/*++ Copyright (c) 1989 Microsoft Corporation Module Name: FsRtlP.h Abstract: This module defines private part of the File System Rtl component Author: Gary Kimura [GaryKi] 30-Jul-1990 Revision History: --*/ #ifndef _FSRTLP_ #define _FSRTLP_ #include #include #include #include #define FsRtlAllocatePool(PoolType, NumberOfBytes ) \ ExAllocatePoolWithTag((POOL_TYPE)((PoolType) | POOL_RAISE_IF_ALLOCATION_FAILURE), \ NumberOfBytes, \ 'trSF') #define FsRtlAllocatePoolWithQuota(PoolType, NumberOfBytes ) \ ExAllocatePoolWithQuotaTag((POOL_TYPE)((PoolType) | POOL_RAISE_IF_ALLOCATION_FAILURE), \ NumberOfBytes, \ 'trSF') #define FsRtlpAllocatePool(a,b) FsRtlAllocatePoolWithTag((a),(b),MODULE_POOL_TAG) // // The global FsRtl debug level variable, its values are: // // 0x00000000 Always gets printed (used when about to bug check) // // 0x00000001 Error conditions // 0x00000002 Debug hooks // 0x00000004 // 0x00000008 // // 0x00000010 // 0x00000020 // 0x00000040 // 0x00000080 // // 0x00000100 // 0x00000200 // 0x00000400 // 0x00000800 // // 0x00001000 // 0x00002000 // 0x00004000 // 0x00008000 // // 0x00010000 // 0x00020000 // 0x00040000 // 0x00080000 // // 0x00100000 // 0x00200000 // 0x00400000 // 0x00800000 // // 0x01000000 // 0x02000000 // 0x04000000 NotifyChange routines // 0x08000000 Oplock routines // // 0x10000000 Name routines // 0x20000000 FileLock routines // 0x40000000 Vmcb routines // 0x80000000 Mcb routines // // // Debug trace support // #ifdef FSRTLDBG extern LONG FsRtlDebugTraceLevel; extern LONG FsRtlDebugTraceIndent; #define DebugTrace(INDENT,LEVEL,X,Y) { \ LONG _i; \ if (((LEVEL) == 0) || (FsRtlDebugTraceLevel & (LEVEL))) { \ _i = (ULONG)PsGetCurrentThread(); \ DbgPrint("%08lx:",_i); \ if ((INDENT) < 0) { \ FsRtlDebugTraceIndent += (INDENT); \ } \ if (FsRtlDebugTraceIndent < 0) { \ FsRtlDebugTraceIndent = 0; \ } \ for (_i=0; _i 0) { \ FsRtlDebugTraceIndent += (INDENT); \ } \ } \ } #define DebugDump(STR,LEVEL,PTR) { \ ULONG _i; \ VOID FsRtlDump(); \ if (((LEVEL) == 0) || (FsRtlDebugTraceLevel & (LEVEL))) { \ _i = (ULONG)PsGetCurrentThread(); \ DbgPrint("%08lx:",_i); \ DbgPrint(STR); \ if (PTR != NULL) {FsRtlDump(PTR);} \ DbgBreakPoint(); \ } \ } #else #define DebugTrace(INDENT,LEVEL,X,Y) {NOTHING;} #define DebugDump(STR,LEVEL,PTR) {NOTHING;} #endif // FSRTLDBG // // Miscellaneous support routines // VOID FsRtlInitializeFileLocks ( VOID ); VOID FsRtlInitializeLargeMcbs ( VOID ); VOID FsRtlInitializeTunnels( VOID ); NTSTATUS FsRtlInitializeWorkerThread ( VOID ); // // This macro returns TRUE if a flag in a set of flags is on and FALSE // otherwise // #define FlagOn(Flags,SingleFlag) ((Flags) & (SingleFlag)) #define BooleanFlagOn(Flags,SingleFlag) ((BOOLEAN)(((Flags) & (SingleFlag)) != 0)) #define SetFlag(F,SF) { \ (F) |= (SF); \ } #define ClearFlag(F,SF) { \ (F) &= ~(SF); \ } // // This macro takes a pointer (or ulong) and returns its rounded up word // value // #define WordAlign(Ptr) ( \ ((((ULONG_PTR)(Ptr)) + 1) & -2) \ ) // // This macro takes a pointer (or ulong) and returns its rounded up longword // value // #define LongAlign(Ptr) ( \ ((((ULONG_PTR)(Ptr)) + 3) & -4) \ ) // // This macro takes a pointer (or ulong) and returns its rounded up quadword // value // #define QuadAlign(Ptr) ( \ ((((ULONG_PTR)(Ptr)) + 7) & -8) \ ) // // This macro takes a ulong and returns its value rounded up to a sector // boundary // #define SectorAlign(Ptr) ( \ ((((ULONG_PTR)(Ptr)) + 511) & -512) \ ) // // This macro takes a number of bytes and returns the number of sectors // required to contain that many bytes, i.e., it sector aligns and divides // by the size of a sector. // #define SectorsFromBytes(bytes) ( \ ((bytes) + 511) / 512 \ ) // // This macro takes a number of sectors and returns the number of bytes // contained in that many sectors. // #define BytesFromSectors(sectors) ( \ (sectors) * 512 \ ) // // The following types and macros are used to help unpack the packed and // misaligned fields found in the Bios parameter block // typedef union _UCHAR1 { UCHAR Uchar[1]; UCHAR ForceAlignment; } UCHAR1, *PUCHAR1; typedef union _UCHAR2 { UCHAR Uchar[2]; USHORT ForceAlignment; } UCHAR2, *PUCHAR2; typedef union _UCHAR4 { UCHAR Uchar[4]; ULONG ForceAlignment; } UCHAR4, *PUCHAR4; // // This macro copies an unaligned src byte to an aligned dst byte // #define CopyUchar1(Dst,Src) { \ *((UCHAR1 *)(Dst)) = *((UNALIGNED UCHAR1 *)(Src)); \ } // // This macro copies an unaligned src word to an aligned dst word // #define CopyUchar2(Dst,Src) { \ *((UCHAR2 *)(Dst)) = *((UNALIGNED UCHAR2 *)(Src)); \ } // // This macro copies an unaligned src longword to an aligned dsr longword // #define CopyUchar4(Dst,Src) { \ *((UCHAR4 *)(Dst)) = *((UNALIGNED UCHAR4 *)(Src)); \ } // // The following macros are used to establish the semantics needed // to do a return from within a try-finally clause. As a rule every // try clause must end with a label call try_exit. For example, // // try { // : // : // // try_exit: NOTHING; // } finally { // // : // : // } // // Every return statement executed inside of a try clause should use the // try_return macro. If the compiler fully supports the try-finally construct // then the macro should be // // #define try_return(S) { return(S); } // // If the compiler does not support the try-finally construct then the macro // should be // // #define try_return(S) { S; goto try_exit; } // #define try_return(S) { S; goto try_exit; } #define GET_FAST_IO_DISPATCH(DevObj) \ ((DevObj)->DriverObject->FastIoDispatch) #define GET_FS_FILTER_CALLBACKS(DevObj) \ ((DevObj)->DriverObject->DriverExtension->FsFilterCallbacