueryCompressedInfo(Context, Buffer); break; default: Context->IoStatusBlock.Status = RxpQueryInfoMiniRdr(Context, FileInfoClass, Buffer); Status = Context->IoStatusBlock.Status; break; } if (Context->Info.Length < 0) { Status = STATUS_BUFFER_OVERFLOW; Context->Info.Length = Stack->Parameters.QueryFile.Length; } Irp->IoStatus.Information = Stack->Parameters.QueryFile.Length - Context->Info.Length; } _SEH2_FINALLY { if (Locked) { RxReleaseFcb(Context, Fcb); } } _SEH2_END; DPRINT("Status: %x\n", Status); return Status; #undef SET_SIZE_AND_QUERY } NTSTATUS NTAPI RxCommonQueryQuotaInformation( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonQuerySecurity( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxCommonQueryVolumeInformation( PRX_CONTEXT Context) { PIRP Irp; PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PIO_STACK_LOCATION Stack; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; DPRINT("RxCommonQueryVolumeInformation(%p) FCB: %p, FOBX: %p\n", Context, Fcb, Fobx); Irp = Context->CurrentIrp; Stack = Context->CurrentIrpSp; DPRINT("Length: %lx, Class: %lx, Buffer %p\n", Stack->Parameters.QueryVolume.Length, Stack->Parameters.QueryVolume.FsInformationClass, Irp->AssociatedIrp.SystemBuffer); Context->Info.FsInformationClass = Stack->Parameters.QueryVolume.FsInformationClass; Context->Info.Buffer = Irp->AssociatedIrp.SystemBuffer; Context->Info.Length = Stack->Parameters.QueryVolume.Length; /* Forward to mini-rdr */ MINIRDR_CALL(Status, Context, Fcb->MRxDispatch, MRxQueryVolumeInfo, (Context)); /* Post request if mini-rdr asked to */ if (Context->PostRequest) { Status = RxFsdPostRequest(Context); } else { Irp->IoStatus.Information = Stack->Parameters.QueryVolume.Length - Context->Info.Length; } DPRINT("Status: %x\n", Status); return Status; } NTSTATUS NTAPI RxCommonRead( PRX_CONTEXT RxContext) { PFCB Fcb; PIRP Irp; PFOBX Fobx; NTSTATUS Status; PNET_ROOT NetRoot; PVOID SystemBuffer; PFILE_OBJECT FileObject; LARGE_INTEGER ByteOffset; PIO_STACK_LOCATION Stack; PLOWIO_CONTEXT LowIoContext; PRDBSS_DEVICE_OBJECT RxDeviceObject; ULONG ReadLength, CapturedRxContextSerialNumber = RxContext->SerialNumber; BOOLEAN CanWait, PagingIo, NoCache, Sync, PostRequest, IsPipe, ReadCachingEnabled, ReadCachingDisabled, InFsp, OwnerSet; PAGED_CODE(); Fcb = (PFCB)RxContext->pFcb; Fobx = (PFOBX)RxContext->pFobx; DPRINT("RxCommonRead(%p) FOBX: %p, FCB: %p\n", RxContext, Fobx, Fcb); /* Get some parameters */ Irp = RxContext->CurrentIrp; Stack = RxContext->CurrentIrpSp; CanWait = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); PagingIo = BooleanFlagOn(Irp->Flags, IRP_PAGING_IO); NoCache = BooleanFlagOn(Irp->Flags, IRP_NOCACHE); Sync = !BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_ASYNC_OPERATION); InFsp = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP); ReadLength = Stack->Parameters.Read.Length; ByteOffset.QuadPart = Stack->Parameters.Read.ByteOffset.QuadPart; DPRINT("Reading: %lx@%I64x %s %s %s %s\n", ReadLength, ByteOffset.QuadPart, (CanWait ? "CW" : "!CW"), (PagingIo ? "PI" : "!PI"), (NoCache ? "NC" : "!NC"), (Sync ? "S" : "!S")); RxItsTheSameContext(); Irp->IoStatus.Information = 0; /* Should the read be loud - so far, it's just ignored on ReactOS: * s/DPRINT/DPRINT1/g will make it loud */ LowIoContext = &RxContext->LowIoContext; CheckForLoudOperations(RxContext); if (BooleanFlagOn(LowIoContext->Flags, LOWIO_CONTEXT_FLAG_LOUDOPS)) { DPRINT("LoudRead %I64x/%lx on %lx vdl/size/alloc %I64x/%I64x/%I64x\n", ByteOffset, ReadLength, Fcb, Fcb->Header.ValidDataLength, Fcb->Header.FileSize, Fcb->Header.AllocationSize); } RxDeviceObject = RxContext->RxDeviceObject; /* Update stats */ if (!BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP) && Fcb->CachedNetRootType == NET_ROOT_DISK) { InterlockedIncrement((volatile long *)&RxDeviceObject->ReadOperations); if (ByteOffset.QuadPart != Fobx->Specific.DiskFile.PredictedReadOffset) { InterlockedIncrement((volatile long *)&RxDeviceObject->RandomReadOperations); } Fobx->Specific.DiskFile.PredictedReadOffset = ByteOffset.QuadPart + ReadLength; if (PagingIo) { ExInterlockedAddLargeStatistic(&RxDeviceObject->PagingReadBytesRequested, ReadLength); } else if (NoCache) { ExInterlockedAddLargeStatistic(&RxDeviceObject->NonPagingReadBytesRequested, ReadLength); } else { ExInterlockedAddLargeStatistic(&RxDeviceObject->CacheReadBytesRequested, ReadLength); } } /* A pagefile cannot be a pipe */ IsPipe = Fcb->NetRoot->Type == NET_ROOT_PIPE; if (IsPipe && PagingIo) { return STATUS_INVALID_DEVICE_REQUEST; } /* Null-length read is no-op */ if (ReadLength == 0) { return STATUS_SUCCESS; } /* Validate FCB type */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_FILE && NodeType(Fcb) != RDBSS_NTC_VOLUME_FCB) { return STATUS_INVALID_DEVICE_REQUEST; } /* Init the lowio context for possible forward */ RxInitializeLowIoContext(LowIoContext, LOWIO_OP_READ); PostRequest = FALSE; ReadCachingDisabled = FALSE; OwnerSet = FALSE; ReadCachingEnabled = BooleanFlagOn(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED); FileObject = Stack->FileObject; NetRoot = (PNET_ROOT)Fcb->pNetRoot; _SEH2_TRY { LONGLONG FileSize; /* If no caching, make sure current Cc data have been flushed */ if (!PagingIo && NoCache && !ReadCachingEnabled && FileObject->SectionObjectPointer != NULL) { Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { PostRequest = TRUE; _SEH2_LEAVE; } else if (Status != STATUS_SUCCESS) { _SEH2_LEAVE; } ExAcquireResourceSharedLite(Fcb->Header.PagingIoResource, TRUE); CcFlushCache(FileObject->SectionObjectPointer, &ByteOffset, ReadLength, &Irp->IoStatus); RxReleasePagingIoResource(RxContext, Fcb); if (!NT_SUCCESS(Irp->IoStatus.Status)) { Status = Irp->IoStatus.Status; _SEH2_LEAVE; } RxAcquirePagingIoResource(RxContext, Fcb); RxReleasePagingIoResource(RxContext, Fcb); } /* Acquire the appropriate lock */ if (PagingIo && !ReadCachingEnabled) { ASSERT(!IsPipe); if (!ExAcquireResourceSharedLite(Fcb->Header.PagingIoResource, CanWait)) { PostRequest = TRUE; _SEH2_LEAVE; } if (!CanWait) { LowIoContext->Resource = Fcb->Header.PagingIoResource; } } else { if (!ReadCachingEnabled) { if (!CanWait && NoCache) { Status = RxAcquireSharedFcbWaitForEx(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { DPRINT1("RdAsyLNG %x\n", RxContext); PostRequest = TRUE; _SEH2_LEAVE; } if (Status != STATUS_SUCCESS) { DPRINT1("RdAsyOthr %x\n", RxContext); _SEH2_LEAVE; } if (RxIsFcbAcquiredShared(Fcb) <= 0xF000) { LowIoContext->Resource = Fcb->Header.Resource; } else { PostRequest = TRUE; _SEH2_LEAVE; } } else { Status = RxAcquireSharedFcb(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { PostRequest = TRUE; _SEH2_LEAVE; } else if (Status != STATUS_SUCCESS) { _SEH2_LEAVE; } } } } RxItsTheSameContext(); ReadCachingDisabled = (ReadCachingEnabled == FALSE); if (IsPipe) { UNIMPLEMENTED; } RxGetFileSizeWithLock(Fcb, &FileSize); /* Make sure FLOCK doesn't conflict */ if (!PagingIo) { if (!FsRtlCheckLockForReadAccess(&Fcb->Specific.Fcb.FileLock, Irp)) { Status = STATUS_FILE_LOCK_CONFLICT; _SEH2_LEAVE; } } /* Validate byteoffset vs length */ if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED)) { if (ByteOffset.QuadPart >= FileSize) { Status = STATUS_END_OF_FILE; _SEH2_LEAVE; } if (ReadLength > FileSize - ByteOffset.QuadPart) { ReadLength = FileSize - ByteOffset.QuadPart; } } /* Read with Cc! */ if (!PagingIo && !NoCache && ReadCachingEnabled && !BooleanFlagOn(Fobx->pSrvOpen->Flags, SRVOPEN_FLAG_DONTUSE_READ_CACHING)) { /* File was not cached yet, do it */ if (FileObject->PrivateCacheMap == NULL) { if (BooleanFlagOn(FileObject->Flags, FO_CLEANUP_COMPLETE)) { Status = STATUS_FILE_CLOSED; _SEH2_LEAVE; } RxAdjustAllocationSizeforCC(Fcb); CcInitializeCacheMap(FileObject, (PCC_FILE_SIZES)&Fcb->Header.AllocationSize, FALSE, &RxData.CacheManagerCallbacks, Fcb); if (BooleanFlagOn(Fcb->MRxDispatch->MRxFlags, RDBSS_NO_DEFERRED_CACHE_READAHEAD)) { CcSetAdditionalCacheAttributes(FileObject, FALSE, FALSE); } else { CcSetAdditionalCacheAttributes(FileObject, TRUE, FALSE); SetFlag(Fcb->FcbState, FCB_STATE_READAHEAD_DEFERRED); } CcSetReadAheadGranularity(FileObject, NetRoot->DiskParameters.ReadAheadGranularity); } /* This should never happen - fix your RDR */ if (BooleanFlagOn(RxContext->MinorFunction, IRP_MN_MDL)) { ASSERT(FALSE); ASSERT(CanWait); CcMdlRead(FileObject, &ByteOffset, ReadLength, &Irp->MdlAddress, &Irp->IoStatus); Status = Irp->IoStatus.Status; ASSERT(NT_SUCCESS(Status)); } else { /* Map buffer */ SystemBuffer = RxNewMapUserBuffer(RxContext); if (SystemBuffer == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; _SEH2_LEAVE; } SetFlag(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED); RxItsTheSameContext(); /* Perform the read */ if (!CcCopyRead(FileObject, &ByteOffset, ReadLength, CanWait, SystemBuffer, &Irp->IoStatus)) { if (!ReadCachingEnabled) { ClearFlag(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED); } RxItsTheSameContext(); PostRequest = TRUE; _SEH2_LEAVE; } if (!ReadCachingEnabled) { ClearFlag(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED); } Status = Irp->IoStatus.Status; ASSERT(NT_SUCCESS(Status)); } } else { /* Validate the reading */ if (FileObject->PrivateCacheMap != NULL && BooleanFlagOn(Fcb->FcbState, FCB_STATE_READAHEAD_DEFERRED) && ByteOffset.QuadPart >= 4096) { CcSetAdditionalCacheAttributes(FileObject, FALSE, FALSE); ClearFlag(Fcb->FcbState, FCB_STATE_READAHEAD_DEFERRED); } /* If it's consistent, forward to mini-rdr */ if (Fcb->CachedNetRootType != NET_ROOT_DISK || BooleanFlagOn(Fcb->FcbState, FCB_STATE_READAHEAD_DEFERRED) || ByteOffset.QuadPart < Fcb->Header.ValidDataLength.QuadPart) { LowIoContext->ParamsFor.ReadWrite.ByteCount = ReadLength; LowIoContext->ParamsFor.ReadWrite.ByteOffset = ByteOffset.QuadPart; RxItsTheSameContext(); if (InFsp && ReadCachingDisabled) { ExSetResourceOwnerPointer((PagingIo ? Fcb->Header.PagingIoResource : Fcb->Header.Resource), (PVOID)((ULONG_PTR)RxContext | 3)); OwnerSet = TRUE; } Status = RxLowIoReadShell(RxContext); RxItsTheSameContext(); } else { if (ByteOffset.QuadPart > FileSize) { ReadLength = 0; Irp->IoStatus.Information = ReadLength; _SEH2_LEAVE; } if (ByteOffset.QuadPart + ReadLength > FileSize) { ReadLength = FileSize - ByteOffset.QuadPart; } SystemBuffer = RxNewMapUserBuffer(RxContext); RtlZeroMemory(SystemBuffer, ReadLength); Irp->IoStatus.Information = ReadLength; } } } _SEH2_FINALLY { RxItsTheSameContext(); /* Post if required */ if (PostRequest) { InterlockedIncrement((volatile long *)&RxContext->ReferenceCount); Status = RxFsdPostRequest(RxContext); } else { /* Update FO in case of sync IO */ if (!IsPipe && !PagingIo) { if (BooleanFlagOn(FileObject->Flags, FO_SYNCHRONOUS_IO)) { FileObject->CurrentByteOffset.QuadPart = ByteOffset.QuadPart + Irp->IoStatus.Information; } } } /* Set FastIo if read was a success */ if (NT_SUCCESS(Status) && Status != STATUS_PENDING) { if (!IsPipe && !PagingIo) { SetFlag(FileObject->Flags, FO_FILE_FAST_IO_READ); } } /* In case we're done (not expected any further processing */ if (_SEH2_AbnormalTermination() || Status != STATUS_PENDING || PostRequest) { /* Release everything that can be */ if (ReadCachingDisabled) { if (PagingIo) { if (OwnerSet) { RxReleasePagingIoResourceForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } else { RxReleasePagingIoResource(RxContext, Fcb); } } else { if (OwnerSet) { RxReleaseFcbForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } else { RxReleaseFcb(RxContext, Fcb); } } } /* Dereference/Delete context */ if (PostRequest) { RxDereferenceAndDeleteRxContext(RxContext); } else { if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_SYNC_OPERATION)) { RxResumeBlockedOperations_Serially(RxContext, &Fobx->Specific.NamedPipe.ReadSerializationQueue); } } /* We cannot return more than asked */ if (Status == STATUS_SUCCESS) { ASSERT(Irp->IoStatus.Information <= Stack->Parameters.Read.Length); } } else { ASSERT(!Sync); RxDereferenceAndDeleteRxContext(RxContext); } } _SEH2_END; return Status; } NTSTATUS NTAPI RxCommonSetEa( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxCommonSetInformation( PRX_CONTEXT Context) { PIRP Irp; PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PNET_ROOT NetRoot; PIO_STACK_LOCATION Stack; FILE_INFORMATION_CLASS Class; BOOLEAN CanWait, FcbTableAcquired, FcbAcquired; PAGED_CODE(); Fcb = (PFCB)Context->pFcb; Fobx = (PFOBX)Context->pFobx; DPRINT("RxCommonSetInformation(%p), FCB: %p, FOBX: %p\n", Context, Fcb, Fobx); Irp = Context->CurrentIrp; Stack = Context->CurrentIrpSp; Class = Stack->Parameters.SetFile.FileInformationClass; DPRINT("Buffer: %p, Length: %lx, Class: %ld, ReplaceIfExists: %d\n", Irp->AssociatedIrp.SystemBuffer, Stack->Parameters.SetFile.Length, Class, Stack->Parameters.SetFile.ReplaceIfExists); Status = STATUS_SUCCESS; CanWait = BooleanFlagOn(Context->Flags, RX_CONTEXT_FLAG_WAIT); FcbTableAcquired = FALSE; FcbAcquired = FALSE; NetRoot = (PNET_ROOT)Fcb->pNetRoot; #define _SEH2_TRY_RETURN(S) S; goto try_exit _SEH2_TRY { /* Valide the node type first */ if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_UNKNOWN && NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_DIRECTORY) { if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_FILE) { if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_PAGING_FILE)) { Status = STATUS_SUCCESS; } } else if (NodeType(Fcb) != RDBSS_NTC_SPOOLFILE) { if (NodeType(Fcb) == RDBSS_NTC_MAILSLOT) { _SEH2_TRY_RETURN(Status = STATUS_NOT_IMPLEMENTED); } else { DPRINT1("Illegal type of file provided: %x\n", NodeType(Fcb)); _SEH2_TRY_RETURN(Status = STATUS_INVALID_PARAMETER); } } } /* We don't autorize advance operation */ if (Class == FileEndOfFileInformation && Stack->Parameters.SetFile.AdvanceOnly) { DPRINT1("Not allowed\n"); _SEH2_TRY_RETURN(Status = STATUS_SUCCESS); } /* For these to classes, we'll have to deal with the FCB table (removal) * We thus need the exclusive FCB table lock */ if (Class == FileDispositionInformation || Class == FileRenameInformation) { RxPurgeRelatedFobxs(NetRoot, Context, TRUE, Fcb); RxScavengeFobxsForNetRoot(NetRoot, Fcb, TRUE); if (!RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, CanWait)) { Context->PostRequest = TRUE; _SEH2_TRY_RETURN(Status = STATUS_PENDING); } FcbTableAcquired = TRUE; } /* Finally, if not paging file, we need exclusive FCB lock */ if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_PAGING_FILE)) { Status = RxAcquireExclusiveFcb(Context, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { Context->PostRequest = TRUE; _SEH2_TRY_RETURN(Status = STATUS_SUCCESS); } else if (Status != STATUS_SUCCESS) { _SEH2_LEAVE; } FcbAcquired = TRUE; } Status = STATUS_SUCCESS; /* And now, perform the job! */ switch (Class) { case FileBasicInformation: Status = RxSetBasicInfo(Context); break; case FileDispositionInformation: { PFILE_DISPOSITION_INFORMATION FDI; /* Check whether user wants deletion */ FDI = Irp->AssociatedIrp.SystemBuffer; if (FDI->DeleteFile) { /* If so, check whether it's doable */ if (!MmFlushImageSection(&Fcb->NonPaged->SectionObjectPointers, MmFlushForDelete)) { Status = STATUS_CANNOT_DELETE; } /* And if doable, already remove from FCB table */ if (Status == STATUS_SUCCESS) { ASSERT(FcbAcquired && FcbTableAcquired); RxRemoveNameNetFcb(Fcb); RxReleaseFcbTableLock(&NetRoot->FcbTable); FcbTableAcquired = FALSE; } } /* If it succeed, perform the operation */ if (Status == STATUS_SUCCESS) { Status = RxSetDispositionInfo(Context); } break; } case FilePositionInformation: Status = RxSetPositionInfo(Context); break; case FileAllocationInformation: Status = RxSetAllocationInfo(Context); break; case FileEndOfFileInformation: Status = RxSetEndOfFileInfo(Context); break; case FilePipeInformation: case FilePipeLocalInformation: case FilePipeRemoteInformation: Status = RxSetPipeInfo(Context); break; case FileRenameInformation: case FileLinkInformation: case FileMoveClusterInformation: /* If we can wait, try to perform the operation right now */ if (CanWait) { /* Of course, collapsing is not doable anymore, file is * in an inbetween state */ ClearFlag(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); /* Set the information */ Status = RxSetRenameInfo(Context); /* If it succeed, drop the current entry from FCB table */ if (Status == STATUS_SUCCESS && Class == FileRenameInformation) { ASSERT(FcbAcquired && FcbTableAcquired); RxRemoveNameNetFcb(Fcb); } _SEH2_TRY_RETURN(Status); } /* Can't wait? Post for async retry */ else { Status = RxFsdPostRequest(Context); _SEH2_TRY_RETURN(Status); } break; case FileValidDataLengthInformation: if (!MmCanFileBeTruncated(&Fcb->NonPaged->SectionObjectPointers, NULL)) { Status = STATUS_USER_MAPPED_FILE; } break; case FileShortNameInformation: Status = RxSetSimpleInfo(Context); break; default: DPRINT1("Insupported class: %x\n", Class); Status = STATUS_INVALID_PARAMETER; break; } try_exit: NOTHING; /* If mini-rdr was OK and wants a re-post on this, do it */ if (Status == STATUS_SUCCESS) { if (Context->PostRequest) { Status = RxFsdPostRequest(Context); } } } _SEH2_FINALLY { /* Release any acquired lock */ if (FcbAcquired) { RxReleaseFcb(Context, Fcb); } if (FcbTableAcquired) { RxReleaseFcbTableLock(&NetRoot->FcbTable); } } _SEH2_END; #undef _SEH2_TRY_RETURN return Status; } NTSTATUS NTAPI RxCommonSetQuotaInformation( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonSetSecurity( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonSetVolumeInformation( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonUnimplemented( PRX_CONTEXT Context) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS NTAPI RxCommonWrite( PRX_CONTEXT RxContext) { PIRP Irp; PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PNET_ROOT NetRoot; PSRV_OPEN SrvOpen; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; LARGE_INTEGER ByteOffset; NODE_TYPE_CODE NodeTypeCode; PLOWIO_CONTEXT LowIoContext; PRDBSS_DEVICE_OBJECT RxDeviceObject; ULONG WriteLength, CapturedRxContextSerialNumber = RxContext->SerialNumber; LONGLONG FileSize, ValidDataLength, InitialFileSize, InitialValidDataLength; BOOLEAN CanWait, PagingIo, NoCache, Sync, NormalFile, WriteToEof, IsPipe, NoPreposting, InFsp, RecursiveWriteThrough, CalledByLazyWriter, SwitchBackToAsync, ExtendingFile, ExtendingValidData, UnwindOutstandingAsync, ResourceOwnerSet, PostIrp, ContextReferenced; PAGED_CODE(); Fcb = (PFCB)RxContext->pFcb; NodeTypeCode = NodeType(Fcb); /* Validate FCB type */ if (NodeTypeCode != RDBSS_NTC_STORAGE_TYPE_FILE && NodeTypeCode != RDBSS_NTC_VOLUME_FCB && NodeTypeCode != RDBSS_NTC_SPOOLFILE && NodeTypeCode != RDBSS_NTC_MAILSLOT) { return STATUS_INVALID_DEVICE_REQUEST; } /* We'll write to file, keep track of it */ Fcb->IsFileWritten = TRUE; Stack = RxContext->CurrentIrpSp; /* Set write through if asked */ if (BooleanFlagOn(Stack->Flags, SL_WRITE_THROUGH)) { SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_WRITE_THROUGH); } Fobx = (PFOBX)RxContext->pFobx; DPRINT("RxCommonWrite(%p) FOBX: %p, FCB: %p\n", RxContext, Fobx, Fcb); /* Get some parameters */ Irp = RxContext->CurrentIrp; NoPreposting = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_NO_PREPOSTING_NEEDED); InFsp = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP); CanWait = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); PagingIo = BooleanFlagOn(Irp->Flags, IRP_PAGING_IO); NoCache = BooleanFlagOn(Irp->Flags, IRP_NOCACHE); Sync = !BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_ASYNC_OPERATION); WriteLength = Stack->Parameters.Write.Length; ByteOffset.QuadPart = Stack->Parameters.Write.ByteOffset.QuadPart; DPRINT("Writing: %lx@%I64x %s %s %s %s\n", WriteLength, ByteOffset.QuadPart, (CanWait ? "CW" : "!CW"), (PagingIo ? "PI" : "!PI"), (NoCache ? "NC" : "!NC"), (Sync ? "S" : "!S")); RxItsTheSameContext(); RxContext->FcbResourceAcquired = FALSE; RxContext->FcbPagingIoResourceAcquired = FALSE; LowIoContext = &RxContext->LowIoContext; CheckForLoudOperations(RxContext); if (BooleanFlagOn(LowIoContext->Flags, LOWIO_CONTEXT_FLAG_LOUDOPS)) { DPRINT("LoudWrite %I64x/%lx on %lx vdl/size/alloc %I64x/%I64x/%I64x\n", ByteOffset, WriteLength, Fcb, Fcb->Header.ValidDataLength, Fcb->Header.FileSize, Fcb->Header.AllocationSize); } RxDeviceObject = RxContext->RxDeviceObject; /* Update stats */ if (!BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP) && Fcb->CachedNetRootType == NET_ROOT_DISK) { InterlockedIncrement((volatile long *)&RxDeviceObject->WriteOperations); if (ByteOffset.QuadPart != Fobx->Specific.DiskFile.PredictedWriteOffset) { InterlockedIncrement((volatile long *)&RxDeviceObject->RandomWriteOperations); } Fobx->Specific.DiskFile.PredictedWriteOffset = ByteOffset.QuadPart + WriteLength; if (PagingIo) { ExInterlockedAddLargeStatistic(&RxDeviceObject->PagingWriteBytesRequested, WriteLength); } else if (NoCache) { ExInterlockedAddLargeStatistic(&RxDeviceObject->NonPagingWriteBytesRequested, WriteLength); } else { ExInterlockedAddLargeStatistic(&RxDeviceObject->CacheWriteBytesRequested, WriteLength); } } NetRoot = (PNET_ROOT)Fcb->NetRoot; IsPipe = (NetRoot->Type == NET_ROOT_PIPE); /* Keep track for normal writes */ if (NetRoot->Type == NET_ROOT_DISK || NetRoot->Type == NET_ROOT_WILD) { NormalFile = TRUE; } else { NormalFile = FALSE; } /* Zero-length write is immediate success */ if (NormalFile && WriteLength == 0) { return STATUS_SUCCESS; } /* Check whether we have input data */ if (Irp->UserBuffer == NULL && Irp->MdlAddress == NULL) { return STATUS_INVALID_PARAMETER; } /* Are we writing to EOF? */ WriteToEof = ((ByteOffset.LowPart == FILE_WRITE_TO_END_OF_FILE) && (ByteOffset.HighPart == -1)); /* FIXME: validate length/offset */ /* Get our SRV_OPEN in case of normal write */ if (Fobx != NULL) { SrvOpen = (PSRV_OPEN)Fobx->pSrvOpen; } else { SrvOpen = NULL; } FileObject = Stack->FileObject; /* If we have caching enabled, check whether we have to defer write */ if (!NoCache) { if (RxWriteCacheingAllowed(Fcb, SrvOpen)) { if (!CcCanIWrite(FileObject, WriteLength, (CanWait && !BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP)), BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_DEFERRED_WRITE))) { BOOLEAN Retrying; Retrying = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_DEFERRED_WRITE); RxPrePostIrp(RxContext, Irp); SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_DEFERRED_WRITE); CcDeferWrite(FileObject, (PCC_POST_DEFERRED_WRITE)RxAddToWorkque, RxContext, Irp, WriteLength, Retrying); return STATUS_PENDING; } } } /* Initialize the low IO context for write */ RxInitializeLowIoContext(LowIoContext, LOWIO_OP_WRITE); /* Initialize our (many) booleans */ RecursiveWriteThrough = FALSE; CalledByLazyWriter = FALSE; SwitchBackToAsync = FALSE; ExtendingFile = FALSE; ExtendingValidData = FALSE; UnwindOutstandingAsync = FALSE; ResourceOwnerSet = FALSE; PostIrp = FALSE; ContextReferenced = FALSE; #define _SEH2_TRY_RETURN(S) S; goto try_exit _SEH2_TRY { /* No volume FCB here! */ ASSERT((NodeTypeCode == RDBSS_NTC_STORAGE_TYPE_FILE) || (NodeTypeCode == RDBSS_NTC_SPOOLFILE) || (NodeTypeCode == RDBSS_NTC_MAILSLOT)); /* Writing to EOF on a paging file is non sense */ ASSERT(!(WriteToEof && PagingIo)); RxItsTheSameContext(); /* Start locking stuff */ if (!PagingIo && !NoPreposting) { /* If it's already acquired, all fine */ if (RxContext->FcbResourceAcquired) { ASSERT(!IsPipe); } else { /* Otherwise, try to acquire shared (excepted for pipes) */ if (IsPipe) { Status = RxAcquireExclusiveFcb(RxContext, Fcb); } else if (CanWait || (!NoCache && RxWriteCacheingAllowed(Fcb, SrvOpen))) { Status = RxAcquireSharedFcb(RxContext, Fcb); } else { Status = RxAcquireSharedFcbWaitForEx(RxContext, Fcb); } /* We'll post IRP to retry */ if (Status == STATUS_LOCK_NOT_GRANTED) { PostIrp = TRUE; DPRINT1("Failed to acquire lock!\n"); _SEH2_TRY_RETURN(Status); } /* We'll just fail */ if (Status != STATUS_SUCCESS) { _SEH2_TRY_RETURN(Status); } /* Resource acquired */ RxContext->FcbResourceAcquired = TRUE; } /* At that point, resource is acquired */ if (IsPipe) { ASSERT(RxContext->FcbResourceAcquired); } else { BOOLEAN IsDormant; /* Now, check whether we have to promote shared lock */ if (NodeTypeCode == RDBSS_NTC_STORAGE_TYPE_FILE && Fobx != NULL) { IsDormant = BooleanFlagOn(Fobx->Flags, FOBX_FLAG_MARKED_AS_DORMANT); } else { IsDormant = FALSE; } /* We're writing beyond VDL, we'll need an exclusive lock if not dormant */ if (RxIsFcbAcquiredShared(Fcb) && ByteOffset.QuadPart + WriteLength > Fcb->Header.ValidDataLength.QuadPart) { if (!IsDormant) { RxReleaseFcb(RxContext, Fcb); RxContext->FcbResourceAcquired = FALSE; Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { PostIrp = TRUE; DPRINT1("Failed to acquire lock!\n"); _SEH2_TRY_RETURN(Status); } if (Status != STATUS_SUCCESS) { _SEH2_TRY_RETURN(Status); } RxContext->FcbResourceAcquired = TRUE; } } /* If we're writing in VDL, or if we're dormant, shared lock is enough */ if (ByteOffset.QuadPart + WriteLength <= Fcb->Header.ValidDataLength.QuadPart || IsDormant) { if (RxIsFcbAcquiredExclusive(Fcb)) { RxConvertToSharedFcb(RxContext, Fcb); } } else { /* We're extending file, disable collapsing */ ASSERT(RxIsFcbAcquiredExclusive(Fcb)); DPRINT("Disabling collapsing\n"); if (NodeTypeCode == RDBSS_NTC_STORAGE_TYPE_FILE && Fobx != NULL) { SetFlag(Fobx->Flags, FOBX_FLAG_DISABLE_COLLAPSING); } } ASSERT(RxContext->FcbResourceAcquired); } /* Keep track of the acquired resource */ LowIoContext->Resource = Fcb->Header.Resource; } else { /* Paging IO */ ASSERT(!IsPipe); /* Lock the paging resource */ RxAcquirePagingIoResourceShared(RxContext, Fcb, TRUE); /* Keep track of the acquired resource */ LowIoContext->Resource = Fcb->Header.PagingIoResource; } if (IsPipe) { UNIMPLEMENTED; _SEH2_TRY_RETURN(Status = STATUS_NOT_IMPLEMENTED); } /* If it's a non cached write, or if caching is disallowed */ if (NoCache || !RxWriteCacheingAllowed(Fcb, SrvOpen)) { /* If cache was previously enabled, we'll have to flush before writing */ if (!PagingIo && Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL) { LARGE_INTEGER FlushOffset; /* FCB is lock */ ASSERT(RxIsFcbAcquiredExclusive(Fcb) || RxIsFcbAcquiredShared(Fcb)); /* If shared, we'll have to relock exclusive */ if (!RxIsFcbAcquiredExclusive(Fcb)) { /* Release and retry exclusive */ RxReleaseFcb(RxContext, Fcb); RxContext->FcbResourceAcquired = FALSE; Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { PostIrp = TRUE; DPRINT1("Failed to acquire lock for flush!\n"); _SEH2_TRY_RETURN(Status); } if (Status != STATUS_SUCCESS) { _SEH2_TRY_RETURN(Status); } RxContext->FcbResourceAcquired = TRUE; } /* Get the length to flush */ if (WriteToEof) { RxGetFileSizeWithLock(Fcb, &FlushOffset.QuadPart); } else { FlushOffset.QuadPart = ByteOffset.QuadPart; } /* Perform the flushing */ RxAcquirePagingIoResource(RxContext, Fcb); CcFlushCache(&Fcb->NonPaged->SectionObjectPointers, &FlushOffset, WriteLength, &Irp->IoStatus); RxReleasePagingIoResource(RxContext, Fcb); /* Cannot continue if flushing failed */ if (!NT_SUCCESS(Irp->IoStatus.Status)) { _SEH2_TRY_RETURN(Status = Irp->IoStatus.Status); } /* Synchronize */ RxAcquirePagingIoResource(RxContext, Fcb); RxReleasePagingIoResource(RxContext, Fcb); /* And purge */ CcPurgeCacheSection(&Fcb->NonPaged->SectionObjectPointers, &FlushOffset, WriteLength, FALSE); } } /* If not paging IO, check if write is allowed */ if (!PagingIo) { if (!FsRtlCheckLockForWriteAccess(&Fcb->Specific.Fcb.FileLock, Irp)) { _SEH2_TRY_RETURN(Status = STATUS_FILE_LOCK_CONFLICT); } } /* Get file sizes */ ValidDataLength = Fcb->Header.ValidDataLength.QuadPart; RxGetFileSizeWithLock(Fcb, &FileSize); ASSERT(ValidDataLength <= FileSize); /* If paging IO, we cannot write past file size * so fix write length if needed */ if (PagingIo) { if (ByteOffset.QuadPart >= FileSize) { _SEH2_TRY_RETURN(Status = STATUS_SUCCESS); } if (WriteLength > FileSize - ByteOffset.QuadPart) { WriteLength = FileSize - ByteOffset.QuadPart; } } /* If we're being called by the lazywrite */ if (Fcb->Specific.Fcb.LazyWriteThread == PsGetCurrentThread()) { CalledByLazyWriter = TRUE; /* Fail if we're beyong VDL */ if (BooleanFlagOn(Fcb->Header.Flags, FSRTL_FLAG_USER_MAPPED_FILE)) { if ((ByteOffset.QuadPart + WriteLength > ValidDataLength) && (ByteOffset.QuadPart < FileSize)) { if (ByteOffset.QuadPart + WriteLength > ((ValidDataLength + PAGE_SIZE - 1) & ~(PAGE_SIZE - 1))) { _SEH2_TRY_RETURN(Status = STATUS_FILE_LOCK_CONFLICT); } } } } /* If that's a recursive synchronous page write */ if (BooleanFlagOn(Irp->Flags, IRP_SYNCHRONOUS_PAGING_IO) && BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_RECURSIVE_CALL)) { PIRP TopIrp; /* Check the top level IRP on the FastIO path */ TopIrp = RxGetTopIrpIfRdbssIrp(); if (TopIrp != NULL && (ULONG_PTR)TopIrp > FSRTL_FAST_IO_TOP_LEVEL_IRP) { PIO_STACK_LOCATION IrpStack; ASSERT(NodeType(TopIrp) == IO_TYPE_IRP); /* If the top level IRP was a cached write for this file, keep track */ IrpStack = IoGetCurrentIrpStackLocation(TopIrp); if (IrpStack->MajorFunction == IRP_MJ_WRITE && IrpStack->FileObject->FsContext == FileObject->FsContext) { RecursiveWriteThrough = TRUE; SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_WRITE_THROUGH); } } } /* Now, deal with file size and VDL */ if (!CalledByLazyWriter && !RecursiveWriteThrough && (WriteToEof || ByteOffset.QuadPart + WriteLength > ValidDataLength)) { /* Not sync? Let's make it sync, just the time we extended */ if (!Sync) { CanWait = TRUE; SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); ClearFlag(RxContext->Flags, RX_CONTEXT_FLAG_ASYNC_OPERATION); Sync = TRUE; /* Keep track we'll have to switch back to async */ if (NoCache) { SwitchBackToAsync = TRUE; } } /* Release all the locks */ RxWriteReleaseResources(RxContext, 0); /* Acquire exclusive */ Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status == STATUS_LOCK_NOT_GRANTED) { PostIrp = TRUE; DPRINT1("Failed to acquire lock for extension!\n"); _SEH2_TRY_RETURN(Status); } if (Status != STATUS_SUCCESS) { _SEH2_TRY_RETURN(Status); } RxContext->FcbResourceAcquired = TRUE; RxItsTheSameContext(); /* Get the sizes again, to be sure they didn't change in the meantime */ ValidDataLength = Fcb->Header.ValidDataLength.QuadPart; RxGetFileSizeWithLock(Fcb, &FileSize); ASSERT(ValidDataLength <= FileSize); /* Check we can switch back to async? */ if ((SwitchBackToAsync && Fcb->NonPaged->SectionObjectPointers.DataSectionObject != NULL) || (ByteOffset.QuadPart + WriteLength > FileSize) || RxNoAsync) { SwitchBackToAsync = FALSE; } /* If paging IO, check we don't try to extend the file */ if (PagingIo) { if (ByteOffset.QuadPart >= FileSize) { _SEH2_TRY_RETURN(Status = STATUS_SUCCESS); } if (WriteLength > FileSize - ByteOffset.QuadPart) { WriteLength = FileSize - ByteOffset.QuadPart; } } } /* Save our initial sizes for potential rollback */ InitialFileSize = FileSize; InitialValidDataLength = ValidDataLength; /* If writing to EOF, update byte offset with file size */ if (WriteToEof) { ByteOffset.QuadPart = FileSize; } /* Check again whether we're allowed to write */ if (!PagingIo) { if (!FsRtlCheckLockForWriteAccess(&Fcb->Specific.Fcb.FileLock, Irp )) { _SEH2_TRY_RETURN(Status = STATUS_FILE_LOCK_CONFLICT); } /* Do we have to extend? */ if (NormalFile && (ByteOffset.QuadPart + WriteLength > FileSize)) { DPRINT("Need to extend file\n"); ExtendingFile = TRUE; SetFlag(LowIoContext->ParamsFor.ReadWrite.Flags, LOWIO_READWRITEFLAG_EXTENDING_FILESIZE); } } /* Let's start to extend */ if (ExtendingFile) { /* If we're past allocating, inform mini-rdr */ FileSize = ByteOffset.QuadPart + WriteLength; if (FileSize > Fcb->Header.AllocationSize.QuadPart) { LARGE_INTEGER NewAllocationSize; DPRINT("Extending %p\n", RxContext); if (NoCache) { C_ASSERT(sizeof(LONGLONG) == sizeof(LARGE_INTEGER)); MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxExtendForNonCache, (RxContext, (PLARGE_INTEGER)&FileSize, &NewAllocationSize)); } else { C_ASSERT(sizeof(LONGLONG) == sizeof(LARGE_INTEGER)); MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxExtendForCache, (RxContext, (PLARGE_INTEGER)&FileSize, &NewAllocationSize)); } if (!NT_SUCCESS(Status)) { _SEH2_TRY_RETURN(Status); } if (FileSize > NewAllocationSize.QuadPart) { NewAllocationSize.QuadPart = FileSize; } /* And update FCB */ Fcb->Header.AllocationSize.QuadPart = NewAllocationSize.QuadPart; } /* Set the new sizes */ RxSetFileSizeWithLock(Fcb, &FileSize); RxAdjustAllocationSizeforCC(Fcb); /* And inform Cc */ if (CcIsFileCached(FileObject)) { CcSetFileSizes(FileObject, (PCC_FILE_SIZES)&Fcb->Header.AllocationSize); } } /* Do we have to extend VDL? */ if (!CalledByLazyWriter && !RecursiveWriteThrough) { if (WriteToEof || ByteOffset.QuadPart + WriteLength > ValidDataLength) { ExtendingValidData = TRUE; SetFlag(LowIoContext->ParamsFor.ReadWrite.Flags, LOWIO_READWRITEFLAG_EXTENDING_VDL); } } /* If none cached write */ if (PagingIo || NoCache || !RxWriteCacheingAllowed(Fcb, SrvOpen)) { /* Switch back to async, if asked to */ if (SwitchBackToAsync) { CanWait = FALSE; Sync = FALSE; ClearFlag(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_ASYNC_OPERATION); } /* If not synchronous, keep track of writes to be finished */ if (!Sync) { if (Fcb->NonPaged->OutstandingAsyncEvent == NULL) { Fcb->NonPaged->OutstandingAsyncEvent = &Fcb->NonPaged->TheActualEvent; KeInitializeEvent(Fcb->NonPaged->OutstandingAsyncEvent, NotificationEvent, FALSE); } if (ExInterlockedAddUlong(&Fcb->NonPaged->OutstandingAsyncWrites, 1, &RxStrucSupSpinLock) == 0) { KeClearEvent(Fcb->NonPaged->OutstandingAsyncEvent); } UnwindOutstandingAsync = TRUE; LowIoContext->ParamsFor.ReadWrite.NonPagedFcb = Fcb->NonPaged; } /* Set our LOWIO_CONTEXT information */ LowIoContext->ParamsFor.ReadWrite.ByteOffset = ByteOffset.QuadPart; LowIoContext->ParamsFor.ReadWrite.ByteCount = WriteLength; RxItsTheSameContext(); /* We have to be locked */ ASSERT(RxContext->FcbResourceAcquired || RxContext->FcbPagingIoResourceAcquired); /* Update thread ID if we're in FSP */ if (InFsp) { LowIoContext->ResourceThreadId = (ULONG_PTR)RxContext | 3; if (RxContext->FcbResourceAcquired) { ExSetResourceOwnerPointer(Fcb->Header.Resource, (PVOID)((ULONG_PTR)RxContext | 3)); } if (RxContext->FcbPagingIoResourceAcquired) { ExSetResourceOwnerPointer(Fcb->Header.PagingIoResource, (PVOID)((ULONG_PTR)RxContext | 3)); } ResourceOwnerSet = TRUE; } /* And perform the write */ Status = RxLowIoWriteShell(RxContext); RxItsTheSameContext(); /* Not outstanding write anymore */ if (UnwindOutstandingAsync && Status == STATUS_PENDING) { UnwindOutstandingAsync = FALSE; } } /* Cached write */ else { /* If cache wasn't enabled yet, do it */ if (FileObject->PrivateCacheMap == NULL) { if (BooleanFlagOn(FileObject->Flags, FO_CLEANUP_COMPLETE)) { _SEH2_TRY_RETURN(Status = STATUS_FILE_CLOSED); } RxAdjustAllocationSizeforCC(Fcb); CcInitializeCacheMap(FileObject, (PCC_FILE_SIZES)&Fcb->Header.AllocationSize, FALSE, &RxData.CacheManagerCallbacks, Fcb); CcSetReadAheadGranularity(FileObject, NetRoot->DiskParameters.ReadAheadGranularity); } /* If that's a MDL backed write */ if (BooleanFlagOn(RxContext->MinorFunction, IRP_MN_MDL)) { /* Shouldn't happen */ ASSERT(FALSE); ASSERT(CanWait); /* Perform it, though */ CcPrepareMdlWrite(FileObject, &ByteOffset, WriteLength, &Irp->MdlAddress, &Irp->IoStatus); Status = Irp->IoStatus.Status; } else { PVOID SystemBuffer; ULONG BreakpointsSave; /* Map the user buffer */ SystemBuffer = RxNewMapUserBuffer(RxContext); if (SystemBuffer == NULL) { _SEH2_TRY_RETURN(Status = STATUS_INSUFFICIENT_RESOURCES); } RxSaveAndSetExceptionNoBreakpointFlag(RxContext, BreakpointsSave); RxItsTheSameContext(); /* And deal with Cc */ if (!CcCopyWrite(FileObject, &ByteOffset, WriteLength, CanWait, SystemBuffer)) { RxRestoreExceptionNoBreakpointFlag(RxContext, BreakpointsSave); RxItsTheSameContext(); DPRINT1("CcCopyWrite failed for: %p %I64d %d %lx\n", FileObject, Fcb->Header.FileSize.QuadPart, WriteLength, Status); PostIrp = TRUE; } else { Irp->IoStatus.Status = STATUS_SUCCESS; Irp->IoStatus.Information = WriteLength; RxRestoreExceptionNoBreakpointFlag(RxContext, BreakpointsSave); RxItsTheSameContext(); DPRINT("CcCopyWrite succeed for: %p %I64d %d %lx\n", FileObject, Fcb->Header.FileSize.QuadPart, WriteLength, Status); } } } try_exit: NOTHING; /* If we've to post the IRP */ if (PostIrp) { /* Reset the file size if required */ if (ExtendingFile && !IsPipe) { ASSERT(RxWriteCacheingAllowed(Fcb, SrvOpen)); ASSERT(Fcb->Header.PagingIoResource != NULL); RxAcquirePagingIoResource(RxContext, Fcb); RxSetFileSizeWithLock(Fcb, &InitialFileSize); RxReleasePagingIoResource(RxContext, Fcb); if (FileObject->SectionObjectPointer->SharedCacheMap != NULL) { *CcGetFileSizePointer(FileObject) = Fcb->Header.FileSize; } } InterlockedIncrement((volatile long *)&RxContext->ReferenceCount); ContextReferenced = TRUE; /* Release locks */ ASSERT(!ResourceOwnerSet); RxWriteReleaseResources(RxContext, ResourceOwnerSet); #ifdef RDBSS_TRACKER ASSERT(RxContext->AcquireReleaseFcbTrackerX == 0); #endif /* And post the request */ Status = RxFsdPostRequest(RxContext); } else { if (!IsPipe) { /* Update FILE_OBJECT if synchronous write succeed */ if (!PagingIo) { if (NT_SUCCESS(Status) && BooleanFlagOn(FileObject->Flags, FO_SYNCHRONOUS_IO)) { FileObject->CurrentByteOffset.QuadPart = ByteOffset.QuadPart + Irp->IoStatus.Information; } } /* If write succeed, ,also update FILE_OBJECT flags */ if (NT_SUCCESS(Status) && Status != STATUS_PENDING) { /* File was modified */ if (!PagingIo) { SetFlag(FileObject->Flags, FO_FILE_MODIFIED); } /* If was even extended */ if (ExtendingFile) { SetFlag(FileObject->Flags, FO_FILE_SIZE_CHANGED); } /* If VDL was extended, update FCB and inform Cc */ if (ExtendingValidData) { LONGLONG LastOffset; LastOffset = ByteOffset.QuadPart + Irp->IoStatus.Information; if (FileSize < LastOffset) { LastOffset = FileSize; } Fcb->Header.ValidDataLength.QuadPart = LastOffset; if (NoCache && CcIsFileCached(FileObject)) { CcSetFileSizes(FileObject, (PCC_FILE_SIZES)&Fcb->Header.AllocationSize); } } } } } } _SEH2_FINALLY { /* Finally, if we failed while extension was required */ if (_SEH2_AbnormalTermination() && (ExtendingFile || ExtendingValidData)) { /* Rollback! */ if (!IsPipe) { ASSERT(Fcb->Header.PagingIoResource != NULL); RxAcquirePagingIoResource(RxContext, Fcb); RxSetFileSizeWithLock(Fcb, &InitialFileSize); Fcb->Header.ValidDataLength.QuadPart = InitialValidDataLength; RxReleasePagingIoResource(RxContext, Fcb); if (FileObject->SectionObjectPointer->SharedCacheMap != NULL) { *CcGetFileSizePointer(FileObject) = Fcb->Header.FileSize; } } } /* One async write less */ if (UnwindOutstandingAsync) { ASSERT(!IsPipe); ExInterlockedAddUlong(&Fcb->NonPaged->OutstandingAsyncWrites, -1, &RxStrucSupSpinLock); KeSetEvent(Fcb->NonPaged->OutstandingAsyncEvent, IO_NO_INCREMENT, FALSE); } /* And now, cleanup everything */ if (_SEH2_AbnormalTermination() || Status != STATUS_PENDING || PostIrp) { /* If we didn't post, release every lock (for posting, it's already done) */ if (!PostIrp) { RxWriteReleaseResources(RxContext, ResourceOwnerSet); } /* If the context was referenced - posting, dereference it */ if (ContextReferenced) { RxDereferenceAndDeleteRxContext(RxContext); } /* If that's a pipe operation, resume any blocked one */ if (!PostIrp) { if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_SYNC_OPERATION)) { RxResumeBlockedOperations_Serially(RxContext, &Fobx->Specific.NamedPipe.ReadSerializationQueue); } } /* Sanity check for write */ if (Status == STATUS_SUCCESS) { ASSERT(Irp->IoStatus.Information <= Stack->Parameters.Write.Length); } } /* Just dereference our context */ else { ASSERT(!Sync); RxDereferenceAndDeleteRxContext(RxContext); } } _SEH2_END; #undef _SEH2_TRY_RETURN return Status; } /* * @implemented */ NTSTATUS NTAPI RxCompleteMdl( IN PRX_CONTEXT RxContext) { PIRP Irp; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; #define BugCheckFileId RDBSS_BUG_CHECK_CACHESUP PAGED_CODE(); Irp = RxContext->CurrentIrp; Stack = RxContext->CurrentIrpSp; FileObject = Stack->FileObject; /* We can only complete for IRP_MJ_READ and IRP_MJ_WRITE */ switch (RxContext->MajorFunction) { /* Call the Cc function */ case IRP_MJ_READ: CcMdlReadComplete(FileObject, Irp->MdlAddress); break; case IRP_MJ_WRITE: /* If here, we can wait */ ASSERT(BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_WAIT)); /* Call the Cc function */ CcMdlWriteComplete(FileObject, &Stack->Parameters.Write.ByteOffset, Irp->MdlAddress); Irp->IoStatus.Status = STATUS_SUCCESS; break; default: DPRINT1("Invalid major for RxCompleteMdl: %d\n", RxContext->MajorFunction); RxBugCheck(RxContext->MajorFunction, 0, 0); break; } /* MDL was freed */ Irp->MdlAddress = NULL; /* And complete the IRP */ RxCompleteRequest(RxContext, STATUS_SUCCESS); #undef BugCheckFileId return STATUS_SUCCESS; } /* * @implemented */ VOID RxConjureOriginalName( PFCB Fcb, PFOBX Fobx, PULONG ActualNameLength, PWCHAR OriginalName, PLONG LengthRemaining, RX_NAME_CONJURING_METHODS NameConjuringMethod) { PWSTR Prefix, Name; PV_NET_ROOT VNetRoot; USHORT PrefixLength, NameLength, ToCopy; PAGED_CODE(); VNetRoot = Fcb->VNetRoot; /* We will use the prefix contained in NET_ROOT, if we don't have * a V_NET_ROOT, or if it wasn't null deviced or if we already have * a UNC path */ if (VNetRoot == NULL || VNetRoot->PrefixEntry.Prefix.Buffer[1] != L';' || BooleanFlagOn(Fobx->Flags, FOBX_FLAG_UNC_NAME)) { Prefix = ((PNET_ROOT)Fcb->pNetRoot)->PrefixEntry.Prefix.Buffer; PrefixLength = ((PNET_ROOT)Fcb->pNetRoot)->PrefixEntry.Prefix.Length; NameLength = 0; /* In that case, keep track that we will have a prefix as buffer */ NameConjuringMethod = VNetRoot_As_Prefix; } else { ASSERT(NodeType(VNetRoot) == RDBSS_NTC_V_NETROOT); /* Otherwise, return the prefix from our V_NET_ROOT */ Prefix = VNetRoot->PrefixEntry.Prefix.Buffer; PrefixLength = VNetRoot->PrefixEntry.Prefix.Length; NameLength = VNetRoot->NamePrefix.Length; /* If we want a UNC path, skip potential device */ if (NameConjuringMethod == VNetRoot_As_UNC_Name) { do { ++Prefix; PrefixLength -= sizeof(WCHAR); } while (PrefixLength > 0 && Prefix[0] != L'\\'); } } /* If we added an extra backslash, skip it */ if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_ADDEDBACKSLASH)) { NameLength += sizeof(WCHAR); } /* If we're asked for a drive letter, skip the prefix */ if (NameConjuringMethod == VNetRoot_As_DriveLetter) { PrefixLength = 0; /* And make sure we arrive at a backslash */ if (Fcb->FcbTableEntry.Path.Length > NameLength && Fcb->FcbTableEntry.Path.Buffer[NameLength / sizeof(WCHAR)] != L'\\') { NameLength -= sizeof(WCHAR); } } else { /* Prepare to copy the prefix, make sure not to overflow */ if (*LengthRemaining >= PrefixLength) { /* Copy everything */ ToCopy = PrefixLength; *LengthRemaining = *LengthRemaining - PrefixLength; } else { /* Copy as much as we can */ ToCopy = *LengthRemaining; /* And return failure */ *LengthRemaining = -1; } /* Copy the prefix */ RtlCopyMemory(OriginalName, Prefix, ToCopy); } /* Do we have a name to copy now? */ if (Fcb->FcbTableEntry.Path.Length > NameLength) { ToCopy = Fcb->FcbTableEntry.Path.Length - NameLength; Name = Fcb->FcbTableEntry.Path.Buffer; } else { /* Just use slash for now */ ToCopy = sizeof(WCHAR); NameLength = 0; Name = L"\\"; } /* Total length we will have in the output buffer (if everything is alright) */ *ActualNameLength = ToCopy + PrefixLength; /* If we still have room to write data */ if (*LengthRemaining != -1) { /* If we can copy everything, it's fine! */ if (*LengthRemaining > ToCopy) { *LengthRemaining = *LengthRemaining - ToCopy; } /* Otherwise, copy as much as possible, and return failure */ else { ToCopy = *LengthRemaining; *LengthRemaining = -1; } /* Copy name after the prefix */ RtlCopyMemory(Add2Ptr(OriginalName, PrefixLength), Add2Ptr(Name, NameLength), ToCopy); } } /* * @implemented */ VOID RxCopyCreateParameters( IN PRX_CONTEXT RxContext) { PIRP Irp; PVOID DfsContext; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; PDFS_NAME_CONTEXT DfsNameContext; PIO_SECURITY_CONTEXT SecurityContext; Irp = RxContext->CurrentIrp; Stack = RxContext->CurrentIrpSp; FileObject = Stack->FileObject; SecurityContext = Stack->Parameters.Create.SecurityContext; RxContext->Create.NtCreateParameters.SecurityContext = SecurityContext; if (SecurityContext->AccessState != NULL && SecurityContext->AccessState->SecurityDescriptor != NULL) { RxContext->Create.SdLength = RtlLengthSecurityDescriptor(SecurityContext->AccessState->SecurityDescriptor); DPRINT("SD Ctxt: %p, Length: %lx\n", RxContext->Create.NtCreateParameters.SecurityContext, RxContext->Create.SdLength); } if (SecurityContext->SecurityQos != NULL) { RxContext->Create.NtCreateParameters.ImpersonationLevel = SecurityContext->SecurityQos->ImpersonationLevel; } else { RxContext->Create.NtCreateParameters.ImpersonationLevel = SecurityImpersonation; } RxContext->Create.NtCreateParameters.DesiredAccess = SecurityContext->DesiredAccess; RxContext->Create.NtCreateParameters.AllocationSize.QuadPart = Irp->Overlay.AllocationSize.QuadPart; RxContext->Create.NtCreateParameters.FileAttributes = Stack->Parameters.Create.FileAttributes & FILE_ATTRIBUTE_VALID_FLAGS; RxContext->Create.NtCreateParameters.ShareAccess = Stack->Parameters.Create.ShareAccess & FILE_SHARE_VALID_FLAGS; RxContext->Create.NtCreateParameters.Disposition = (Stack->Parameters.Create.Options >> 24) & 0x000000FF; RxContext->Create.NtCreateParameters.CreateOptions = Stack->Parameters.Create.Options & 0xFFFFFF; DfsContext = FileObject->FsContext2; DfsNameContext = FileObject->FsContext; RxContext->Create.NtCreateParameters.DfsContext = DfsContext; RxContext->Create.NtCreateParameters.DfsNameContext = DfsNameContext; ASSERT(DfsContext == NULL || DfsContext == UIntToPtr(DFS_OPEN_CONTEXT) || DfsContext == UIntToPtr(DFS_DOWNLEVEL_OPEN_CONTEXT) || DfsContext == UIntToPtr(DFS_CSCAGENT_NAME_CONTEXT) || DfsContext == UIntToPtr(DFS_USER_NAME_CONTEXT)); ASSERT(DfsNameContext == NULL || DfsNameContext->NameContextType == DFS_OPEN_CONTEXT || DfsNameContext->NameContextType == DFS_DOWNLEVEL_OPEN_CONTEXT || DfsNameContext->NameContextType == DFS_CSCAGENT_NAME_CONTEXT || DfsNameContext->NameContextType == DFS_USER_NAME_CONTEXT); FileObject->FsContext2 = NULL; FileObject->FsContext = NULL; RxContext->pFcb = NULL; RxContext->Create.ReturnedCreateInformation = 0; /* if we stripped last \, it has to be a directory! */ if (BooleanFlagOn(RxContext->Create.Flags, RX_CONTEXT_CREATE_FLAG_STRIPPED_TRAILING_BACKSLASH)) { SetFlag(RxContext->Create.NtCreateParameters.CreateOptions, FILE_DIRECTORY_FILE); } RxContext->Create.EaLength = Stack->Parameters.Create.EaLength; if (RxContext->Create.EaLength == 0) { RxContext->Create.EaBuffer = NULL; } else { RxContext->Create.EaBuffer = Irp->AssociatedIrp.SystemBuffer; DPRINT("EA Buffer: %p, Length: %lx\n", Irp->AssociatedIrp.SystemBuffer, RxContext->Create.EaLength); } } NTSTATUS RxCreateFromNetRoot( PRX_CONTEXT Context, PUNICODE_STRING NetRootName) { PFCB Fcb; NTSTATUS Status; PNET_ROOT NetRoot; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; ACCESS_MASK DesiredAccess; USHORT DesiredShareAccess; PAGED_CODE(); /* Validate that the context is consistent */ if (Context->Create.pNetRoot == NULL) { return STATUS_BAD_NETWORK_PATH; } NetRoot = (PNET_ROOT)Context->Create.pNetRoot; if (Context->RxDeviceObject != NetRoot->pSrvCall->RxDeviceObject) { return STATUS_BAD_NETWORK_PATH; } if (Context->Create.NtCreateParameters.DfsContext == UIntToPtr(DFS_OPEN_CONTEXT) && !BooleanFlagOn(NetRoot->pSrvCall->Flags, SRVCALL_FLAG_DFS_AWARE_SERVER)) { return STATUS_DFS_UNAVAILABLE; } if (Context->Create.NtCreateParameters.DfsContext == UIntToPtr(DFS_DOWNLEVEL_OPEN_CONTEXT) && BooleanFlagOn(NetRoot->Flags, NETROOT_FLAG_DFS_AWARE_NETROOT)) { return STATUS_OBJECT_TYPE_MISMATCH; } Stack = Context->CurrentIrpSp; DesiredShareAccess = Stack->Parameters.Create.ShareAccess & FILE_SHARE_VALID_FLAGS; if (NetRoot->Type == NET_ROOT_PRINT) { DesiredShareAccess = FILE_SHARE_VALID_FLAGS; } DesiredAccess = Stack->Parameters.Create.SecurityContext->DesiredAccess & FILE_ALL_ACCESS; /* Get file object */ FileObject = Stack->FileObject; /* Do we have to open target directory for renaming? */ if (BooleanFlagOn(Stack->Flags, SL_OPEN_TARGET_DIRECTORY)) { DPRINT("Opening target directory\n"); /* If we have been asked for delete, try to purge first */ if (BooleanFlagOn(Context->Create.NtCreateParameters.DesiredAccess, DELETE)) { RxPurgeRelatedFobxs((PNET_ROOT)Context->Create.pVNetRoot->pNetRoot, Context, ATTEMPT_FINALIZE_ON_PURGE, NULL); } /* Create the FCB */ Fcb = RxCreateNetFcb(Context, (PV_NET_ROOT)Context->Create.pVNetRoot, NetRootName); if (Fcb == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } /* Fake it: it will be used only renaming */ NodeType(Fcb) = RDBSS_NTC_OPENTARGETDIR_FCB; Context->Create.FcbAcquired = FALSE; Context->Create.NetNamePrefixEntry = NULL; /* Assign it to the FO */ FileObject->FsContext = Fcb; /* If we have a FOBX already, check whether it's for DFS opening */ if (Context->pFobx != NULL) { /* If so, reflect this in the FOBX */ if (FileObject->FsContext2 == UIntToPtr(DFS_OPEN_CONTEXT)) { SetFlag(Context->pFobx->Flags, FOBX_FLAG_DFS_OPEN); } else { ClearFlag(Context->pFobx->Flags, FOBX_FLAG_DFS_OPEN); } } /* Acquire the FCB */ Status = RxAcquireExclusiveFcb(Context, Fcb); if (Status != STATUS_SUCCESS) { return Status; } /* Reference the FCB and release */ RxReferenceNetFcb(Fcb); RxReleaseFcb(Context, Fcb); /* We're done! */ return STATUS_SUCCESS; } /* Try to find (or create) the FCB for the file */ Status = RxFindOrCreateFcb(Context, NetRootName); Fcb = (PFCB)Context->pFcb; if (Fcb == NULL) { ASSERT(!NT_SUCCESS(Status)); } if (!NT_SUCCESS(Status) || Fcb == NULL) { return Status; } if (BooleanFlagOn(Context->Flags, RX_CONTEXT_FLAG_CREATE_MAILSLOT)) { Fcb->Header.NodeTypeCode = RDBSS_NTC_MAILSLOT; } else { Status = STATUS_MORE_PROCESSING_REQUIRED; } /* If finding FCB worked (mailslot case), mark the FCB as good and quit */ if (NT_SUCCESS(Status)) { RxTransitionNetFcb(Fcb, Condition_Good); DPRINT("Transitioning FCB %lx Condition %lx\n", Fcb, Fcb->Condition); ++Fcb->OpenCount; RxSetupNetFileObject(Context); return STATUS_SUCCESS; } /* Not mailslot! */ /* Check SA for conflict */ if (Fcb->OpenCount > 0) { Status = RxCheckShareAccess(DesiredAccess, DesiredShareAccess, FileObject, &Fcb->ShareAccess, FALSE, "early check per useropens", "EarlyPerUO"); if (!NT_SUCCESS(Status)) { RxDereferenceNetFcb(Fcb); return Status; } } if (BooleanFlagOn(Context->Create.NtCreateParameters.CreateOptions, FILE_DELETE_ON_CLOSE) && !BooleanFlagOn(Context->Create.NtCreateParameters.DesiredAccess, ~SYNCHRONIZE)) { UNIMPLEMENTED; } _SEH2_TRY { /* Find a SRV_OPEN that suits the opening */ Status = RxCollapseOrCreateSrvOpen(Context); if (Status == STATUS_SUCCESS) { PFOBX Fobx; PSRV_OPEN SrvOpen; SrvOpen = (PSRV_OPEN)Context->pRelevantSrvOpen; Fobx = (PFOBX)Context->pFobx; /* There are already opens, check for conflict */ if (Fcb->OpenCount != 0) { if (!NT_SUCCESS(RxCheckShareAccess(DesiredAccess, DesiredShareAccess, FileObject, &Fcb->ShareAccess, FALSE, "second check per useropens", "2ndAccPerUO"))) { ++SrvOpen->UncleanFobxCount; RxDereferenceNetFobx(Fobx, LHS_LockNotHeld); _SEH2_LEAVE; } } else { if (NetRoot->Type != NET_ROOT_PIPE) { RxSetShareAccess(DesiredAccess, DesiredShareAccess, FileObject, &Fcb->ShareAccess, "initial shareaccess setup", "InitShrAcc"); } } RxSetupNetFileObject(Context); /* No conflict? Set up SA */ if (Fcb->OpenCount != 0 && NetRoot->Type != NET_ROOT_PIPE) { RxUpdateShareAccess(FileObject, &Fcb->ShareAccess, "update share access", "UpdShrAcc"); } ++Fcb->UncleanCount; if (BooleanFlagOn(FileObject->Flags, FO_NO_INTERMEDIATE_BUFFERING)) { ++Fcb->UncachedUncleanCount; } if (SrvOpen->UncleanFobxCount == 0 && Fcb->UncleanCount == 1 && !BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_NO_BUFFERING_STATE_CHANGE)) { RxChangeBufferingState(SrvOpen, NULL, FALSE); } /* No pending close, we're active */ ClearFlag(Fcb->FcbState, FCB_STATE_DELAY_CLOSE); ++Fcb->OpenCount; ++SrvOpen->UncleanFobxCount; ++SrvOpen->OpenCount; SrvOpen->ulFileSizeVersion = Fcb->ulFileSizeVersion; if (BooleanFlagOn(Stack->Parameters.Create.Options, FILE_NO_INTERMEDIATE_BUFFERING)) { SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_DONTUSE_READ_CACHING); SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_DONTUSE_WRITE_CACHING); ClearFlag(Fcb->FcbState, FCB_STATE_WRITECACHING_ENABLED); ClearFlag(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED); RxPurgeFcbInSystemCache(Fcb, NULL, 0, TRUE, TRUE); } /* Now, update SA for the SRV_OPEN */ RxUpdateShareAccessPerSrvOpens(SrvOpen); if (BooleanFlagOn(Stack->Parameters.Create.Options, FILE_DELETE_ON_CLOSE)) { SetFlag(Fobx->Flags, FOBX_FLAG_DELETE_ON_CLOSE); } /* Update the FOBX info */ if (Fobx != NULL) { if (Context->Create.pNetRoot->Type == NET_ROOT_PIPE) { SetFlag(FileObject->Flags, FO_NAMED_PIPE); } if (Context->Create.pNetRoot->Type == NET_ROOT_PRINT || Context->Create.pNetRoot->Type == NET_ROOT_PIPE) { Fobx->PipeHandleInformation = &Fobx->Specific.NamedPipe.PipeHandleInformation; Fobx->Specific.NamedPipe.CollectDataTime.QuadPart = 0; Fobx->Specific.NamedPipe.CollectDataSize = Context->Create.pNetRoot->NamedPipeParameters.DataCollectionSize; Fobx->Specific.NamedPipe.PipeHandleInformation.TypeOfPipe = Context->Create.PipeType; Fobx->Specific.NamedPipe.PipeHandleInformation.ReadMode = Context->Create.PipeReadMode; Fobx->Specific.NamedPipe.PipeHandleInformation.CompletionMode = Context->Create.PipeCompletionMode; InitializeListHead(&Fobx->Specific.NamedPipe.ReadSerializationQueue); InitializeListHead(&Fobx->Specific.NamedPipe.WriteSerializationQueue); } } Status = STATUS_SUCCESS; } } _SEH2_FINALLY { if (Fcb->OpenCount == 0) { if (Context->Create.FcbAcquired) { Context->Create.FcbAcquired = (RxDereferenceAndFinalizeNetFcb(Fcb, Context, FALSE, FALSE) == 0); if (!Context->Create.FcbAcquired) { RxTrackerUpdateHistory(Context, NULL, TRACKER_FCB_FREE, __LINE__, __FILE__, 0); } } } else { RxDereferenceNetFcb(Fcb); } } _SEH2_END; return Status; } /* * @implemented */ NTSTATUS RxCreateTreeConnect( IN PRX_CONTEXT RxContext) { NTSTATUS Status; PV_NET_ROOT VNetRoot; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; NET_ROOT_TYPE NetRootType; UNICODE_STRING CanonicalName, RemainingName; PAGED_CODE(); Stack = RxContext->CurrentIrpSp; FileObject = Stack->FileObject; RtlInitEmptyUnicodeString(&CanonicalName, NULL, 0); /* As long as we don't know connection type, mark it wild */ NetRootType = NET_ROOT_WILD; /* Get the type by parsing the name */ Status = RxFirstCanonicalize(RxContext, &FileObject->FileName, &CanonicalName, &NetRootType); if (!NT_SUCCESS(Status)) { return Status; } RxContext->Create.ThisIsATreeConnectOpen = TRUE; RxContext->Create.TreeConnectOpenDeferred = FALSE; RtlInitEmptyUnicodeString(&RxContext->Create.TransportName, NULL, 0); RtlInitEmptyUnicodeString(&RxContext->Create.UserName, NULL, 0); RtlInitEmptyUnicodeString(&RxContext->Create.Password, NULL, 0); RtlInitEmptyUnicodeString(&RxContext->Create.UserDomainName, NULL, 0); /* We don't handle EA - they come from DFS, don't care */ if (Stack->Parameters.Create.EaLength > 0) { UNIMPLEMENTED; } /* Mount if required */ Status = RxFindOrConstructVirtualNetRoot(RxContext, &CanonicalName, NetRootType, &RemainingName); if (Status == STATUS_NETWORK_CREDENTIAL_CONFLICT) { RxScavengeVNetRoots(RxContext->RxDeviceObject); Status = RxFindOrConstructVirtualNetRoot(RxContext, &CanonicalName, NetRootType, &RemainingName); } if (!NT_SUCCESS(Status)) { return Status; } /* Validate the rest of the name with mini-rdr */ if (RemainingName.Length > 0) { MINIRDR_CALL(Status, RxContext, RxContext->Create.pNetRoot->pSrvCall->RxDeviceObject->Dispatch, MRxIsValidDirectory, (RxContext, &RemainingName)); } if (!NT_SUCCESS(Status)) { return Status; } VNetRoot = (PV_NET_ROOT)RxContext->Create.pVNetRoot; RxReferenceVNetRoot(VNetRoot); if (InterlockedCompareExchange(&VNetRoot->AdditionalReferenceForDeleteFsctlTaken, 1, 0) != 0) { RxDereferenceVNetRoot(VNetRoot, LHS_LockNotHeld); } FileObject->FsContext = &RxDeviceFCB; FileObject->FsContext2 = VNetRoot; VNetRoot->ConstructionStatus = STATUS_SUCCESS; ++VNetRoot->NumberOfOpens; /* Create is over - clear context */ RxContext->Create.pSrvCall = NULL; RxContext->Create.pNetRoot = NULL; RxContext->Create.pVNetRoot = NULL; return Status; } VOID NTAPI RxDebugControlCommand( _In_ PSTR ControlString) { UNIMPLEMENTED; } NTSTATUS NTAPI RxDriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING RegistryPath) { NTSTATUS Status; USHORT i, State = 0; DPRINT("RxDriverEntry(%p, %p)\n", DriverObject, RegistryPath); _SEH2_TRY { RxCheckFcbStructuresForAlignment(); RtlZeroMemory(&RxData, sizeof(RxData)); RxData.NodeTypeCode = RDBSS_NTC_DATA_HEADER; RxData.NodeByteSize = sizeof(RxData); RxData.DriverObject = DriverObject; RtlZeroMemory(&RxDeviceFCB, sizeof(RxDeviceFCB)); RxDeviceFCB.spacer.NodeTypeCode = RDBSS_NTC_DEVICE_FCB; RxDeviceFCB.spacer.NodeByteSize = sizeof(RxDeviceFCB); KeInitializeSpinLock(&RxStrucSupSpinLock); RxExports.pRxStrucSupSpinLock = &RxStrucSupSpinLock; RxInitializeDebugSupport(); RxFileSystemDeviceObject = (PRDBSS_DEVICE_OBJECT)&RxSpaceForTheWrappersDeviceObject; RtlZeroMemory(&RxSpaceForTheWrappersDeviceObject, sizeof(RxSpaceForTheWrappersDeviceObject)); RxInitializeLog(); State = 2; RxGetRegistryParameters(RegistryPath); RxReadRegistryParameters(); Status = RxInitializeRegistrationStructures(); if (!NT_SUCCESS(Status)) { _SEH2_LEAVE; } State = 1; RxInitializeDispatcher(); ExInitializeNPagedLookasideList(&RxContextLookasideList, RxAllocatePoolWithTag, RxFreePool, 0, sizeof(RX_CONTEXT), RX_IRPC_POOLTAG, 4); InitializeListHead(&RxIrpsList); KeInitializeSpinLock(&RxIrpsListSpinLock); InitializeListHead(&RxActiveContexts); InitializeListHead(&RxSrvCalldownList); ExInitializeFastMutex(&RxContextPerFileSerializationMutex); ExInitializeFastMutex(&RxLowIoPagingIoSyncMutex); KeInitializeMutex(&RxScavengerMutex, 1); KeInitializeMutex(&RxSerializationMutex, 1); for (i = 0; i < RxMaximumWorkQueue; ++i) { RxFileSystemDeviceObject->PostedRequestCount[i] = 0; RxFileSystemDeviceObject->OverflowQueueCount[i] = 0; InitializeListHead(&RxFileSystemDeviceObject->OverflowQueue[i]); } KeInitializeSpinLock(&RxFileSystemDeviceObject->OverflowQueueSpinLock); RxInitializeDispatchVectors(DriverObject); ExInitializeResourceLite(&RxData.Resource); RxData.OurProcess = IoGetCurrentProcess(); RxInitializeRxTimer(); } _SEH2_FINALLY { if (!NT_SUCCESS(Status)) { RxLogFailure(RxFileSystemDeviceObject, NULL, 0x80000BC4, Status); RxInitUnwind(DriverObject, State); } } _SEH2_END; /* There are still bits to init - be consider it's fine for now */ #if 0 UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; #else return STATUS_SUCCESS; #endif } #if DBG /* * @implemented */ VOID RxDumpCurrentAccess( _In_ PSZ where1, _In_ PSZ where2, _In_ PSZ wherelogtag, _In_ PSHARE_ACCESS ShareAccess) { PAGED_CODE(); } /* * @implemented */ VOID RxDumpWantedAccess( _In_ PSZ where1, _In_ PSZ where2, _In_ PSZ wherelogtag, _In_ ACCESS_MASK DesiredAccess, _In_ ULONG DesiredShareAccess) { PAGED_CODE(); } #endif /* * @implemented */ BOOLEAN NTAPI RxFastIoCheckIfPossible( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, BOOLEAN CheckForReadOperation, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject) { PFCB Fcb; PSRV_OPEN SrvOpen; LARGE_INTEGER LargeLength; PAGED_CODE(); /* Get the FCB to validate it */ Fcb = FileObject->FsContext; if (NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_FILE) { DPRINT1("Not a file, FastIO not possible!\n"); return FALSE; } if (FileObject->DeletePending) { DPRINT1("File delete pending\n"); return FALSE; } /* If there's a pending write operation, deny fast operation */ if (Fcb->NonPaged->OutstandingAsyncWrites != 0) { DPRINT1("Write operations to be completed\n"); return FALSE; } /* Deny read on orphaned node */ SrvOpen = (PSRV_OPEN)((PFOBX)FileObject->FsContext2)->pSrvOpen; if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_ORPHANED)) { DPRINT1("SRV_OPEN orphaned\n"); return FALSE; } if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_ORPHANED)) { DPRINT1("FCB orphaned\n"); return FALSE; } /* If there's a buffering state change pending, deny fast operation (it might change * cache status) */ if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_BUFFERING_STATE_CHANGE_PENDING)) { DPRINT1("Buffering change pending\n"); return FALSE; } /* File got renamed/deleted, deny operation */ if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_FILE_DELETED) || BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_FILE_RENAMED)) { DPRINT1("File renamed/deleted\n"); return FALSE; } /* Process pending change buffering state operations */ FsRtlEnterFileSystem(); RxProcessChangeBufferingStateRequestsForSrvOpen(SrvOpen); FsRtlExitFileSystem(); LargeLength.QuadPart = Length; /* If operation to come is a read operation */ if (CheckForReadOperation) { /* Check that read cache is enabled */ if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_READCACHING_ENABLED)) { DPRINT1("Read caching disabled\n"); return FALSE; } /* Check whether there's a lock conflict */ if (!FsRtlFastCheckLockForRead(&Fcb->Specific.Fcb.FileLock, FileOffset, &LargeLength, LockKey, FileObject, PsGetCurrentProcess())) { DPRINT1("FsRtlFastCheckLockForRead failed\n"); return FALSE; } return TRUE; } /* Check that write cache is enabled */ if (!BooleanFlagOn(Fcb->FcbState, FCB_STATE_WRITECACHING_ENABLED)) { DPRINT1("Write caching disabled\n"); return FALSE; } /* Check whether there's a lock conflict */ if (!FsRtlFastCheckLockForWrite(&Fcb->Specific.Fcb.FileLock, FileOffset, &LargeLength, LockKey, FileObject, PsGetCurrentProcess())) { DPRINT1("FsRtlFastCheckLockForWrite failed\n"); return FALSE; } return TRUE; } BOOLEAN NTAPI RxFastIoDeviceControl( PFILE_OBJECT FileObject, BOOLEAN Wait, PVOID InputBuffer OPTIONAL, ULONG InputBufferLength, PVOID OutputBuffer OPTIONAL, ULONG OutputBufferLength, ULONG IoControlCode, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject) { /* Only supported IOCTL */ if (IoControlCode == IOCTL_LMR_ARE_FILE_OBJECTS_ON_SAME_SERVER) { UNIMPLEMENTED; return FALSE; } else { return FALSE; } } /* * @implemented */ BOOLEAN NTAPI RxFastIoRead( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, PVOID Buffer, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject) { BOOLEAN Ret; RX_TOPLEVELIRP_CONTEXT TopLevelContext; PAGED_CODE(); DPRINT("RxFastIoRead: %p (%p, %p)\n", FileObject, FileObject->FsContext, FileObject->FsContext2); DPRINT("Reading %ld at %I64x\n", Length, FileOffset->QuadPart); /* Prepare a TLI context */ ASSERT(RxIsThisTheTopLevelIrp(NULL)); RxInitializeTopLevelIrpContext(&TopLevelContext, (PIRP)FSRTL_FAST_IO_TOP_LEVEL_IRP, (PRDBSS_DEVICE_OBJECT)DeviceObject); Ret = FsRtlCopyRead2(FileObject, FileOffset, Length, Wait, LockKey, Buffer, IoStatus, DeviceObject, &TopLevelContext); if (Ret) { DPRINT("Read OK\n"); } else { DPRINT1("Read failed!\n"); } return Ret; } /* * @implemented */ BOOLEAN NTAPI RxFastIoWrite( PFILE_OBJECT FileObject, PLARGE_INTEGER FileOffset, ULONG Length, BOOLEAN Wait, ULONG LockKey, PVOID Buffer, PIO_STATUS_BLOCK IoStatus, PDEVICE_OBJECT DeviceObject) { PFOBX Fobx; BOOLEAN Ret; RX_TOPLEVELIRP_CONTEXT TopLevelContext; PAGED_CODE(); Fobx = (PFOBX)FileObject->FsContext2; if (BooleanFlagOn(Fobx->Flags, FOBX_FLAG_BAD_HANDLE)) { return FALSE; } DPRINT("RxFastIoWrite: %p (%p, %p)\n", FileObject, FileObject->FsContext, FileObject->FsContext2); DPRINT("Writing %ld at %I64x\n", Length, FileOffset->QuadPart); /* Prepare a TLI context */ ASSERT(RxIsThisTheTopLevelIrp(NULL)); RxInitializeTopLevelIrpContext(&TopLevelContext, (PIRP)FSRTL_FAST_IO_TOP_LEVEL_IRP, (PRDBSS_DEVICE_OBJECT)DeviceObject); Ret = FsRtlCopyWrite2(FileObject, FileOffset, Length, Wait, LockKey, Buffer, IoStatus, DeviceObject, &TopLevelContext); if (Ret) { DPRINT("Write OK\n"); } else { DPRINT1("Write failed!\n"); } return Ret; } NTSTATUS RxFindOrCreateFcb( PRX_CONTEXT RxContext, PUNICODE_STRING NetRootName) { PFCB Fcb; ULONG Version; NTSTATUS Status; PNET_ROOT NetRoot; PV_NET_ROOT VNetRoot; BOOLEAN TableAcquired, AcquiredExclusive; PAGED_CODE(); NetRoot = (PNET_ROOT)RxContext->Create.pNetRoot; VNetRoot = (PV_NET_ROOT)RxContext->Create.pVNetRoot; ASSERT(NetRoot == VNetRoot->NetRoot); Status = STATUS_SUCCESS; AcquiredExclusive = FALSE; RxAcquireFcbTableLockShared(&NetRoot->FcbTable, TRUE); TableAcquired = TRUE; Version = NetRoot->FcbTable.Version; /* Look for a cached FCB */ Fcb = RxFcbTableLookupFcb(&NetRoot->FcbTable, NetRootName); if (Fcb == NULL) { DPRINT("RxFcbTableLookupFcb returned NULL fcb for %wZ\n", NetRootName); } else { DPRINT("FCB found for %wZ\n", &Fcb->FcbTableEntry.Path); /* If FCB was to be orphaned, consider it as not suitable */ if (Fcb->fShouldBeOrphaned) { RxDereferenceNetFcb(Fcb); RxReleaseFcbTableLock(&NetRoot->FcbTable); RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, TRUE); TableAcquired = TRUE; AcquiredExclusive = TRUE; Fcb = RxFcbTableLookupFcb(&NetRoot->FcbTable, NetRootName); if (Fcb != NULL && Fcb->fShouldBeOrphaned) { RxOrphanThisFcb(Fcb); RxDereferenceNetFcb(Fcb); Fcb = NULL; } } } /* If FCB was not found or is not covering full path, prepare for more work */ if (Fcb == NULL || Fcb->FcbTableEntry.Path.Length != NetRootName->Length) { if (Fcb != NULL) { DPRINT1("FCB was found and it's not covering the whole path: %wZ - %wZ\n", &Fcb->FcbTableEntry.Path, NetRootName); } if (!AcquiredExclusive) { RxReleaseFcbTableLock(&NetRoot->FcbTable); RxAcquireFcbTableLockExclusive(&NetRoot->FcbTable, TRUE); TableAcquired = TRUE; } /* If FCB table was updated in between, re-attempt a lookup */ if (NetRoot->FcbTable.Version != Version) { Fcb = RxFcbTableLookupFcb(&NetRoot->FcbTable, NetRootName); if (Fcb != NULL && Fcb->FcbTableEntry.Path.Length != NetRootName->Length) { Fcb = NULL; } } } /* Allocate the FCB */ _SEH2_TRY { if (Fcb == NULL) { Fcb = RxCreateNetFcb(RxContext, VNetRoot, NetRootName); if (Fcb == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; } else { Status = RxAcquireExclusiveFcb(RxContext, Fcb); RxContext->Create.FcbAcquired = NT_SUCCESS(Status); } } } _SEH2_FINALLY { if (_SEH2_AbnormalTermination()) { RxReleaseFcbTableLock(&NetRoot->FcbTable); TableAcquired = FALSE; if (Fcb != NULL) { RxTransitionNetFcb(Fcb, Condition_Bad); ExAcquireResourceExclusiveLite(Fcb->Header.Resource, TRUE); if (RxDereferenceAndFinalizeNetFcb(Fcb, NULL, FALSE, FALSE) != 0) { ExReleaseResourceLite(Fcb->Header.Resource); } } } } _SEH2_END; if (TableAcquired) { RxReleaseFcbTableLock(&NetRoot->FcbTable); } if (!NT_SUCCESS(Status)) { return Status; } RxContext->pFcb = RX_GET_MRX_FCB(Fcb); DPRINT("FCB %p is in condition %lx\n", Fcb, Fcb->Condition); if (!RxContext->Create.FcbAcquired) { RxWaitForStableNetFcb(Fcb, RxContext); Status = RxAcquireExclusiveFcb(RxContext, Fcb); RxContext->Create.FcbAcquired = NT_SUCCESS(Status); } return Status; } NTSTATUS RxFirstCanonicalize( PRX_CONTEXT RxContext, PUNICODE_STRING FileName, PUNICODE_STRING CanonicalName, PNET_ROOT_TYPE NetRootType) { NTSTATUS Status; NET_ROOT_TYPE Type; BOOLEAN UncName, PrependString, IsSpecial; USHORT CanonicalLength; UNICODE_STRING SessionIdString; WCHAR SessionIdBuffer[16]; PAGED_CODE(); Type = NET_ROOT_WILD; PrependString = FALSE; IsSpecial = FALSE; UncName = FALSE; Status = STATUS_SUCCESS; /* Name has to contain at least \\ */ if (FileName->Length < 2 * sizeof(WCHAR)) { return STATUS_OBJECT_NAME_INVALID; } /* First easy check, is that a path with a name? */ CanonicalLength = FileName->Length; if (FileName->Length > 5 * sizeof(WCHAR)) { if (FileName->Buffer[0] == '\\' && FileName->Buffer[1] == ';') { if (FileName->Buffer[3] == ':') { Type = NET_ROOT_DISK; } else { Type = NET_ROOT_PRINT; } } } /* Nope, attempt deeper parsing */ if (FileName->Buffer[0] == OBJ_NAME_PATH_SEPARATOR && FileName->Buffer[1] != ';') { ULONG SessionId; PWSTR FirstSlash, EndOfString; SetFlag(RxContext->Create.Flags, RX_CONTEXT_CREATE_FLAG_UNC_NAME); UncName = TRUE; /* The lack of drive letter will be replaced by session ID */ SessionId = RxGetSessionId(RxContext->CurrentIrpSp); RtlInitEmptyUnicodeString(&SessionIdString, SessionIdBuffer, sizeof(SessionIdBuffer)); RtlIntegerToUnicodeString(SessionId, 10, &SessionIdString); EndOfString = Add2Ptr(FileName->Buffer, FileName->Length); for (FirstSlash = &FileName->Buffer[1]; FirstSlash != EndOfString; ++FirstSlash) { if (*FirstSlash == OBJ_NAME_PATH_SEPARATOR) { break; } } if (EndOfString - FirstSlash <= 1) { Status = STATUS_OBJECT_NAME_INVALID; } else { UNIMPLEMENTED; DPRINT1("WARNING: Assuming not special + disk!\n"); Type = NET_ROOT_DISK; Status = STATUS_SUCCESS; //Status = STATUS_NOT_IMPLEMENTED; /* Should be check against IPC, mailslot, and so on */ } } /* Update net root type with our deduced one */ *NetRootType = Type; DPRINT("Returning type: %x\n", Type); if (!NT_SUCCESS(Status)) { return Status; } /* Do we have to prepend session ID? */ if (UncName) { if (!IsSpecial) { PrependString = TRUE; CanonicalLength += SessionIdString.Length + 3 * sizeof(WCHAR); } } /* If not UNC path, we should preprend stuff */ if (!PrependString && !IsSpecial && FileName->Buffer[0] != '\\') { return STATUS_OBJECT_PATH_INVALID; } /* Allocate the buffer */ Status = RxAllocateCanonicalNameBuffer(RxContext, CanonicalName, CanonicalLength); if (!NT_SUCCESS(Status)) { return Status; } /* We don't support that case, we always return disk */ if (IsSpecial) { ASSERT(CanonicalName->Length == CanonicalLength); UNIMPLEMENTED; Status = STATUS_NOT_IMPLEMENTED; } else { /* If we have to prepend, go ahead */ if (PrependString) { CanonicalName->Buffer[0] = '\\'; CanonicalName->Buffer[1] = ';'; CanonicalName->Buffer[2] = ':'; CanonicalName->Length = 3 * sizeof(WCHAR); RtlAppendUnicodeStringToString(CanonicalName, &SessionIdString); RtlAppendUnicodeStringToString(CanonicalName, FileName); DPRINT1("CanonicalName: %wZ\n", CanonicalName); } /* Otherwise, that's a simple copy */ else { RtlCopyUnicodeString(CanonicalName, FileName); } } return Status; } /* * @implemented */ VOID RxFreeCanonicalNameBuffer( PRX_CONTEXT Context) { /* These two buffers are always the same */ ASSERT(Context->Create.CanonicalNameBuffer == Context->AlsoCanonicalNameBuffer); if (Context->Create.CanonicalNameBuffer != NULL) { RxFreePoolWithTag(Context->Create.CanonicalNameBuffer, RX_MISC_POOLTAG); Context->Create.CanonicalNameBuffer = NULL; Context->AlsoCanonicalNameBuffer = NULL; } ASSERT(Context->AlsoCanonicalNameBuffer == NULL); } NTSTATUS RxFsdCommonDispatch( PRX_FSD_DISPATCH_VECTOR DispatchVector, UCHAR MajorFunction, PIO_STACK_LOCATION Stack, PFILE_OBJECT FileObject, PIRP Irp, PRDBSS_DEVICE_OBJECT RxDeviceObject) { KIRQL OldIrql; NTSTATUS Status; PRX_CONTEXT Context; UCHAR MinorFunction; PFILE_OBJECT StackFileObject; PRX_FSD_DISPATCH DispatchFunc; RX_TOPLEVELIRP_CONTEXT TopLevelContext; BOOLEAN TopLevel, Closing, PassToDriver, SetCancelRoutine, PostRequest, CanWait; Status = STATUS_SUCCESS; DPRINT("RxFsdCommonDispatch(%p, %d, %p, %p, %p, %p)\n", DispatchVector, MajorFunction, Stack, FileObject, Irp, RxDeviceObject); FsRtlEnterFileSystem(); TopLevel = RxTryToBecomeTheTopLevelIrp(&TopLevelContext, Irp, RxDeviceObject, FALSE); _SEH2_TRY { CanWait = TRUE; Closing = FALSE; PostRequest = FALSE; SetCancelRoutine = TRUE; MinorFunction = Stack->MinorFunction; /* Can we wait? */ switch (MajorFunction) { case IRP_MJ_FILE_SYSTEM_CONTROL: if (FileObject != NULL) { CanWait = IoIsOperationSynchronous(Irp); } else { CanWait = TRUE; } break; case IRP_MJ_READ: case IRP_MJ_WRITE: case IRP_MJ_QUERY_INFORMATION: case IRP_MJ_SET_INFORMATION: case IRP_MJ_QUERY_EA: case IRP_MJ_SET_EA: case IRP_MJ_FLUSH_BUFFERS: case IRP_MJ_QUERY_VOLUME_INFORMATION: case IRP_MJ_SET_VOLUME_INFORMATION: case IRP_MJ_DIRECTORY_CONTROL: case IRP_MJ_DEVICE_CONTROL: case IRP_MJ_LOCK_CONTROL: case IRP_MJ_QUERY_SECURITY: case IRP_MJ_SET_SECURITY: CanWait = IoIsOperationSynchronous(Irp); break; case IRP_MJ_CLOSE: case IRP_MJ_CLEANUP: Closing = TRUE; SetCancelRoutine = FALSE; break; default: break; } KeAcquireSpinLock(&RxStrucSupSpinLock, &OldIrql); /* Should we stop it right now, or mini-rdr deserves to know? */ PassToDriver = TRUE; if (RxGetRdbssState(RxDeviceObject) != RDBSS_STARTABLE) { if (RxGetRdbssState(RxDeviceObject) == RDBSS_STOP_IN_PROGRESS && !Closing) { PassToDriver = FALSE; Status = STATUS_REDIRECTOR_NOT_STARTED; DPRINT1("Not started!\n"); } } else { if (DispatchVector != RxDeviceFCBVector && (FileObject->FileName.Length != 0 || FileObject->RelatedFileObject != NULL)) { PassToDriver = FALSE; Status = STATUS_REDIRECTOR_NOT_STARTED; DPRINT1("Not started!\n"); } } KeReleaseSpinLock(&RxStrucSupSpinLock, OldIrql); StackFileObject = Stack->FileObject; /* Make sure we don't deal with orphaned stuff */ if (StackFileObject != NULL && StackFileObject->FsContext != NULL) { if (StackFileObject->FsContext2 != UIntToPtr(DFS_OPEN_CONTEXT) && StackFileObject->FsContext2 != UIntToPtr(DFS_DOWNLEVEL_OPEN_CONTEXT) && StackFileObject->FsContext != &RxDeviceFCB) { PFCB Fcb; PFOBX Fobx; Fcb = StackFileObject->FsContext; Fobx = StackFileObject->FsContext2; if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_ORPHANED) || ((Fobx != NULL) && BooleanFlagOn(Fobx->pSrvOpen->Flags, SRVOPEN_FLAG_ORPHANED))) { if (Closing) { PassToDriver = TRUE; } else { PassToDriver = FALSE; Status = STATUS_UNEXPECTED_NETWORK_ERROR; DPRINT1("Operation on orphaned FCB: %p\n", Fcb); } } } } /* Did we receive a close request whereas we're stopping? */ if (RxGetRdbssState(RxDeviceObject) == RDBSS_STOP_IN_PROGRESS && Closing) { PFCB Fcb; Fcb = StackFileObject->FsContext; DPRINT1("Close received after stop\n"); DPRINT1("Irp: %p %d:%d FO: %p FCB: %p\n", Irp, Stack->MajorFunction, Stack->MinorFunction, StackFileObject, Fcb); if (Fcb != NULL && Fcb != &RxDeviceFCB && NodeTypeIsFcb(Fcb)) { DPRINT1("OpenCount: %ld, UncleanCount: %ld, Name: %wZ\n", Fcb->OpenCount, Fcb->UncleanCount, &Fcb->FcbTableEntry.Path); } } /* Should we stop the whole thing now? */ if (!PassToDriver) { if (MajorFunction != IRP_MJ_DIRECTORY_CONTROL || MinorFunction != IRP_MN_REMOVE_DEVICE) { IoMarkIrpPending(Irp); Irp->IoStatus.Status = Status; Irp->IoStatus.Information = 0; IoCompleteRequest(Irp, IO_NO_INCREMENT); Status = STATUS_PENDING; } else { Irp->IoStatus.Status = Status; Irp->IoStatus.Information = 0; IoCompleteRequest(Irp, IO_NO_INCREMENT); } _SEH2_LEAVE; } /* No? Allocate a context to deal with the mini-rdr */ Context = RxCreateRxContext(Irp, RxDeviceObject, (CanWait ? RX_CONTEXT_FLAG_WAIT : 0)); if (Context == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; RxCompleteRequest_Real(RxNull, Irp, STATUS_INSUFFICIENT_RESOURCES); _SEH2_LEAVE; } /* Set cancel routine if required */ if (SetCancelRoutine) { IoAcquireCancelSpinLock(&OldIrql); IoSetCancelRoutine(Irp, RxCancelRoutine); } else { IoAcquireCancelSpinLock(&OldIrql); IoSetCancelRoutine(Irp, NULL); } IoReleaseCancelSpinLock(OldIrql); ASSERT(MajorFunction <= IRP_MJ_MAXIMUM_FUNCTION); Irp->IoStatus.Status = STATUS_SUCCESS; Irp->IoStatus.Information = 0; /* Get the dispatch routine */ DispatchFunc = DispatchVector[MajorFunction].CommonRoutine; if (MajorFunction == IRP_MJ_READ || MajorFunction == IRP_MJ_WRITE) { /* Handle the complete MDL case */ if (BooleanFlagOn(MinorFunction, IRP_MN_COMPLETE)) { DispatchFunc = RxCompleteMdl; } else { /* Do we have to post request? */ if (BooleanFlagOn(MinorFunction, IRP_MN_DPC)) { PostRequest = TRUE; } else { /* Our read function needs stack, make sure we won't overflow, * otherwise, post the request */ if (MajorFunction == IRP_MJ_READ) { if (IoGetRemainingStackSize() < 0xE00) { Context->PendingReturned = TRUE; Status = RxPostStackOverflowRead(Context); if (Status != STATUS_PENDING) { Context->PendingReturned = FALSE; RxCompleteAsynchronousRequest(Context, Status); } _SEH2_LEAVE; } } } } } Context->ResumeRoutine = DispatchFunc; /* There's a dispatch routine? Time to dispatch! */ if (DispatchFunc != NULL) { Context->PendingReturned = TRUE; if (PostRequest) { Status = RxFsdPostRequest(Context); } else { /* Retry as long as we have */ do { Status = DispatchFunc(Context); } while (Status == STATUS_RETRY); if (Status == STATUS_PENDING) { _SEH2_LEAVE; } /* Sanity check: did someone mess with our context? */ if (Context->CurrentIrp != Irp || Context->CurrentIrpSp != Stack || Context->MajorFunction != MajorFunction || Stack->MinorFunction != MinorFunction) { DPRINT1("RX_CONTEXT %p has been contaminated!\n", Context); DPRINT1("->CurrentIrp %p %p\n", Context->CurrentIrp, Irp); DPRINT1("->CurrentIrpSp %p %p\n", Context->CurrentIrpSp, Stack); DPRINT1("->MajorFunction %d %d\n", Context->MajorFunction, MajorFunction); DPRINT1("->MinorFunction %d %d\n", Context->MinorFunction, MinorFunction); } Context->PendingReturned = FALSE; Status = RxCompleteAsynchronousRequest(Context, Status); } } else { Status = STATUS_NOT_IMPLEMENTED; } } _SEH2_FINALLY { if (TopLevel) { RxUnwindTopLevelIrp(&TopLevelContext); } FsRtlExitFileSystem(); } _SEH2_END; DPRINT("RxFsdDispatch, Status: %lx\n", Status); return Status; } /* * @implemented */ NTSTATUS NTAPI RxFsdDispatch( IN PRDBSS_DEVICE_OBJECT RxDeviceObject, IN PIRP Irp) { PFCB Fcb; PIO_STACK_LOCATION Stack; PRX_FSD_DISPATCH_VECTOR DispatchVector; PAGED_CODE(); DPRINT("RxFsdDispatch(%p, %p)\n", RxDeviceObject, Irp); Stack = IoGetCurrentIrpStackLocation(Irp); /* Dispatch easy case */ if (Stack->MajorFunction == IRP_MJ_SYSTEM_CONTROL) { return RxSystemControl(RxDeviceObject, Irp); } /* Bail out broken cases */ if (Stack->MajorFunction == IRP_MJ_CREATE_MAILSLOT || Stack->MajorFunction == IRP_MJ_CREATE_NAMED_PIPE) { IoMarkIrpPending(Irp); Irp->IoStatus.Information = 0; Irp->IoStatus.Status = STATUS_OBJECT_NAME_INVALID; IoCompleteRequest(Irp, IO_NO_INCREMENT); return STATUS_PENDING; } /* Immediately handle create */ if (Stack->MajorFunction == IRP_MJ_CREATE) { return RxFsdCommonDispatch(&RxFsdDispatchVector[0], Stack->MajorFunction, Stack, Stack->FileObject, Irp, RxDeviceObject); } /* If not a creation, we must have at least a FO with a FCB */ if (Stack->FileObject == NULL || Stack->FileObject->FsContext == NULL) { IoMarkIrpPending(Irp); Irp->IoStatus.Information = 0; Irp->IoStatus.Status = STATUS_INVALID_DEVICE_REQUEST; IoCompleteRequest(Irp, IO_NO_INCREMENT); return STATUS_PENDING; } /* Set the dispatch vector if required */ Fcb = Stack->FileObject->FsContext; if (!NodeTypeIsFcb(Fcb) || Fcb->PrivateDispatchVector == NULL) { DispatchVector = &RxFsdDispatchVector[0]; } else { DispatchVector = Fcb->PrivateDispatchVector; } /* Device cannot accept such requests */ if (RxDeviceObject == RxFileSystemDeviceObject) { IoMarkIrpPending(Irp); Irp->IoStatus.Information = 0; Irp->IoStatus.Status = STATUS_INVALID_DEVICE_REQUEST; IoCompleteRequest(Irp, IO_NO_INCREMENT); return STATUS_PENDING; } /* Dispatch for real! */ return RxFsdCommonDispatch(DispatchVector, Stack->MajorFunction, Stack, Stack->FileObject, Irp, RxDeviceObject); } /* * @implemented */ NTSTATUS RxFsdPostRequest( IN PRX_CONTEXT RxContext) { /* Initialize posting if required */ if (!BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_NO_PREPOSTING_NEEDED)) { RxPrePostIrp(RxContext, RxContext->CurrentIrp); } DPRINT("Posting MN: %d, Ctxt: %p, IRP: %p, Thrd: %lx #%lx\n", RxContext->MinorFunction, RxContext, RxContext->CurrentIrp, RxContext->LastExecutionThread, RxContext->SerialNumber); RxAddToWorkque(RxContext, RxContext->CurrentIrp); return STATUS_PENDING; } /* * @implemented */ VOID NTAPI RxFspDispatch( IN PVOID Context) { KIRQL EntryIrql; WORK_QUEUE_TYPE Queue; PRDBSS_DEVICE_OBJECT VolumeDO; PRX_CONTEXT RxContext, EntryContext; PAGED_CODE(); RxContext = Context; EntryContext = Context; /* Save IRQL at entry for later checking */ EntryIrql = KeGetCurrentIrql(); /* No FO, deal with device */ if (RxContext->CurrentIrpSp->FileObject != NULL) { VolumeDO = RxFileSystemDeviceObject; } else { VolumeDO = NULL; } /* Which queue to used for delayed? */ if (BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_FSP_DELAYED_OVERFLOW_QUEUE)) { Queue = DelayedWorkQueue; } else { ASSERT(BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE)); Queue = CriticalWorkQueue; } do { PIRP Irp; NTSTATUS Status; BOOLEAN RecursiveCall; RX_TOPLEVELIRP_CONTEXT TopLevelContext; ASSERT(RxContext->MajorFunction <= IRP_MJ_MAXIMUM_FUNCTION); ASSERT(!RxContext->PostRequest); RxContext->LastExecutionThread = PsGetCurrentThread(); SetFlag(RxContext->Flags, (RX_CONTEXT_FLAG_IN_FSP | RX_CONTEXT_FLAG_WAIT)); DPRINT("Dispatch: MN: %d, Ctxt: %p, IRP: %p, THRD: %lx #%lx\n", RxContext->MinorFunction, RxContext, RxContext->CurrentIrp, RxContext->LastExecutionThread, RxContext->SerialNumber); Irp = RxContext->CurrentIrp; FsRtlEnterFileSystem(); RecursiveCall = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_RECURSIVE_CALL); RxTryToBecomeTheTopLevelIrp(&TopLevelContext, (RecursiveCall ? (PIRP)FSRTL_FSP_TOP_LEVEL_IRP : RxContext->CurrentIrp), RxContext->RxDeviceObject, TRUE); ASSERT(RxContext->ResumeRoutine != NULL); if (BooleanFlagOn(RxContext->MinorFunction, IRP_MN_DPC) && Irp->Tail.Overlay.Thread == NULL) { ASSERT((RxContext->MajorFunction == IRP_MJ_WRITE) || (RxContext->MajorFunction == IRP_MJ_READ)); Irp->Tail.Overlay.Thread = PsGetCurrentThread(); } /* Call the resume routine */ do { BOOLEAN NoComplete; NoComplete = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_NO_COMPLETE_FROM_FSP); Status = RxContext->ResumeRoutine(RxContext); if (!NoComplete && Status != STATUS_PENDING) { if (Status != STATUS_RETRY) { Status = RxCompleteRequest(RxContext, Status); } } } while (Status == STATUS_RETRY); RxUnwindTopLevelIrp(&TopLevelContext); FsRtlExitFileSystem(); if (VolumeDO != NULL) { RxContext = RxRemoveOverflowEntry(VolumeDO, Queue); } else { RxContext = NULL; } } while (RxContext != NULL); /* Did we mess with IRQL? */ if (KeGetCurrentIrql() >= APC_LEVEL) { DPRINT1("High IRQL for Ctxt %p, on entry: %x\n", EntryContext, EntryIrql); } } /* * @implemented */ ULONG RxGetNetworkProviderPriority( PUNICODE_STRING DeviceName) { PAGED_CODE(); return 1; } /* * @implemented */ VOID NTAPI RxGetRegistryParameters( IN PUNICODE_STRING RegistryPath) { USHORT i; NTSTATUS Status; UCHAR Buffer[0x400]; HANDLE DriverHandle, KeyHandle; UNICODE_STRING KeyName, OutString; OBJECT_ATTRIBUTES ObjectAttributes; PAGED_CODE(); InitializeObjectAttributes(&ObjectAttributes, RegistryPath, OBJ_CASE_INSENSITIVE, NULL, NULL); Status = ZwOpenKey(&DriverHandle, READ_CONTROL | KEY_NOTIFY | KEY_ENUMERATE_SUB_KEYS | KEY_QUERY_VALUE, &ObjectAttributes); if (!NT_SUCCESS(Status)) { return; } RtlInitUnicodeString(&KeyName, L"Parameters"); InitializeObjectAttributes(&ObjectAttributes, &KeyName, OBJ_CASE_INSENSITIVE, DriverHandle, FALSE); Status = ZwOpenKey(&KeyHandle, READ_CONTROL | KEY_NOTIFY | KEY_ENUMERATE_SUB_KEYS | KEY_QUERY_VALUE, &ObjectAttributes); if (NT_SUCCESS(Status)) { /* The only parameter we deal with is InitialDebugString */ RxGetStringRegistryParameter(KeyHandle, L"InitialDebugString", &OutString, Buffer, sizeof(Buffer), 0); if (OutString.Length != 0 && OutString.Length < 0x140) { PWSTR Read; PSTR Write; Read = OutString.Buffer; Write = (PSTR)OutString.Buffer; for (i = 0; i < OutString.Length; ++i) { *Read = *Write; ++Write; *Write = ANSI_NULL; ++Read; } /* Which is a string we'll just write out */ DPRINT("InitialDebugString read from registry: '%s'\n", OutString.Buffer); RxDebugControlCommand((PSTR)OutString.Buffer); } ZwClose(KeyHandle); } ZwClose(DriverHandle); } /* * @implemented */ ULONG RxGetSessionId( IN PIO_STACK_LOCATION IrpSp) { ULONG SessionId; PACCESS_TOKEN Token; PIO_SECURITY_CONTEXT SecurityContext; PAGED_CODE(); /* If that's not a prefix claim, not an open request, session id will be 0 */ if (IrpSp->MajorFunction != IRP_MJ_DEVICE_CONTROL || IrpSp->Parameters.DeviceIoControl.IoControlCode != IOCTL_REDIR_QUERY_PATH) { if (IrpSp->MajorFunction != IRP_MJ_CREATE || IrpSp->Parameters.Create.SecurityContext == NULL) { return 0; } SecurityContext = IrpSp->Parameters.Create.SecurityContext; } else { SecurityContext = ((PQUERY_PATH_REQUEST)IrpSp->Parameters.DeviceIoControl.Type3InputBuffer)->SecurityContext; } /* Query the session id */ Token = SeQuerySubjectContextToken(&SecurityContext->AccessState->SubjectSecurityContext); SeQuerySessionIdToken(Token, &SessionId); return SessionId; } /* * @implemented */ NTSTATUS NTAPI RxGetStringRegistryParameter( IN HANDLE KeyHandle, IN PCWSTR KeyName, OUT PUNICODE_STRING OutString, IN PUCHAR Buffer, IN ULONG BufferLength, IN BOOLEAN LogFailure) { NTSTATUS Status; ULONG ResultLength; UNICODE_STRING KeyString; PAGED_CODE(); RtlInitUnicodeString(&KeyString, KeyName); Status = ZwQueryValueKey(KeyHandle, &KeyString, KeyValuePartialInformation, Buffer, BufferLength, &ResultLength); OutString->Length = 0; OutString->Buffer = 0; if (!NT_SUCCESS(Status)) { if (LogFailure) { RxLogFailure(RxFileSystemDeviceObject, NULL, 0x80000BD3, Status); } return Status; } OutString->Buffer = (PWSTR)(((PKEY_VALUE_PARTIAL_INFORMATION)Buffer)->Data); OutString->Length = ((PKEY_VALUE_PARTIAL_INFORMATION)Buffer)->DataLength - sizeof(UNICODE_NULL); OutString->MaximumLength = OutString->Length; return STATUS_SUCCESS; } /* * @implemented */ PRDBSS_DEVICE_OBJECT RxGetTopDeviceObjectIfRdbssIrp( VOID) { PIRP TopLevelIrp; PRDBSS_DEVICE_OBJECT TopDevice = NULL; TopLevelIrp = IoGetTopLevelIrp(); if (RxIsThisAnRdbssTopLevelContext((PRX_TOPLEVELIRP_CONTEXT)TopLevelIrp)) { TopDevice = ((PRX_TOPLEVELIRP_CONTEXT)TopLevelIrp)->RxDeviceObject; } return TopDevice; } /* * @implemented */ PIRP RxGetTopIrpIfRdbssIrp( VOID) { PIRP Irp = NULL; PRX_TOPLEVELIRP_CONTEXT TopLevel; TopLevel = (PRX_TOPLEVELIRP_CONTEXT)IoGetTopLevelIrp(); if (RxIsThisAnRdbssTopLevelContext(TopLevel)) { Irp = TopLevel->Irp; } return Irp; } /* * @implemented */ LUID RxGetUid( IN PSECURITY_SUBJECT_CONTEXT SubjectSecurityContext) { LUID Luid; PACCESS_TOKEN Token; PAGED_CODE(); Token = SeQuerySubjectContextToken(SubjectSecurityContext); SeQueryAuthenticationIdToken(Token, &Luid); return Luid; } VOID NTAPI RxIndicateChangeOfBufferingStateForSrvOpen( PMRX_SRV_CALL SrvCall, PMRX_SRV_OPEN SrvOpen, PVOID SrvOpenKey, PVOID Context) { UNIMPLEMENTED; } /* * @implemented */ VOID NTAPI RxInitializeDispatchVectors( PDRIVER_OBJECT DriverObject) { USHORT i; PAGED_CODE(); for (i = 0; i <= IRP_MJ_MAXIMUM_FUNCTION; ++i) { DriverObject->MajorFunction[i] = (PDRIVER_DISPATCH)RxFsdDispatch; } RxDeviceFCB.PrivateDispatchVector = RxDeviceFCBVector; ASSERT(RxFsdDispatchVector[IRP_MJ_MAXIMUM_FUNCTION].CommonRoutine != NULL); ASSERT(RxDeviceFCBVector[IRP_MJ_MAXIMUM_FUNCTION].CommonRoutine != NULL); DriverObject->FastIoDispatch = &RxFastIoDispatch; RxFastIoDispatch.SizeOfFastIoDispatch = sizeof(RxFastIoDispatch); RxFastIoDispatch.FastIoCheckIfPossible = RxFastIoCheckIfPossible; RxFastIoDispatch.FastIoRead = RxFastIoRead; RxFastIoDispatch.FastIoWrite = RxFastIoWrite; RxFastIoDispatch.FastIoQueryBasicInfo = NULL; RxFastIoDispatch.FastIoQueryStandardInfo = NULL; RxFastIoDispatch.FastIoLock = NULL; RxFastIoDispatch.FastIoUnlockSingle = NULL; RxFastIoDispatch.FastIoUnlockAll = NULL; RxFastIoDispatch.FastIoUnlockAllByKey = NULL; RxFastIoDispatch.FastIoDeviceControl = RxFastIoDeviceControl; RxFastIoDispatch.AcquireFileForNtCreateSection = RxAcquireFileForNtCreateSection; RxFastIoDispatch.ReleaseFileForNtCreateSection = RxReleaseFileForNtCreateSection; RxFastIoDispatch.AcquireForCcFlush = RxAcquireForCcFlush; RxFastIoDispatch.ReleaseForCcFlush = RxReleaseForCcFlush; RxInitializeTopLevelIrpPackage(); RxData.CacheManagerCallbacks.AcquireForLazyWrite = RxAcquireFcbForLazyWrite; RxData.CacheManagerCallbacks.ReleaseFromLazyWrite = RxReleaseFcbFromLazyWrite; RxData.CacheManagerCallbacks.AcquireForReadAhead = RxAcquireFcbForReadAhead; RxData.CacheManagerCallbacks.ReleaseFromReadAhead = RxReleaseFcbFromReadAhead; RxData.CacheManagerNoOpCallbacks.AcquireForLazyWrite = RxNoOpAcquire; RxData.CacheManagerNoOpCallbacks.ReleaseFromLazyWrite = RxNoOpRelease; RxData.CacheManagerNoOpCallbacks.AcquireForReadAhead = RxNoOpAcquire; RxData.CacheManagerNoOpCallbacks.ReleaseFromReadAhead = RxNoOpRelease; } NTSTATUS NTAPI RxInitializeLog( VOID) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ VOID RxInitializeMinirdrDispatchTable( IN PDRIVER_OBJECT DriverObject) { PAGED_CODE(); } /* * @implemented */ NTSTATUS NTAPI RxInitializeRegistrationStructures( VOID) { PAGED_CODE(); ExInitializeFastMutex(&RxData.MinirdrRegistrationMutex); RxData.NumberOfMinirdrsRegistered = 0; RxData.NumberOfMinirdrsStarted = 0; InitializeListHead(&RxData.RegisteredMiniRdrs); return STATUS_SUCCESS; } /* * @implemented */ VOID NTAPI RxInitializeTopLevelIrpPackage( VOID) { KeInitializeSpinLock(&TopLevelIrpSpinLock); InitializeListHead(&TopLevelIrpAllocatedContextsList); } VOID NTAPI RxInitUnwind( PDRIVER_OBJECT DriverObject, USHORT State) { UNIMPLEMENTED; } /* * @implemented */ BOOLEAN RxIsMemberOfTopLevelIrpAllocatedContextsList( PRX_TOPLEVELIRP_CONTEXT TopLevelContext) { KIRQL OldIrql; PLIST_ENTRY NextEntry; BOOLEAN Found = FALSE; PRX_TOPLEVELIRP_CONTEXT ListContext; /* Browse all the allocated TLC to find ours */ KeAcquireSpinLock(&TopLevelIrpSpinLock, &OldIrql); for (NextEntry = TopLevelIrpAllocatedContextsList.Flink; NextEntry != &TopLevelIrpAllocatedContextsList; NextEntry = NextEntry->Flink) { ListContext = CONTAINING_RECORD(NextEntry, RX_TOPLEVELIRP_CONTEXT, ListEntry); ASSERT(ListContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE); ASSERT(BooleanFlagOn(ListContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)); /* Found! */ if (ListContext == TopLevelContext) { Found = TRUE; break; } } KeReleaseSpinLock(&TopLevelIrpSpinLock, OldIrql); return Found; } /* * @implemented */ BOOLEAN RxIsOkToPurgeFcb( PFCB Fcb) { PLIST_ENTRY Entry; /* No associated SRV_OPEN, it's OK to purge */ if (IsListEmpty(&Fcb->SrvOpenList)) { return TRUE; } /* Only allow to purge if all the associated SRV_OPEN * - have no outstanding opens ongoing * - have only read attribute set */ for (Entry = Fcb->SrvOpenList.Flink; Entry != &Fcb->SrvOpenList; Entry = Entry->Flink) { PSRV_OPEN SrvOpen; SrvOpen = CONTAINING_RECORD(Entry, SRV_OPEN, SrvOpenQLinks); /* Failing previous needs, don't allow purge */ if (SrvOpen->UncleanFobxCount != 0 || (SrvOpen->DesiredAccess & 0xFFEFFFFF) != FILE_READ_ATTRIBUTES) { return FALSE; } } /* All correct, allow purge */ return TRUE; } /* * @implemented */ BOOLEAN RxIsThisAnRdbssTopLevelContext( PRX_TOPLEVELIRP_CONTEXT TopLevelContext) { ULONG_PTR StackTop, StackBottom; /* Bail out for flags */ if ((ULONG_PTR)TopLevelContext <= FSRTL_FAST_IO_TOP_LEVEL_IRP) { return FALSE; } /* Is our provided TLC allocated on stack? */ IoGetStackLimits(&StackTop, &StackBottom); if ((ULONG_PTR)TopLevelContext <= StackBottom - sizeof(RX_TOPLEVELIRP_CONTEXT) && (ULONG_PTR)TopLevelContext >= StackTop) { /* Yes, so check whether it's really a TLC by checking alignement & signature */ if (!BooleanFlagOn((ULONG_PTR)TopLevelContext, 0x3) && TopLevelContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE) { return TRUE; } return FALSE; } /* No, use the helper function */ return RxIsMemberOfTopLevelIrpAllocatedContextsList(TopLevelContext); } /* * @implemented */ BOOLEAN RxIsThisTheTopLevelIrp( IN PIRP Irp) { PIRP TopLevelIrp; /* When we put oursleves as top level, we set TLC as 'IRP', so look for it */ TopLevelIrp = IoGetTopLevelIrp(); if (RxIsThisAnRdbssTopLevelContext((PRX_TOPLEVELIRP_CONTEXT)TopLevelIrp)) { TopLevelIrp = ((PRX_TOPLEVELIRP_CONTEXT)TopLevelIrp)->Irp; } return (TopLevelIrp == Irp); } NTSTATUS NTAPI RxLockOperationCompletion( IN PVOID Context, IN PIRP Irp) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ VOID NTAPI RxLogEventDirect( IN PRDBSS_DEVICE_OBJECT DeviceObject, IN PUNICODE_STRING OriginatorId, IN ULONG EventId, IN NTSTATUS Status, IN ULONG Line) { PUNICODE_STRING Originator = OriginatorId; LARGE_INTEGER LargeLine; /* Set optional parameters */ LargeLine.QuadPart = Line; if (OriginatorId == NULL || OriginatorId->Length == 0) { Originator = (PUNICODE_STRING)&unknownId; } /* And log */ RxLogEventWithAnnotation(DeviceObject, EventId, Status, &LargeLine, sizeof(LargeLine), Originator, 1); } VOID NTAPI RxLogEventWithAnnotation( IN PRDBSS_DEVICE_OBJECT DeviceObject, IN ULONG EventId, IN NTSTATUS Status, IN PVOID DataBuffer, IN USHORT DataBufferLength, IN PUNICODE_STRING Annotation, IN ULONG AnnotationCount) { UNIMPLEMENTED; } NTSTATUS NTAPI RxLowIoCompletion( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxLowIoIoCtlShellCompletion( PRX_CONTEXT RxContext) { PIRP Irp; NTSTATUS Status; PAGED_CODE(); DPRINT("RxLowIoIoCtlShellCompletion(%p)\n", RxContext); Irp = RxContext->CurrentIrp; Status = RxContext->IoStatusBlock.Status; /* Set information and status */ if (NT_SUCCESS(Status) || Status == STATUS_BUFFER_OVERFLOW) { Irp->IoStatus.Information = RxContext->IoStatusBlock.Information; } Irp->IoStatus.Status = Status; return Status; } NTSTATUS RxLowIoLockControlShell( IN PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS NTAPI RxLowIoNotifyChangeDirectoryCompletion( PRX_CONTEXT RxContext) { PAGED_CODE(); DPRINT("Completing NCD with: %lx, %lx\n", RxContext->IoStatusBlock.Status, RxContext->IoStatusBlock.Information); /* Just copy back the IO_STATUS to the IRP */ RxSetIoStatusStatus(RxContext, RxContext->IoStatusBlock.Status); RxSetIoStatusInfo(RxContext, RxContext->IoStatusBlock.Information); return RxContext->IoStatusBlock.Status; } /* * @implemented */ NTSTATUS RxLowIoReadShell( PRX_CONTEXT RxContext) { PFCB Fcb; NTSTATUS Status; PAGED_CODE(); DPRINT("RxLowIoReadShell(%p)\n", RxContext); Fcb = (PFCB)RxContext->pFcb; if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_SHADOWED)) { return STATUS_MORE_PROCESSING_REQUIRED; } /* Always update stats for disks */ if (Fcb->CachedNetRootType == NET_ROOT_DISK) { ExInterlockedAddLargeStatistic(&RxContext->RxDeviceObject->NetworkReadBytesRequested, RxContext->LowIoContext.ParamsFor.ReadWrite.ByteCount); } /* And forward the read to the mini-rdr */ Status = RxLowIoSubmit(RxContext, RxLowIoReadShellCompletion); DPRINT("RxLowIoReadShell(%p), Status: %lx\n", RxContext, Status); return Status; } NTSTATUS NTAPI RxLowIoReadShellCompletion( PRX_CONTEXT RxContext) { PIRP Irp; PFCB Fcb; NTSTATUS Status; BOOLEAN PagingIo, IsPipe; PIO_STACK_LOCATION Stack; PLOWIO_CONTEXT LowIoContext; PAGED_CODE(); DPRINT("RxLowIoReadShellCompletion(%p)\n", RxContext); Status = RxContext->IoStatusBlock.Status; DPRINT("In %p, Status: %lx, Information: %lx\n", RxContext, Status, RxContext->IoStatusBlock.Information); Irp = RxContext->CurrentIrp; PagingIo = BooleanFlagOn(Irp->Flags, IRP_PAGING_IO); /* Set IRP information from the RX_CONTEXT status block */ Irp->IoStatus.Information = RxContext->IoStatusBlock.Information; /* Fixup status for paging file if nothing was read */ if (PagingIo) { if (NT_SUCCESS(Status) && RxContext->IoStatusBlock.Information == 0) { Status = STATUS_END_OF_FILE; } } LowIoContext = &RxContext->LowIoContext; ASSERT(RxLowIoIsBufferLocked(LowIoContext)); /* Check broken cases that should never happen */ Fcb = (PFCB)RxContext->pFcb; if (Status == STATUS_FILE_LOCK_CONFLICT) { if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_THIS_READ_ENLARGED)) { ASSERT(FALSE); return STATUS_RETRY; } } else if (Status == STATUS_SUCCESS) { if (BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_RECURSIVE_CALL)) { if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_DISK_COMPRESSED) || BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_BUF_COMPRESSED)) { ASSERT(FALSE); } } if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_SHADOWED)) { ASSERT(FALSE); } } /* Readahead should go through Cc and not finish here */ ASSERT(!BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_READAHEAD)); /* If it's sync, RxCommonRead will finish the work - nothing to do here */ if (BooleanFlagOn(LowIoContext->Flags, LOWIO_CONTEXT_FLAG_SYNCCALL)) { return Status; } Stack = RxContext->CurrentIrpSp; IsPipe = BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_OPERATION); /* Release lock if required */ if (PagingIo) { RxReleasePagingIoResourceForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } else { /* Set FastIo if read was a success */ if (NT_SUCCESS(Status) && !IsPipe) { SetFlag(Stack->FileObject->Flags, FO_FILE_FAST_IO_READ); } if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_SYNC_OPERATION)) { RxResumeBlockedOperations_Serially(RxContext, &((PFOBX)RxContext->pFobx)->Specific.NamedPipe.ReadSerializationQueue); } else { RxReleaseFcbForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } } if (IsPipe) { UNIMPLEMENTED; } /* Final sanity checks */ ASSERT(Status != STATUS_RETRY); ASSERT(Irp->IoStatus.Information <= Stack->Parameters.Read.Length); ASSERT(RxContext->MajorFunction == IRP_MJ_READ); return Status; } /* * @implemented */ NTSTATUS RxLowIoWriteShell( IN PRX_CONTEXT RxContext) { PFCB Fcb; NTSTATUS Status; PAGED_CODE(); DPRINT("RxLowIoWriteShell(%p)\n", RxContext); Fcb = (PFCB)RxContext->pFcb; ASSERT(!BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_BUF_COMPRESSED) && !BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_DISK_COMPRESSED)); /* Always update stats for disks */ if (Fcb->CachedNetRootType == NET_ROOT_DISK) { ExInterlockedAddLargeStatistic(&RxContext->RxDeviceObject->NetworkWriteBytesRequested, RxContext->LowIoContext.ParamsFor.ReadWrite.ByteCount); } /* And forward the write to the mini-rdr */ Status = RxLowIoSubmit(RxContext, RxLowIoWriteShellCompletion); DPRINT("RxLowIoWriteShell(%p), Status: %lx\n", RxContext, Status); return Status; } NTSTATUS NTAPI RxLowIoWriteShellCompletion( PRX_CONTEXT RxContext) { PIRP Irp; PFCB Fcb; NTSTATUS Status; BOOLEAN PagingIo; PLOWIO_CONTEXT LowIoContext; PAGED_CODE(); DPRINT("RxLowIoWriteShellCompletion(%p)\n", RxContext); Status = RxContext->IoStatusBlock.Status; DPRINT("In %p, Status: %lx, Information: %lx\n", RxContext, Status, RxContext->IoStatusBlock.Information); Irp = RxContext->CurrentIrp; /* Set IRP information from the RX_CONTEXT status block */ Irp->IoStatus.Information = RxContext->IoStatusBlock.Information; LowIoContext = &RxContext->LowIoContext; ASSERT(RxLowIoIsBufferLocked(LowIoContext)); /* Perform a few sanity checks */ Fcb = (PFCB)RxContext->pFcb; if (Status == STATUS_SUCCESS) { if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_THIS_IO_BUFFERED)) { ASSERT(!BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_BUF_COMPRESSED) && !BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_DISK_COMPRESSED)); } ASSERT(!BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILE_IS_SHADOWED)); } PagingIo = BooleanFlagOn(Irp->Flags, IRP_PAGING_IO); if (Status != STATUS_SUCCESS && PagingIo) { DPRINT1("Paging IO failed %p (%p) %lx\n", Fcb, Fcb->NetRoot, Status); } /* In case of async call, perform last bits not done in RxCommonWrite */ if (!BooleanFlagOn(LowIoContext->Flags, LOWIO_CONTEXT_FLAG_SYNCCALL)) { PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; /* We only succeed if we wrote what was asked for */ if (NT_SUCCESS(Status) && !BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_OPERATION)) { ASSERT(Irp->IoStatus.Information == LowIoContext->ParamsFor.ReadWrite.ByteCount); } /* If write succeed, ,also update FILE_OBJECT flags */ Stack = RxContext->CurrentIrpSp; FileObject = Stack->FileObject; if (!PagingIo) { SetFlag(FileObject->Flags, FO_FILE_MODIFIED); } if (BooleanFlagOn(LowIoContext->ParamsFor.ReadWrite.Flags, LOWIO_READWRITEFLAG_EXTENDING_FILESIZE)) { SetFlag(FileObject->Flags, FO_FILE_SIZE_CHANGED); } /* If VDL was extended, fix attributes */ if (BooleanFlagOn(LowIoContext->ParamsFor.ReadWrite.Flags, LOWIO_READWRITEFLAG_EXTENDING_VDL)) { LONGLONG LastOffset, FileSize; LastOffset = LowIoContext->ParamsFor.ReadWrite.ByteOffset + Irp->IoStatus.Information; RxGetFileSizeWithLock(Fcb, &FileSize); if (FileSize < LastOffset) { LastOffset = FileSize; } Fcb->Header.ValidDataLength.QuadPart = LastOffset; } /* One less outstanding write */ if (!BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_SYNC_OPERATION)) { PNON_PAGED_FCB NonPagedFcb; NonPagedFcb = LowIoContext->ParamsFor.ReadWrite.NonPagedFcb; if (NonPagedFcb != NULL) { if (ExInterlockedAddUlong(&NonPagedFcb->OutstandingAsyncWrites, -1, &RxStrucSupSpinLock) == 1) { KeSetEvent(NonPagedFcb->OutstandingAsyncEvent, IO_NO_INCREMENT, FALSE); } } } /* Release paging resource if acquired */ if (RxContext->FcbPagingIoResourceAcquired) { RxReleasePagingIoResourceForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } /* Resume blocked operations for pipes */ if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_SYNC_OPERATION)) { RxResumeBlockedOperations_Serially(RxContext, &((PFOBX)RxContext->pFobx)->Specific.NamedPipe.WriteSerializationQueue); } else { /* And release FCB only for files */ if (RxContext->FcbResourceAcquired) { RxReleaseFcbForThread(RxContext, Fcb, LowIoContext->ResourceThreadId); } } /* Final sanity checks */ ASSERT(Status != STATUS_RETRY); ASSERT((Status != STATUS_SUCCESS) || (Irp->IoStatus.Information <= Stack->Parameters.Write.Length)); ASSERT(RxContext->MajorFunction == IRP_MJ_WRITE); if (BooleanFlagOn(RxContext->FlagsForLowIo, RXCONTEXT_FLAG4LOWIO_PIPE_OPERATION)) { UNIMPLEMENTED; } } return Status; } /* * @implemented */ NTSTATUS RxNotifyChangeDirectory( PRX_CONTEXT RxContext) { PIRP Irp; NTSTATUS Status; PIO_STACK_LOCATION Stack; PAGED_CODE(); /* The IRP can abviously wait */ SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); /* Initialize its lowio */ RxInitializeLowIoContext(&RxContext->LowIoContext, LOWIO_OP_NOTIFY_CHANGE_DIRECTORY); _SEH2_TRY { /* Lock user buffer */ Stack = RxContext->CurrentIrpSp; RxLockUserBuffer(RxContext, IoWriteAccess, Stack->Parameters.NotifyDirectory.Length); /* Copy parameters from IO_STACK */ RxContext->LowIoContext.ParamsFor.NotifyChangeDirectory.WatchTree = BooleanFlagOn(Stack->Flags, SL_WATCH_TREE); RxContext->LowIoContext.ParamsFor.NotifyChangeDirectory.CompletionFilter = Stack->Parameters.NotifyDirectory.CompletionFilter; RxContext->LowIoContext.ParamsFor.NotifyChangeDirectory.NotificationBufferLength = Stack->Parameters.NotifyDirectory.Length; /* If we have an associated MDL */ Irp = RxContext->CurrentIrp; if (Irp->MdlAddress != NULL) { /* Then, call mini-rdr */ RxContext->LowIoContext.ParamsFor.NotifyChangeDirectory.pNotificationBuffer = MmGetSystemAddressForMdlSafe(Irp->MdlAddress, NormalPagePriority); if (RxContext->LowIoContext.ParamsFor.NotifyChangeDirectory.pNotificationBuffer != NULL) { Status = RxLowIoSubmit(RxContext, RxLowIoNotifyChangeDirectoryCompletion); } else { Status = STATUS_INSUFFICIENT_RESOURCES; } } else { Status = STATUS_INVALID_PARAMETER; } } _SEH2_FINALLY { /* All correct */ } _SEH2_END; return Status; } /* * @implemented */ VOID NTAPI RxpCancelRoutine( PVOID Context) { PRX_CONTEXT RxContext; PAGED_CODE(); RxContext = Context; /* First, notify mini-rdr about cancellation */ if (RxContext->MRxCancelRoutine != NULL) { RxContext->MRxCancelRoutine(RxContext); } /* If we didn't find in overflow queue, try in blocking operations */ else if (!RxCancelOperationInOverflowQueue(RxContext)) { RxCancelBlockingOperation(RxContext); } /* And delete the context */ RxDereferenceAndDeleteRxContext_Real(RxContext); } NTSTATUS RxPostStackOverflowRead ( IN PRX_CONTEXT RxContext) { PAGED_CODE(); UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ VOID RxpPrepareCreateContextForReuse( PRX_CONTEXT RxContext) { /* Reuse can only happen for open operations (STATUS_RETRY) */ ASSERT(RxContext->MajorFunction == IRP_MJ_CREATE); /* Release the FCB if it was acquired */ if (RxContext->Create.FcbAcquired) { RxReleaseFcb(RxContext, RxContext->pFcb); RxContext->Create.FcbAcquired = FALSE; } /* Free the canonical name */ RxFreeCanonicalNameBuffer(RxContext); /* If we have a VNetRoot associated */ if (RxContext->Create.pVNetRoot != NULL || RxContext->Create.NetNamePrefixEntry != NULL) { /* Remove our link and thus, dereference the VNetRoot */ RxpAcquirePrefixTableLockShared(RxContext->RxDeviceObject->pRxNetNameTable, TRUE, TRUE); if (RxContext->Create.pVNetRoot != NULL) { RxDereferenceVNetRoot(RxContext->Create.pVNetRoot, TRUE); RxContext->Create.pVNetRoot = NULL; } RxpReleasePrefixTableLock(RxContext->RxDeviceObject->pRxNetNameTable, TRUE); } DPRINT("RxContext: %p prepared for reuse\n", RxContext); } /* * @implemented */ NTSTATUS RxpQueryInfoMiniRdr( PRX_CONTEXT RxContext, FILE_INFORMATION_CLASS FileInfoClass, PVOID Buffer) { PFCB Fcb; NTSTATUS Status; Fcb = (PFCB)RxContext->pFcb; /* Set the RX_CONTEXT */ RxContext->Info.FileInformationClass = FileInfoClass; RxContext->Info.Buffer = Buffer; /* Pass down */ MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxQueryFileInfo, (RxContext)); return Status; } /* * @implemented */ NTSTATUS RxPrefixClaim( IN PRX_CONTEXT RxContext) { PIRP Irp; NTSTATUS Status; NET_ROOT_TYPE NetRootType; UNICODE_STRING CanonicalName, FileName, NetRootName; PAGED_CODE(); Irp = RxContext->CurrentIrp; /* This has to come from MUP */ if (Irp->RequestorMode == UserMode) { return STATUS_INVALID_DEVICE_REQUEST; } if (RxContext->MajorFunction == IRP_MJ_DEVICE_CONTROL) { PQUERY_PATH_REQUEST QueryRequest; /* Get parameters */ QueryRequest = RxContext->CurrentIrpSp->Parameters.DeviceIoControl.Type3InputBuffer; /* Don't overflow allocation */ if (QueryRequest->PathNameLength >= MAXUSHORT - 1) { return STATUS_INVALID_DEVICE_REQUEST; } /* Forcefully rewrite IRP MJ */ RxContext->MajorFunction = IRP_MJ_CREATE; /* Fake canon name */ RxContext->PrefixClaim.SuppliedPathName.Buffer = RxAllocatePoolWithTag(NonPagedPool, QueryRequest->PathNameLength, RX_MISC_POOLTAG); if (RxContext->PrefixClaim.SuppliedPathName.Buffer == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; goto Leave; } /* Copy the prefix to look for */ RtlCopyMemory(RxContext->PrefixClaim.SuppliedPathName.Buffer, &QueryRequest->FilePathName[0], QueryRequest->PathNameLength); RxContext->PrefixClaim.SuppliedPathName.Length = QueryRequest->PathNameLength; RxContext->PrefixClaim.SuppliedPathName.MaximumLength = QueryRequest->PathNameLength; /* Zero the create parameters */ RtlZeroMemory(&RxContext->Create, FIELD_OFFSET(RX_CONTEXT, AlsoCanonicalNameBuffer) - FIELD_OFFSET(RX_CONTEXT, Create.NtCreateParameters)); RxContext->Create.ThisIsATreeConnectOpen = TRUE; RxContext->Create.NtCreateParameters.SecurityContext = QueryRequest->SecurityContext; } else { /* If not devcontrol, it comes from open, name was already copied */ ASSERT(RxContext->MajorFunction == IRP_MJ_CREATE); ASSERT(RxContext->PrefixClaim.SuppliedPathName.Buffer != NULL); } /* Canonilize name */ NetRootType = NET_ROOT_WILD; RtlInitEmptyUnicodeString(&CanonicalName, NULL, 0); FileName.Length = RxContext->PrefixClaim.SuppliedPathName.Length; FileName.MaximumLength = RxContext->PrefixClaim.SuppliedPathName.MaximumLength; FileName.Buffer = RxContext->PrefixClaim.SuppliedPathName.Buffer; NetRootName.Length = RxContext->PrefixClaim.SuppliedPathName.Length; NetRootName.MaximumLength = RxContext->PrefixClaim.SuppliedPathName.MaximumLength; NetRootName.Buffer = RxContext->PrefixClaim.SuppliedPathName.Buffer; Status = RxFirstCanonicalize(RxContext, &FileName, &CanonicalName, &NetRootType); /* It went fine, attempt to establish a connection (that way we know whether the prefix is accepted) */ if (NT_SUCCESS(Status)) { Status = RxFindOrConstructVirtualNetRoot(RxContext, &CanonicalName, NetRootType, &NetRootName); } if (Status == STATUS_PENDING) { return Status; } /* Reply to MUP */ if (NT_SUCCESS(Status)) { PQUERY_PATH_RESPONSE QueryResponse; /* We accept the length that was canon (minus netroot) */ QueryResponse = RxContext->CurrentIrpSp->Parameters.DeviceIoControl.Type3InputBuffer; QueryResponse->LengthAccepted = RxContext->PrefixClaim.SuppliedPathName.Length - NetRootName.Length; } Leave: /* If we reach that point with MJ, reset everything and make IRP being a device control */ if (RxContext->MajorFunction == IRP_MJ_CREATE) { if (RxContext->PrefixClaim.SuppliedPathName.Buffer != NULL) { RxFreePoolWithTag(RxContext->PrefixClaim.SuppliedPathName.Buffer, RX_MISC_POOLTAG); } RxpPrepareCreateContextForReuse(RxContext); RxContext->MajorFunction = IRP_MJ_DEVICE_CONTROL; } return Status; } /* * @implemented */ NTSTATUS NTAPI RxPrepareToReparseSymbolicLink( PRX_CONTEXT RxContext, BOOLEAN SymbolicLinkEmbeddedInOldPath, PUNICODE_STRING NewPath, BOOLEAN NewPathIsAbsolute, PBOOLEAN ReparseRequired) { PWSTR NewBuffer; USHORT NewLength; PFILE_OBJECT FileObject; /* Assume no reparse is required first */ *ReparseRequired = FALSE; /* Only supported for IRP_MJ_CREATE */ if (RxContext->MajorFunction != IRP_MJ_CREATE) { return STATUS_INVALID_PARAMETER; } /* If symbolic link is not embedded, and DELETE is specified, fail */ if (!SymbolicLinkEmbeddedInOldPath) { /* Excepted if DELETE is the only flag specified, then, open has to succeed * See: https://msdn.microsoft.com/en-us/library/windows/hardware/ff554649(v=vs.85).aspx (remarks) */ if (BooleanFlagOn(RxContext->Create.NtCreateParameters.DesiredAccess, DELETE) && BooleanFlagOn(RxContext->Create.NtCreateParameters.DesiredAccess, ~DELETE)) { return STATUS_ACCESS_DENIED; } } /* At that point, assume reparse will be required */ *ReparseRequired = TRUE; /* If new path isn't absolute, it's up to us to make it absolute */ if (!NewPathIsAbsolute) { /* The prefix will be \Device\Mup */ NewLength = NewPath->Length + (sizeof(L"\\Device\\Mup") - sizeof(UNICODE_NULL)); NewBuffer = ExAllocatePoolWithTag(PagedPool | POOL_COLD_ALLOCATION, NewLength, RX_MISC_POOLTAG); if (NewBuffer == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } /* Copy data for the new path */ RtlMoveMemory(NewBuffer, L"\\Device\\Mup", (sizeof(L"\\Device\\Mup") - sizeof(UNICODE_NULL))); RtlMoveMemory(Add2Ptr(NewBuffer, (sizeof(L"\\Device\\Mup") - sizeof(UNICODE_NULL))), NewPath->Buffer, NewPath->Length); } /* Otherwise, use caller path as it */ else { NewLength = NewPath->Length; NewBuffer = NewPath->Buffer; } /* Get the FILE_OBJECT we'll modify */ FileObject = RxContext->CurrentIrpSp->FileObject; /* Free old path first */ ExFreePoolWithTag(FileObject->FileName.Buffer, 0); /* And setup new one */ FileObject->FileName.Length = NewLength; FileObject->FileName.MaximumLength = NewLength; FileObject->FileName.Buffer = NewBuffer; /* And set reparse flag */ SetFlag(RxContext->Create.Flags, RX_CONTEXT_CREATE_FLAG_REPARSE); /* Done! */ return STATUS_SUCCESS; } /* * @implemented */ VOID RxPrePostIrp( IN PVOID Context, IN PIRP Irp) { LOCK_OPERATION Lock; PIO_STACK_LOCATION Stack; PRX_CONTEXT RxContext = Context; /* NULL IRP is no option */ if (Irp == NULL) { return; } /* Check whether preparation was really needed */ if (BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_NO_PREPOSTING_NEEDED)) { return; } /* Mark the context as prepared */ SetFlag(RxContext->Flags, RX_CONTEXT_FLAG_NO_PREPOSTING_NEEDED); /* Just lock the user buffer, with the correct length, depending on the MJ */ Lock = IoReadAccess; Stack = RxContext->CurrentIrpSp; if (RxContext->MajorFunction == IRP_MJ_READ || RxContext->MajorFunction == IRP_MJ_WRITE) { if (!BooleanFlagOn(RxContext->MinorFunction, IRP_MN_MDL)) { if (RxContext->MajorFunction == IRP_MJ_READ) { Lock = IoWriteAccess; } RxLockUserBuffer(RxContext, Lock, Stack->Parameters.Read.Length); } } else { if ((RxContext->MajorFunction == IRP_MJ_DIRECTORY_CONTROL && RxContext->MinorFunction == IRP_MN_QUERY_DIRECTORY) || RxContext->MajorFunction == IRP_MJ_QUERY_EA) { Lock = IoWriteAccess; RxLockUserBuffer(RxContext, Lock, Stack->Parameters.QueryDirectory.Length); } else if (RxContext->MajorFunction == IRP_MJ_SET_EA) { RxLockUserBuffer(RxContext, Lock, Stack->Parameters.SetEa.Length); } } /* As it will be posted (async), mark the IRP pending */ IoMarkIrpPending(Irp); } /* * @implemented */ NTSTATUS RxpSetInfoMiniRdr( PRX_CONTEXT RxContext, FILE_INFORMATION_CLASS Class) { PFCB Fcb; NTSTATUS Status; /* Initialize parameters in RX_CONTEXT */ RxContext->Info.FileInformationClass = Class; RxContext->Info.Buffer = RxContext->CurrentIrp->AssociatedIrp.SystemBuffer; RxContext->Info.Length = RxContext->CurrentIrpSp->Parameters.SetFile.Length; /* And call mini-rdr */ Fcb = (PFCB)RxContext->pFcb; MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxSetFileInfo, (RxContext)); return Status; } VOID NTAPI RxpUnregisterMinirdr( IN PRDBSS_DEVICE_OBJECT RxDeviceObject) { UNIMPLEMENTED; } /* * @implemented */ VOID RxPurgeNetFcb( PFCB Fcb, PRX_CONTEXT LocalContext) { NTSTATUS Status; PAGED_CODE(); /* First, flush */ MmFlushImageSection(&Fcb->NonPaged->SectionObjectPointers, MmFlushForWrite); /* And force close */ RxReleaseFcb(NULL, Fcb); MmForceSectionClosed(&Fcb->NonPaged->SectionObjectPointers, TRUE); Status = RxAcquireExclusiveFcb(NULL, Fcb); ASSERT(Status == STATUS_SUCCESS); } NTSTATUS RxQueryAlternateNameInfo( PRX_CONTEXT RxContext, PFILE_NAME_INFORMATION AltNameInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxQueryBasicInfo( PRX_CONTEXT RxContext, PFILE_BASIC_INFORMATION BasicInfo) { PAGED_CODE(); DPRINT("RxQueryBasicInfo(%p, %p)\n", RxContext, BasicInfo); /* Simply zero and forward to mini-rdr */ RtlZeroMemory(BasicInfo, sizeof(FILE_BASIC_INFORMATION)); return RxpQueryInfoMiniRdr(RxContext, FileBasicInformation, BasicInfo); } NTSTATUS RxQueryCompressedInfo( PRX_CONTEXT RxContext, PFILE_COMPRESSION_INFORMATION CompressionInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxQueryDirectory( PRX_CONTEXT RxContext) { PIRP Irp; PFCB Fcb; PFOBX Fobx; UCHAR Flags; NTSTATUS Status; BOOLEAN LockNotGranted; ULONG Length, FileIndex; PUNICODE_STRING FileName; PIO_STACK_LOCATION Stack; FILE_INFORMATION_CLASS FileInfoClass; PAGED_CODE(); DPRINT("RxQueryDirectory(%p)\n", RxContext); /* Get parameters */ Stack = RxContext->CurrentIrpSp; Length = Stack->Parameters.QueryDirectory.Length; FileName = Stack->Parameters.QueryDirectory.FileName; FileInfoClass = Stack->Parameters.QueryDirectory.FileInformationClass; DPRINT("Wait: %d, Length: %ld, FileName: %p, Class: %d\n", FlagOn(RxContext->Flags, RX_CONTEXT_FLAG_WAIT), Length, FileName, FileInfoClass); Irp = RxContext->CurrentIrp; Flags = Stack->Flags; FileIndex = Stack->Parameters.QueryDirectory.FileIndex; DPRINT("Index: %d, Buffer: %p, Flags: %x\n", FileIndex, Irp->UserBuffer, Flags); if (FileName != NULL) { DPRINT("FileName: %wZ\n", FileName); } /* No FOBX: not a standard file/directory */ Fobx = (PFOBX)RxContext->pFobx; if (Fobx == NULL) { return STATUS_OBJECT_NAME_INVALID; } /* We can only deal with a disk */ Fcb = (PFCB)RxContext->pFcb; if (Fcb->pNetRoot->Type != NET_ROOT_DISK) { DPRINT1("Not a disk! %x\n", Fcb->pNetRoot->Type); return STATUS_INVALID_DEVICE_REQUEST; } /* Setup RX_CONTEXT related fields */ RxContext->QueryDirectory.FileIndex = FileIndex; RxContext->QueryDirectory.RestartScan = BooleanFlagOn(Flags, SL_RESTART_SCAN); RxContext->QueryDirectory.ReturnSingleEntry = BooleanFlagOn(Flags, SL_RETURN_SINGLE_ENTRY); RxContext->QueryDirectory.IndexSpecified = BooleanFlagOn(Flags, SL_INDEX_SPECIFIED); RxContext->QueryDirectory.InitialQuery = (Fobx->UnicodeQueryTemplate.Buffer == NULL) && !BooleanFlagOn(Fobx->Flags, FOBX_FLAG_MATCH_ALL); /* We don't support (yet?) a specific index being set */ if (RxContext->QueryDirectory.IndexSpecified) { return STATUS_NOT_IMPLEMENTED; } /* Try to lock FCB */ LockNotGranted = TRUE; if (RxContext->QueryDirectory.InitialQuery) { Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status != STATUS_LOCK_NOT_GRANTED) { if (!NT_SUCCESS(Status)) { return Status; } if (Fobx->UnicodeQueryTemplate.Buffer != NULL) { RxContext->QueryDirectory.InitialQuery = FALSE; RxConvertToSharedFcb(RxContext, Fcb); } LockNotGranted = FALSE; } } else { Status = RxAcquireExclusiveFcb(RxContext, Fcb); if (Status != STATUS_LOCK_NOT_GRANTED) { if (!NT_SUCCESS(Status)) { return Status; } LockNotGranted = FALSE; } } /* If it failed, post request */ if (LockNotGranted) { return RxFsdPostRequest(RxContext); } /* This cannot be done on a orphaned directory */ if (BooleanFlagOn(Fcb->FcbState, FCB_STATE_ORPHANED)) { RxReleaseFcb(RxContext, Fcb); return STATUS_FILE_CLOSED; } _SEH2_TRY { /* Set index */ if (!RxContext->QueryDirectory.IndexSpecified && RxContext->QueryDirectory.RestartScan) { RxContext->QueryDirectory.FileIndex = 0; } /* Assume success */ Status = STATUS_SUCCESS; /* If initial query, prepare FOBX */ if (RxContext->QueryDirectory.InitialQuery) { /* We cannot have a template already! */ ASSERT(!BooleanFlagOn(Fobx->Flags, FOBX_FLAG_FREE_UNICODE)); /* If we have a file name and a correct one, duplicate it in the FOBX */ if (FileName != NULL && FileName->Length != 0 && FileName->Buffer != NULL && (FileName->Length != sizeof(WCHAR) || FileName->Buffer[0] != '*') && (FileName->Length != 12 * sizeof(WCHAR) || RtlCompareMemory(FileName->Buffer, Rx8QMdot3QM, 12 * sizeof(WCHAR)) != 12 * sizeof(WCHAR))) { Fobx->ContainsWildCards = FsRtlDoesNameContainWildCards(FileName); Fobx->UnicodeQueryTemplate.Buffer = RxAllocatePoolWithTag(PagedPool, FileName->Length, RX_DIRCTL_POOLTAG); if (Fobx->UnicodeQueryTemplate.Buffer != NULL) { /* UNICODE_STRING; length has to be even */ if ((FileName->Length & 1) != 0) { Status = STATUS_INVALID_PARAMETER; RxFreePoolWithTag(Fobx->UnicodeQueryTemplate.Buffer, RX_DIRCTL_POOLTAG); } else { Fobx->UnicodeQueryTemplate.Length = FileName->Length; Fobx->UnicodeQueryTemplate.MaximumLength = FileName->Length; RtlMoveMemory(Fobx->UnicodeQueryTemplate.Buffer, FileName->Buffer, FileName->Length); SetFlag(Fobx->Flags, FOBX_FLAG_FREE_UNICODE); } } else { Status = STATUS_INSUFFICIENT_RESOURCES; } } /* No name specified, or a match all wildcard? Match everything */ else { Fobx->ContainsWildCards = TRUE; Fobx->UnicodeQueryTemplate.Buffer = &RxStarForTemplate; Fobx->UnicodeQueryTemplate.Length = sizeof(WCHAR); Fobx->UnicodeQueryTemplate.MaximumLength = sizeof(WCHAR); SetFlag(Fobx->Flags, FOBX_FLAG_MATCH_ALL); } /* No need for exclusive any longer */ if (NT_SUCCESS(Status)) { RxConvertToSharedFcb(RxContext, Fcb); } } /* Lock user buffer and forward to mini-rdr */ if (NT_SUCCESS(Status)) { RxLockUserBuffer(RxContext, IoModifyAccess, Length); RxContext->Info.FileInformationClass = FileInfoClass; RxContext->Info.Buffer = RxNewMapUserBuffer(RxContext); RxContext->Info.Length = Length; if (RxContext->Info.Buffer != NULL) { MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxQueryDirectory, (RxContext)); } /* Post if mini-rdr asks to */ if (RxContext->PostRequest) { RxFsdPostRequest(RxContext); } else { Irp->IoStatus.Information = Length - RxContext->Info.LengthRemaining; } } } _SEH2_FINALLY { RxReleaseFcb(RxContext, Fcb); } _SEH2_END; return Status; } NTSTATUS RxQueryEaInfo( PRX_CONTEXT RxContext, PFILE_EA_INFORMATION EaInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS RxQueryInternalInfo( PRX_CONTEXT RxContext, PFILE_INTERNAL_INFORMATION InternalInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxQueryNameInfo( PRX_CONTEXT RxContext, PFILE_NAME_INFORMATION NameInfo) { PFCB Fcb; PFOBX Fobx; PAGED_CODE(); DPRINT("RxQueryNameInfo(%p, %p)\n", RxContext, NameInfo); /* Check we can at least copy name size */ if (RxContext->Info.LengthRemaining < FIELD_OFFSET(FILE_NAME_INFORMATION, FileName)) { DPRINT1("Buffer too small: %d\n", RxContext->Info.LengthRemaining); RxContext->Info.Length = 0; return STATUS_BUFFER_OVERFLOW; } RxContext->Info.LengthRemaining -= FIELD_OFFSET(FILE_NAME_INFORMATION, FileName); Fcb = (PFCB)RxContext->pFcb; Fobx = (PFOBX)RxContext->pFobx; /* Get the UNC name */ RxConjureOriginalName(Fcb, Fobx, &NameInfo->FileNameLength, &NameInfo->FileName[0], &RxContext->Info.Length, VNetRoot_As_UNC_Name); /* If RxConjureOriginalName returned a negative len (-1) then output buffer * was too small, return the appropriate length & status. */ if (RxContext->Info.LengthRemaining < 0) { DPRINT1("Buffer too small!\n"); RxContext->Info.Length = 0; return STATUS_BUFFER_OVERFLOW; } #if 1 // CORE-13938, rfb: please note I replaced 0 with 1 here if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_DIRECTORY && RxContext->Info.LengthRemaining >= sizeof(WCHAR)) { NameInfo->FileName[NameInfo->FileNameLength / sizeof(WCHAR)] = L'\\'; NameInfo->FileNameLength += sizeof(WCHAR); RxContext->Info.LengthRemaining -= sizeof(WCHAR); } #endif /* All correct */ return STATUS_SUCCESS; } NTSTATUS RxQueryPipeInfo( PRX_CONTEXT RxContext, PFILE_PIPE_INFORMATION PipeInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS RxQueryPositionInfo( PRX_CONTEXT RxContext, PFILE_POSITION_INFORMATION PositionInfo) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxQueryStandardInfo( PRX_CONTEXT RxContext, PFILE_STANDARD_INFORMATION StandardInfo) { PFCB Fcb; PFOBX Fobx; NTSTATUS Status; PAGED_CODE(); DPRINT("RxQueryStandardInfo(%p, %p)\n", RxContext, StandardInfo); /* Zero output buffer */ RtlZeroMemory(StandardInfo, sizeof(FILE_STANDARD_INFORMATION)); Fcb = (PFCB)RxContext->pFcb; Fobx = (PFOBX)RxContext->pFobx; /* If not a standard file type, or opened for backup, immediately forward to mini-rdr */ if ((NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_DIRECTORY && NodeType(Fcb) != RDBSS_NTC_STORAGE_TYPE_FILE) || BooleanFlagOn(Fobx->pSrvOpen->CreateOptions, FILE_OPEN_FOR_BACKUP_INTENT)) { return RxpQueryInfoMiniRdr(RxContext, FileStandardInformation, StandardInfo); } /* Otherwise, fill what we can already */ Status = STATUS_SUCCESS; StandardInfo->NumberOfLinks = Fcb->NumberOfLinks; StandardInfo->DeletePending = BooleanFlagOn(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE); StandardInfo->Directory = (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_DIRECTORY); if (StandardInfo->NumberOfLinks == 0) { StandardInfo->NumberOfLinks = 1; } if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_FILE) { StandardInfo->AllocationSize.QuadPart = Fcb->Header.AllocationSize.QuadPart; RxGetFileSizeWithLock(Fcb, &StandardInfo->EndOfFile.QuadPart); } /* If we are asked to forcefully forward to mini-rdr or if size isn't cached, do it */ if (RxForceQFIPassThrough || !BooleanFlagOn(Fcb->FcbState, FCB_STATE_FILESIZECACHEING_ENABLED)) { Status = RxpQueryInfoMiniRdr(RxContext, FileStandardInformation, StandardInfo); } else { RxContext->IoStatusBlock.Information -= sizeof(FILE_STANDARD_INFORMATION); } return Status; } /* * @implemented */ VOID NTAPI RxReadRegistryParameters( VOID) { NTSTATUS Status; HANDLE KeyHandle; ULONG ResultLength; UCHAR Buffer[0x40]; UNICODE_STRING KeyName, ParamName; OBJECT_ATTRIBUTES ObjectAttributes; PKEY_VALUE_PARTIAL_INFORMATION PartialInfo; PAGED_CODE(); RtlInitUnicodeString(&KeyName, L"\\Registry\\Machine\\System\\CurrentControlSet\\Services\\LanmanWorkStation\\Parameters"); InitializeObjectAttributes(&ObjectAttributes, &KeyName, OBJ_CASE_INSENSITIVE, NULL, NULL); Status = ZwOpenKey(&KeyHandle, READ_CONTROL | KEY_NOTIFY | KEY_ENUMERATE_SUB_KEYS | KEY_QUERY_VALUE, &ObjectAttributes); if (!NT_SUCCESS(Status)) { return; } PartialInfo = (PKEY_VALUE_PARTIAL_INFORMATION)Buffer; RtlInitUnicodeString(&ParamName, L"DisableByteRangeLockingOnReadOnlyFiles"); Status = ZwQueryValueKey(KeyHandle, &ParamName, KeyValuePartialInformation, PartialInfo, sizeof(Buffer), &ResultLength); if (NT_SUCCESS(Status) && PartialInfo->Type == REG_DWORD) { DisableByteRangeLockingOnReadOnlyFiles = (*(PULONG)PartialInfo->Data != 0); } RtlInitUnicodeString(&ParamName, L"ReadAheadGranularity"); Status = ZwQueryValueKey(KeyHandle, &ParamName, KeyValuePartialInformation, PartialInfo, sizeof(Buffer), &ResultLength); if (NT_SUCCESS(Status) && PartialInfo->Type == REG_DWORD) { ULONG Granularity = *(PULONG)PartialInfo->Data; if (Granularity > 16) { Granularity = 16; } ReadAheadGranularity = Granularity << PAGE_SHIFT; } RtlInitUnicodeString(&ParamName, L"DisableFlushOnCleanup"); Status = ZwQueryValueKey(KeyHandle, &ParamName, KeyValuePartialInformation, PartialInfo, sizeof(Buffer), &ResultLength); if (NT_SUCCESS(Status) && PartialInfo->Type == REG_DWORD) { DisableFlushOnCleanup = (*(PULONG)PartialInfo->Data != 0); } ZwClose(KeyHandle); } /* * @implemented */ NTSTATUS NTAPI RxRegisterMinirdr( OUT PRDBSS_DEVICE_OBJECT *DeviceObject, IN OUT PDRIVER_OBJECT DriverObject, IN PMINIRDR_DISPATCH MrdrDispatch, IN ULONG Controls, IN PUNICODE_STRING DeviceName, IN ULONG DeviceExtensionSize, IN DEVICE_TYPE DeviceType, IN ULONG DeviceCharacteristics) { NTSTATUS Status; PRDBSS_DEVICE_OBJECT RDBSSDevice; PAGED_CODE(); if (!DeviceObject) { return STATUS_INVALID_PARAMETER; } /* Create device object with provided parameters */ Status = IoCreateDevice(DriverObject, DeviceExtensionSize + sizeof(RDBSS_DEVICE_OBJECT), DeviceName, DeviceType, DeviceCharacteristics, FALSE, (PDEVICE_OBJECT *)&RDBSSDevice); if (!NT_SUCCESS(Status)) { return Status; } if (!RxData.DriverObject) { return STATUS_UNSUCCESSFUL; } /* Initialize our DO extension */ RDBSSDevice->RDBSSDeviceObject = NULL; ++RxFileSystemDeviceObject->ReferenceCount; *DeviceObject = RDBSSDevice; RDBSSDevice->RdbssExports = &RxExports; RDBSSDevice->Dispatch = MrdrDispatch; RDBSSDevice->RegistrationControls = Controls; RDBSSDevice->DeviceName = *DeviceName; RDBSSDevice->RegisterUncProvider = !BooleanFlagOn(Controls, RX_REGISTERMINI_FLAG_DONT_PROVIDE_UNCS); RDBSSDevice->RegisterMailSlotProvider = !BooleanFlagOn(Controls, RX_REGISTERMINI_FLAG_DONT_PROVIDE_MAILSLOTS); InitializeListHead(&RDBSSDevice->OverflowQueue[0]); InitializeListHead(&RDBSSDevice->OverflowQueue[1]); InitializeListHead(&RDBSSDevice->OverflowQueue[2]); KeInitializeSpinLock(&RDBSSDevice->OverflowQueueSpinLock); RDBSSDevice->NetworkProviderPriority = RxGetNetworkProviderPriority(DeviceName); DPRINT("Registered MiniRdr %wZ (prio: %x)\n", DeviceName, RDBSSDevice->NetworkProviderPriority); ExAcquireFastMutex(&RxData.MinirdrRegistrationMutex); InsertTailList(&RxData.RegisteredMiniRdrs, &RDBSSDevice->MiniRdrListLinks); ExReleaseFastMutex(&RxData.MinirdrRegistrationMutex); /* Unless mini-rdr explicitly asked not to, initialize dispatch table */ if (!BooleanFlagOn(Controls, RX_REGISTERMINI_FLAG_DONT_INIT_DRIVER_DISPATCH)) { RxInitializeMinirdrDispatchTable(DriverObject); } /* Unless mini-rdr explicitly asked not to, initialize prefix scavenger */ if (!BooleanFlagOn(Controls, RX_REGISTERMINI_FLAG_DONT_INIT_PREFIX_N_SCAVENGER)) { LARGE_INTEGER ScavengerTimeLimit; RDBSSDevice->pRxNetNameTable = &RDBSSDevice->RxNetNameTableInDeviceObject; RxInitializePrefixTable(RDBSSDevice->pRxNetNameTable, 0, FALSE); RDBSSDevice->RxNetNameTableInDeviceObject.IsNetNameTable = TRUE; ScavengerTimeLimit.QuadPart = MrdrDispatch->ScavengerTimeout * 10000000LL; RDBSSDevice->pRdbssScavenger = &RDBSSDevice->RdbssScavengerInDeviceObject; RxInitializeRdbssScavenger(RDBSSDevice->pRdbssScavenger, ScavengerTimeLimit); } RDBSSDevice->pAsynchronousRequestsCompletionEvent = NULL; return STATUS_SUCCESS; } /* * @implemented */ VOID RxRemoveFromTopLevelIrpAllocatedContextsList( PRX_TOPLEVELIRP_CONTEXT TopLevelContext) { KIRQL OldIrql; /* Make sure this is a TLC and that it was allocated (otherwise, it is not in the list */ ASSERT(TopLevelContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE); ASSERT(BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)); KeAcquireSpinLock(&TopLevelIrpSpinLock, &OldIrql); RemoveEntryList(&TopLevelContext->ListEntry); KeReleaseSpinLock(&TopLevelIrpSpinLock, OldIrql); } /* * @implemented */ PRX_CONTEXT RxRemoveOverflowEntry( PRDBSS_DEVICE_OBJECT DeviceObject, WORK_QUEUE_TYPE Queue) { KIRQL OldIrql; PRX_CONTEXT Context; KeAcquireSpinLock(&DeviceObject->OverflowQueueSpinLock, &OldIrql); if (DeviceObject->OverflowQueueCount[Queue] <= 0) { /* No entries left, nothing to return */ InterlockedDecrement(&DeviceObject->PostedRequestCount[Queue]); Context = NULL; } else { PLIST_ENTRY Entry; /* Decrement count */ --DeviceObject->OverflowQueueCount[Queue]; /* Return head */ Entry = RemoveHeadList(&DeviceObject->OverflowQueue[Queue]); Context = CONTAINING_RECORD(Entry, RX_CONTEXT, OverflowListEntry); ClearFlag(Context->Flags, (RX_CONTEXT_FLAG_FSP_DELAYED_OVERFLOW_QUEUE | RX_CONTEXT_FLAG_FSP_CRITICAL_OVERFLOW_QUEUE)); Context->OverflowListEntry.Flink = NULL; } KeReleaseSpinLock(&DeviceObject->OverflowQueueSpinLock, OldIrql); return Context; } #if DBG /* * @implemented */ VOID RxRemoveShareAccess( _Inout_ PFILE_OBJECT FileObject, _Inout_ PSHARE_ACCESS ShareAccess, _In_ PSZ where, _In_ PSZ wherelogtag) { PAGED_CODE(); RxDumpCurrentAccess(where, "before", wherelogtag, ShareAccess); IoRemoveShareAccess(FileObject, ShareAccess); RxDumpCurrentAccess(where, "after", wherelogtag, ShareAccess); } #endif /* * @implemented */ VOID RxRemoveShareAccessPerSrvOpens( IN OUT PSRV_OPEN SrvOpen) { ACCESS_MASK DesiredAccess; BOOLEAN ReadAccess; BOOLEAN WriteAccess; BOOLEAN DeleteAccess; PAGED_CODE(); /* Get access that were granted to SRV_OPEN */ DesiredAccess = SrvOpen->DesiredAccess; ReadAccess = (DesiredAccess & (FILE_READ_DATA | FILE_EXECUTE)) != 0; WriteAccess = (DesiredAccess & (FILE_WRITE_DATA | FILE_APPEND_DATA)) != 0; DeleteAccess = (DesiredAccess & DELETE) != 0; /* If any, drop them */ if ((ReadAccess) || (WriteAccess) || (DeleteAccess)) { BOOLEAN SharedRead; BOOLEAN SharedWrite; BOOLEAN SharedDelete; ULONG DesiredShareAccess; PSHARE_ACCESS ShareAccess; ShareAccess = &((PFCB)SrvOpen->pFcb)->ShareAccessPerSrvOpens; DesiredShareAccess = SrvOpen->ShareAccess; ShareAccess->Readers -= ReadAccess; ShareAccess->Writers -= WriteAccess; ShareAccess->Deleters -= DeleteAccess; ShareAccess->OpenCount--; SharedRead = (DesiredShareAccess & FILE_SHARE_READ) != 0; SharedWrite = (DesiredShareAccess & FILE_SHARE_WRITE) != 0; SharedDelete = (DesiredShareAccess & FILE_SHARE_DELETE) != 0; ShareAccess->SharedRead -= SharedRead; ShareAccess->SharedWrite -= SharedWrite; ShareAccess->SharedDelete -= SharedDelete; } } NTSTATUS RxSearchForCollapsibleOpen( PRX_CONTEXT RxContext, ACCESS_MASK DesiredAccess, ULONG ShareAccess) { PFCB Fcb; NTSTATUS Status; PLIST_ENTRY ListEntry; BOOLEAN ShouldTry, Purged, Scavenged; PAGED_CODE(); DPRINT("RxSearchForCollapsibleOpen(%p, %x, %x)\n", RxContext, DesiredAccess, ShareAccess); Fcb = (PFCB)RxContext->pFcb; /* If we're asked to open for backup, don't allow SRV_OPEN reuse */ if (BooleanFlagOn(RxContext->Create.NtCreateParameters.CreateOptions, FILE_OPEN_FOR_BACKUP_INTENT)) { ClearFlag(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); RxScavengeRelatedFobxs(Fcb); RxPurgeFcbInSystemCache(Fcb, NULL, 0, FALSE, TRUE); return STATUS_NOT_FOUND; } /* If basic open, ask the mini-rdr if we should try to collapse */ if (RxContext->Create.NtCreateParameters.Disposition == FILE_OPEN || RxContext->Create.NtCreateParameters.Disposition == FILE_OPEN_IF) { ShouldTry = TRUE; if (Fcb->MRxDispatch != NULL) { ASSERT(RxContext->pRelevantSrvOpen == NULL); ASSERT(Fcb->MRxDispatch->MRxShouldTryToCollapseThisOpen != NULL); ShouldTry = NT_SUCCESS(Fcb->MRxDispatch->MRxShouldTryToCollapseThisOpen(RxContext)); } } else { ShouldTry = FALSE; } if (BooleanFlagOn(RxContext->Create.NtCreateParameters.CreateOptions, FILE_DELETE_ON_CLOSE)) { ShouldTry = FALSE; } /* If we shouldn't try, ask the caller to allocate a new SRV_OPEN */ if (!ShouldTry) { if (NT_SUCCESS(RxCheckShareAccessPerSrvOpens(Fcb, DesiredAccess, ShareAccess))) { return STATUS_NOT_FOUND; } ClearFlag(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); RxScavengeRelatedFobxs(Fcb); RxPurgeFcbInSystemCache(Fcb, NULL, 0, FALSE, TRUE); return STATUS_NOT_FOUND; } /* Only collapse for matching NET_ROOT & disks */ if (Fcb->pNetRoot != RxContext->Create.pNetRoot || Fcb->pNetRoot->Type != NET_ROOT_DISK) { return STATUS_NOT_FOUND; } Purged = FALSE; Scavenged = FALSE; Status = STATUS_NOT_FOUND; TryAgain: /* Browse all our SRV_OPEN to find the matching one */ for (ListEntry = Fcb->SrvOpenList.Flink; ListEntry != &Fcb->SrvOpenList; ListEntry = ListEntry->Flink) { PSRV_OPEN SrvOpen; SrvOpen = CONTAINING_RECORD(ListEntry, SRV_OPEN, SrvOpenQLinks); /* Not the same VNET_ROOT, move to the next one */ if (SrvOpen->pVNetRoot != RxContext->Create.pVNetRoot) { RxContext->Create.TryForScavengingOnSharingViolation = TRUE; continue; } /* Is there a sharing violation? */ if (SrvOpen->DesiredAccess != DesiredAccess || SrvOpen->ShareAccess != ShareAccess || BooleanFlagOn(SrvOpen->Flags, (SRVOPEN_FLAG_CLOSED | SRVOPEN_FLAG_COLLAPSING_DISABLED | SRVOPEN_FLAG_FILE_DELETED | SRVOPEN_FLAG_FILE_RENAMED))) { if (SrvOpen->pVNetRoot != RxContext->Create.pVNetRoot) { RxContext->Create.TryForScavengingOnSharingViolation = TRUE; continue; } /* Check against the SRV_OPEN */ Status = RxCheckShareAccessPerSrvOpens(Fcb, DesiredAccess, ShareAccess); if (!NT_SUCCESS(Status)) { break; } } else { /* Don't allow collaspse for reparse point opening */ if (BooleanFlagOn(RxContext->Create.NtCreateParameters.CreateOptions ^ SrvOpen->CreateOptions, FILE_OPEN_REPARSE_POINT)) { Purged = TRUE; Scavenged = TRUE; Status = STATUS_NOT_FOUND; break; } /* Not readonly? Or bytereange lock disabled? Try to collapse! */ if (DisableByteRangeLockingOnReadOnlyFiles || !BooleanFlagOn(SrvOpen->pFcb->Attributes, FILE_ATTRIBUTE_READONLY)) { RxContext->pRelevantSrvOpen = (PMRX_SRV_OPEN)SrvOpen; ASSERT(Fcb->MRxDispatch->MRxShouldTryToCollapseThisOpen != NULL); if (NT_SUCCESS(Fcb->MRxDispatch->MRxShouldTryToCollapseThisOpen(RxContext))) { /* Is close delayed - great reuse*/ if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_CLOSE_DELAYED)) { DPRINT("Delayed close successfull, reusing %p\n", SrvOpen); InterlockedDecrement(&((PSRV_CALL)Fcb->pNetRoot->pSrvCall)->NumberOfCloseDelayedFiles); ClearFlag(SrvOpen->Flags, SRVOPEN_FLAG_CLOSE_DELAYED); } return STATUS_SUCCESS; } Status = STATUS_NOT_FOUND; break; } } } /* We browse the whole list and didn't find any matching? NOT_FOUND */ if (ListEntry == &Fcb->SrvOpenList) { Status = STATUS_NOT_FOUND; } /* Only required access: read attributes? Don't reuse */ if ((DesiredAccess & 0xFFEFFFFF) == FILE_READ_ATTRIBUTES) { return STATUS_NOT_FOUND; } /* Not found? Scavenge and retry to look for collaspile SRV_OPEN */ if (!Scavenged) { ClearFlag(Fcb->FcbState, FCB_STATE_COLLAPSING_ENABLED); Scavenged = TRUE; RxScavengeRelatedFobxs(Fcb); goto TryAgain; } /* Not found? Purgeable? Purge and retry to look for collaspile SRV_OPEN */ if (!Purged && RxIsOkToPurgeFcb(Fcb)) { RxPurgeFcbInSystemCache(Fcb, NULL, 0, FALSE, TRUE); Purged = TRUE; goto TryAgain; } /* If sharing violation, keep track of it */ if (Status == STATUS_SHARING_VIOLATION) { RxContext->Create.TryForScavengingOnSharingViolation = TRUE; } DPRINT("Status: %x\n", Status); return Status; } NTSTATUS RxSetAllocationInfo( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxSetBasicInfo( PRX_CONTEXT RxContext) { NTSTATUS Status; PAGED_CODE(); #define FILE_ATTRIBUTE_VOLUME 0x8 #define VALID_FILE_ATTRIBUTES ( \ FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_HIDDEN | \ FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_VOLUME | \ FILE_ATTRIBUTE_ARCHIVE | FILE_ATTRIBUTE_DEVICE | \ FILE_ATTRIBUTE_TEMPORARY | FILE_ATTRIBUTE_SPARSE_FILE | \ FILE_ATTRIBUTE_REPARSE_POINT | FILE_ATTRIBUTE_COMPRESSED | \ FILE_ATTRIBUTE_OFFLINE | FILE_ATTRIBUTE_NOT_CONTENT_INDEXED | \ FILE_ATTRIBUTE_ENCRYPTED | FILE_ATTRIBUTE_INTEGRITY_STREAM) #define VALID_DIR_ATTRIBUTES (VALID_FILE_ATTRIBUTES | FILE_ATTRIBUTE_DIRECTORY) /* First of all, call the mini-rdr */ Status = RxpSetInfoMiniRdr(RxContext, FileBasicInformation); /* If it succeed, perform last bits */ if (NT_SUCCESS(Status)) { PIRP Irp; PFCB Fcb; PFOBX Fobx; PFILE_OBJECT FileObject; ULONG Attributes, CleanAttr; PFILE_BASIC_INFORMATION BasicInfo; Fcb = (PFCB)RxContext->pFcb; Fobx = (PFOBX)RxContext->pFobx; Irp = RxContext->CurrentIrp; BasicInfo = Irp->AssociatedIrp.SystemBuffer; FileObject = RxContext->CurrentIrpSp->FileObject; /* If caller provided flags, handle the change */ Attributes = BasicInfo->FileAttributes; if (Attributes != 0) { /* Clean our flags first, with only stuff we support */ if (NodeType(Fcb) == RDBSS_NTC_STORAGE_TYPE_DIRECTORY) { CleanAttr = (Attributes & VALID_DIR_ATTRIBUTES) | FILE_ATTRIBUTE_DIRECTORY; } else { CleanAttr = Attributes & VALID_FILE_ATTRIBUTES; } /* Handle the temporary mark (set/unset depending on caller) */ if (BooleanFlagOn(Attributes, FILE_ATTRIBUTE_TEMPORARY)) { SetFlag(Fcb->FcbState, FCB_STATE_TEMPORARY); SetFlag(FileObject->Flags, FO_TEMPORARY_FILE); } else { ClearFlag(Fcb->FcbState, FCB_STATE_TEMPORARY); ClearFlag(FileObject->Flags, FO_TEMPORARY_FILE); } /* And set new attributes */ Fcb->Attributes = CleanAttr; } /* If caller provided a creation time, set it */ if (BasicInfo->CreationTime.QuadPart != 0LL) { Fcb->CreationTime.QuadPart = BasicInfo->CreationTime.QuadPart; SetFlag(Fobx->Flags, FOBX_FLAG_USER_SET_CREATION); } /* If caller provided a last access time, set it */ if (BasicInfo->LastAccessTime.QuadPart != 0LL) { Fcb->LastAccessTime.QuadPart = BasicInfo->LastAccessTime.QuadPart; SetFlag(Fobx->Flags, FOBX_FLAG_USER_SET_LAST_ACCESS); } /* If caller provided a last write time, set it */ if (BasicInfo->LastWriteTime.QuadPart != 0LL) { Fcb->LastWriteTime.QuadPart = BasicInfo->LastWriteTime.QuadPart; SetFlag(Fobx->Flags, FOBX_FLAG_USER_SET_LAST_WRITE); } /* If caller provided a last change time, set it */ if (BasicInfo->ChangeTime.QuadPart != 0LL) { Fcb->LastChangeTime.QuadPart = BasicInfo->ChangeTime.QuadPart; SetFlag(Fobx->Flags, FOBX_FLAG_USER_SET_LAST_CHANGE); } } /* Done */ return Status; } /* * @implemented */ NTSTATUS RxSetDispositionInfo( PRX_CONTEXT RxContext) { NTSTATUS Status; PAGED_CODE(); /* First, make the mini-rdr work! */ Status = RxpSetInfoMiniRdr(RxContext, FileDispositionInformation); /* If it succeed, we'll keep track of the change */ if (NT_SUCCESS(Status)) { PFCB Fcb; PFILE_OBJECT FileObject; PFILE_DISPOSITION_INFORMATION FileDispo; Fcb = (PFCB)RxContext->pFcb; FileObject = RxContext->CurrentIrpSp->FileObject; FileDispo = RxContext->CurrentIrp->AssociatedIrp.SystemBuffer; /* Caller asks for deletion: mark as delete on close */ if (FileDispo->DeleteFile) { SetFlag(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE); FileObject->DeletePending = TRUE; } /* Otherwise, clear it */ else { ClearFlag(Fcb->FcbState, FCB_STATE_DELETE_ON_CLOSE); FileObject->DeletePending = FALSE; } /* Sanitize output */ Status = STATUS_SUCCESS; } return Status; } NTSTATUS RxSetEndOfFileInfo( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS RxSetPipeInfo( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS RxSetPositionInfo( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ NTSTATUS RxSetRenameInfo( PRX_CONTEXT RxContext) { ULONG Length; NTSTATUS Status; PFCB RenameFcb, Fcb; PIO_STACK_LOCATION Stack; PFILE_RENAME_INFORMATION RenameInfo, UserInfo; PAGED_CODE(); DPRINT("RxSetRenameInfo(%p)\n", RxContext); Stack = RxContext->CurrentIrpSp; DPRINT("FO: %p, Replace: %d\n", Stack->Parameters.SetFile.FileObject, Stack->Parameters.SetFile.ReplaceIfExists); /* If there's no FO, we won't do extra operation, so directly pass to mini-rdr and quit */ RxContext->Info.ReplaceIfExists = Stack->Parameters.SetFile.ReplaceIfExists; if (Stack->Parameters.SetFile.FileObject == NULL) { return RxpSetInfoMiniRdr(RxContext, Stack->Parameters.SetFile.FileInformationClass); } Fcb = (PFCB)RxContext->pFcb; RenameFcb = Stack->Parameters.SetFile.FileObject->FsContext; /* First, validate the received file object */ ASSERT(NodeType(RenameFcb) == RDBSS_NTC_OPENTARGETDIR_FCB); if (Fcb->pNetRoot != RenameFcb->pNetRoot) { DPRINT1("Not the same device: %p:%p (%wZ) - %p:%p (%wZ)\n", Fcb, Fcb->pNetRoot, Fcb->pNetRoot->pNetRootName, RenameFcb, RenameFcb->pNetRoot, RenameFcb->pNetRoot->pNetRootName); return STATUS_NOT_SAME_DEVICE; } /* We'll reallocate a safe buffer */ Length = Fcb->pNetRoot->DiskParameters.RenameInfoOverallocationSize + RenameFcb->FcbTableEntry.Path.Length + FIELD_OFFSET(FILE_RENAME_INFORMATION, FileName); RenameInfo = RxAllocatePoolWithTag(PagedPool, Length, '??xR'); if (RenameInfo == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } _SEH2_TRY { /* Copy the data */ UserInfo = RxContext->CurrentIrp->AssociatedIrp.SystemBuffer; RenameInfo->ReplaceIfExists = UserInfo->ReplaceIfExists; RenameInfo->RootDirectory = UserInfo->RootDirectory; RenameInfo->FileNameLength = RenameFcb->FcbTableEntry.Path.Length; RtlMoveMemory(&RenameInfo->FileName[0], RenameFcb->FcbTableEntry.Path.Buffer, RenameFcb->FcbTableEntry.Path.Length); /* Set them in the RX_CONTEXT */ RxContext->Info.FileInformationClass = Stack->Parameters.SetFile.FileInformationClass; RxContext->Info.Buffer = RenameInfo; RxContext->Info.Length = Length; /* And call the mini-rdr */ MINIRDR_CALL(Status, RxContext, Fcb->MRxDispatch, MRxSetFileInfo, (RxContext)); } _SEH2_FINALLY { /* Free */ RxFreePoolWithTag(RenameInfo, '??xR'); } _SEH2_END; /* Done! */ return Status; } #if DBG /* * @implemented */ VOID RxSetShareAccess( _In_ ACCESS_MASK DesiredAccess, _In_ ULONG DesiredShareAccess, _Inout_ PFILE_OBJECT FileObject, _Out_ PSHARE_ACCESS ShareAccess, _In_ PSZ where, _In_ PSZ wherelogtag) { PAGED_CODE(); RxDumpCurrentAccess(where, "before", wherelogtag, ShareAccess); IoSetShareAccess(DesiredAccess, DesiredShareAccess, FileObject, ShareAccess); RxDumpCurrentAccess(where, "after", wherelogtag, ShareAccess); } #endif NTSTATUS RxSetSimpleInfo( PRX_CONTEXT RxContext) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ VOID RxSetupNetFileObject( PRX_CONTEXT RxContext) { PFCB Fcb; PFOBX Fobx; PFILE_OBJECT FileObject; PIO_STACK_LOCATION Stack; PAGED_CODE(); /* Assert FOBX is FOBX or NULL */ Fobx = (PFOBX)RxContext->pFobx; ASSERT((Fobx == NULL) || (NodeType(Fobx) == RDBSS_NTC_FOBX)); Fcb = (PFCB)RxContext->pFcb; Stack = RxContext->CurrentIrpSp; FileObject = Stack->FileObject; /* If it's temporary mark FO as such */ if (Fcb != NULL && NodeType(Fcb) != RDBSS_NTC_VCB && BooleanFlagOn(Fcb->FcbState, FCB_STATE_TEMPORARY)) { if (FileObject == NULL) { return; } FileObject->Flags |= FO_TEMPORARY_FILE; } /* No FO, nothing to setup */ if (FileObject == NULL) { return; } /* Assign FCB & CCB (FOBX) to FO */ FileObject->FsContext = Fcb; FileObject->FsContext2 = Fobx; if (Fobx != NULL) { ULONG_PTR StackTop, StackBottom; /* If FO is allocated on pool, keep track of it */ IoGetStackLimits(&StackTop, &StackBottom); if ((ULONG_PTR)FileObject <= StackBottom || (ULONG_PTR)FileObject >= StackTop) { Fobx->AssociatedFileObject = FileObject; } else { Fobx->AssociatedFileObject = NULL; } /* Make sure to mark FOBX if it's a DFS open */ if (RxContext->Create.NtCreateParameters.DfsContext == UIntToPtr(DFS_OPEN_CONTEXT)) { SetFlag(Fobx->Flags, FOBX_FLAG_DFS_OPEN); } else { ClearFlag(Fobx->Flags, FOBX_FLAG_DFS_OPEN); } } /* Set Cc pointers */ FileObject->SectionObjectPointer = &Fcb->NonPaged->SectionObjectPointers; /* Update access state */ if (Stack->Parameters.Create.SecurityContext != NULL) { PACCESS_STATE AccessState; AccessState = Stack->Parameters.Create.SecurityContext->AccessState; AccessState->PreviouslyGrantedAccess |= AccessState->RemainingDesiredAccess; AccessState->RemainingDesiredAccess = 0; } } /* * @implemented */ NTSTATUS NTAPI RxStartMinirdr( IN PRX_CONTEXT RxContext, OUT PBOOLEAN PostToFsp) { NTSTATUS Status; BOOLEAN Wait, AlreadyStarted; PRDBSS_DEVICE_OBJECT DeviceObject; /* If we've not been post, then, do it */ if (!BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_IN_FSP)) { SECURITY_SUBJECT_CONTEXT SubjectContext; SeCaptureSubjectContext(&SubjectContext); RxContext->FsdUid = RxGetUid(&SubjectContext); SeReleaseSubjectContext(&SubjectContext); *PostToFsp = TRUE; return STATUS_PENDING; } /* Acquire all the required locks */ Wait = BooleanFlagOn(RxContext->Flags, RX_CONTEXT_FLAG_WAIT); if (!ExAcquireResourceExclusiveLite(&RxData.Resource, Wait)) { *PostToFsp = TRUE; return STATUS_PENDING; } if (!RxAcquirePrefixTableLockExclusive(RxContext->RxDeviceObject->pRxNetNameTable, Wait)) { ExReleaseResourceLite(&RxData.Resource); *PostToFsp = TRUE; return STATUS_PENDING; } AlreadyStarted = FALSE; DeviceObject = RxContext->RxDeviceObject; _SEH2_TRY { /* MUP handle set, means already registered */ if (DeviceObject->MupHandle != NULL) { AlreadyStarted = TRUE; Status = STATUS_REDIRECTOR_STARTED; _SEH2_LEAVE; } /* If we're asked to register to MUP, then do it */ Status = STATUS_SUCCESS; if (DeviceObject->RegisterUncProvider) { Status = FsRtlRegisterUncProvider(&DeviceObject->MupHandle, &DeviceObject->DeviceName, DeviceObject->RegisterMailSlotProvider); } if (!NT_SUCCESS(Status)) { DeviceObject->MupHandle = NULL; _SEH2_LEAVE; } /* Register as file system */ IoRegisterFileSystem(&DeviceObject->DeviceObject); DeviceObject->RegisteredAsFileSystem = TRUE; /* Inform mini-rdr it has to start */ MINIRDR_CALL(Status, RxContext, DeviceObject->Dispatch, MRxStart, (RxContext, DeviceObject)); if (NT_SUCCESS(Status)) { ++DeviceObject->StartStopContext.Version; RxSetRdbssState(DeviceObject, RDBSS_STARTED); InterlockedExchangeAdd(&RxData.NumberOfMinirdrsStarted, 1); Status = RxInitializeMRxDispatcher(DeviceObject); } } _SEH2_FINALLY { if (_SEH2_AbnormalTermination() || !NT_SUCCESS(Status)) { if (!AlreadyStarted) { RxUnstart(RxContext, DeviceObject); } } RxReleasePrefixTableLock(RxContext->RxDeviceObject->pRxNetNameTable); ExReleaseResourceLite(&RxData.Resource); } _SEH2_END; return Status; } NTSTATUS NTAPI RxStopMinirdr( IN PRX_CONTEXT RxContext, OUT PBOOLEAN PostToFsp) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } NTSTATUS RxSystemControl( IN PRDBSS_DEVICE_OBJECT RxDeviceObject, IN PIRP Irp) { UNIMPLEMENTED; return STATUS_NOT_IMPLEMENTED; } /* * @implemented */ BOOLEAN RxTryToBecomeTheTopLevelIrp( IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext, IN PIRP Irp, IN PRDBSS_DEVICE_OBJECT RxDeviceObject, IN BOOLEAN ForceTopLevel ) { BOOLEAN FromPool = FALSE; PAGED_CODE(); /* If not top level, and not have to be, quit */ if (IoGetTopLevelIrp() && !ForceTopLevel) { return FALSE; } /* If not TLC provider, allocate one */ if (TopLevelContext == NULL) { TopLevelContext = RxAllocatePoolWithTag(NonPagedPool, sizeof(RX_TOPLEVELIRP_CONTEXT), RX_TLC_POOLTAG); if (TopLevelContext == NULL) { return FALSE; } FromPool = TRUE; } /* Init it */ __RxInitializeTopLevelIrpContext(TopLevelContext, Irp, RxDeviceObject, FromPool); ASSERT(TopLevelContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE); if (FromPool) { ASSERT(BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)); } /* Make it top level IRP */ IoSetTopLevelIrp((PIRP)TopLevelContext); return TRUE; } #if DBG /* * @implemented */ VOID RxUpdateShareAccess( _Inout_ PFILE_OBJECT FileObject, _Inout_ PSHARE_ACCESS ShareAccess, _In_ PSZ where, _In_ PSZ wherelogtag) { PAGED_CODE(); RxDumpCurrentAccess(where, "before", wherelogtag, ShareAccess); IoUpdateShareAccess(FileObject, ShareAccess); RxDumpCurrentAccess(where, "after", wherelogtag, ShareAccess); } #endif /* * @implemented */ VOID RxUninitializeCacheMap( PRX_CONTEXT RxContext, PFILE_OBJECT FileObject, PLARGE_INTEGER TruncateSize) { PFCB Fcb; NTSTATUS Status; CACHE_UNINITIALIZE_EVENT UninitEvent; PAGED_CODE(); Fcb = FileObject->FsContext; ASSERT(NodeTypeIsFcb(Fcb)); ASSERT(RxIsFcbAcquiredExclusive(Fcb)); KeInitializeEvent(&UninitEvent.Event, SynchronizationEvent, FALSE); CcUninitializeCacheMap(FileObject, TruncateSize, &UninitEvent); /* Always release the FCB before waiting for the uninit event */ RxReleaseFcb(RxContext, Fcb); KeWaitForSingleObject(&UninitEvent.Event, Executive, KernelMode, FALSE, NULL); /* Re-acquire it afterwards */ Status = RxAcquireExclusiveFcb(RxContext, Fcb); ASSERT(NT_SUCCESS(Status)); } VOID NTAPI RxUnload( IN PDRIVER_OBJECT DriverObject) { UNIMPLEMENTED; } VOID NTAPI RxUnlockOperation( IN PVOID Context, IN PFILE_LOCK_INFO LockInfo) { UNIMPLEMENTED; } VOID RxUnstart( PRX_CONTEXT Context, PRDBSS_DEVICE_OBJECT DeviceObject) { UNIMPLEMENTED; } /* * @implemented */ VOID RxUnwindTopLevelIrp( IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext) { DPRINT("RxUnwindTopLevelIrp(%p)\n", TopLevelContext); /* No TLC provided? Ask the system for ours! */ if (TopLevelContext == NULL) { TopLevelContext = (PRX_TOPLEVELIRP_CONTEXT)IoGetTopLevelIrp(); if (TopLevelContext == NULL) { return; } /* In that case, just assert it's really ours */ ASSERT(RxIsThisAnRdbssTopLevelContext(TopLevelContext)); ASSERT(BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)); } ASSERT(TopLevelContext->Signature == RX_TOPLEVELIRP_CONTEXT_SIGNATURE); ASSERT(TopLevelContext->Thread == PsGetCurrentThread()); /* Restore the previous top level IRP */ IoSetTopLevelIrp(TopLevelContext->Previous); /* If TLC was allocated from pool, remove it from list and release it */ if (BooleanFlagOn(TopLevelContext->Flags, RX_TOPLEVELCTX_FLAG_FROM_POOL)) { RxRemoveFromTopLevelIrpAllocatedContextsList(TopLevelContext); RxFreePoolWithTag(TopLevelContext, RX_TLC_POOLTAG); } } /* * @implemented */ VOID RxUpdateShareAccessPerSrvOpens( IN PSRV_OPEN SrvOpen) { ACCESS_MASK DesiredAccess; BOOLEAN ReadAccess; BOOLEAN WriteAccess; BOOLEAN DeleteAccess; PAGED_CODE(); /* If already updated, no need to continue */ if (BooleanFlagOn(SrvOpen->Flags, SRVOPEN_FLAG_SHAREACCESS_UPDATED)) { return; } /* Check if any access wanted */ DesiredAccess = SrvOpen->DesiredAccess; ReadAccess = (DesiredAccess & (FILE_READ_DATA | FILE_EXECUTE)) != 0; WriteAccess = (DesiredAccess & (FILE_WRITE_DATA | FILE_APPEND_DATA)) != 0; DeleteAccess = (DesiredAccess & DELETE) != 0; /* In that case, update it */ if ((ReadAccess) || (WriteAccess) || (DeleteAccess)) { BOOLEAN SharedRead; BOOLEAN SharedWrite; BOOLEAN SharedDelete; ULONG DesiredShareAccess; PSHARE_ACCESS ShareAccess; ShareAccess = &((PFCB)SrvOpen->pFcb)->ShareAccessPerSrvOpens; DesiredShareAccess = SrvOpen->ShareAccess; SharedRead = (DesiredShareAccess & FILE_SHARE_READ) != 0; SharedWrite = (DesiredShareAccess & FILE_SHARE_WRITE) != 0; SharedDelete = (DesiredShareAccess & FILE_SHARE_DELETE) != 0; ShareAccess->OpenCount++; ShareAccess->Readers += ReadAccess; ShareAccess->Writers += WriteAccess; ShareAccess->Deleters += DeleteAccess; ShareAccess->SharedRead += SharedRead; ShareAccess->SharedWrite += SharedWrite; ShareAccess->SharedDelete += SharedDelete; } SetFlag(SrvOpen->Flags, SRVOPEN_FLAG_SHAREACCESS_UPDATED); } /* * @implemented */ NTSTATUS RxXXXControlFileCallthru( PRX_CONTEXT Context) { NTSTATUS Status; PAGED_CODE(); DPRINT("RxXXXControlFileCallthru(%p)\n", Context); /* No dispatch table? Nothing to dispatch */ if (Context->RxDeviceObject->Dispatch == NULL) { Context->pFobx = NULL; return STATUS_INVALID_DEVICE_REQUEST; } /* Init the lowio context */ Status = RxLowIoPopulateFsctlInfo(Context); if (!NT_SUCCESS(Status)) { return Status; } /* Check whether we're consistent: a length means a buffer */ if ((Context->LowIoContext.ParamsFor.FsCtl.InputBufferLength > 0 && Context->LowIoContext.ParamsFor.FsCtl.pInputBuffer == NULL) || (Context->LowIoContext.ParamsFor.FsCtl.OutputBufferLength > 0 && Context->LowIoContext.ParamsFor.FsCtl.pOutputBuffer == NULL)) { return STATUS_INVALID_PARAMETER; } /* Forward the call to the mini-rdr */ DPRINT("Calling: %p\n", Context->RxDeviceObject->Dispatch->MRxDevFcbXXXControlFile); Status = Context->RxDeviceObject->Dispatch->MRxDevFcbXXXControlFile(Context); if (Status != STATUS_PENDING) { Context->CurrentIrp->IoStatus.Information = Context->InformationToReturn; } DPRINT("RxXXXControlFileCallthru: %x, %ld\n", Context->CurrentIrp->IoStatus.Status, Context->CurrentIrp->IoStatus.Information); return Status; }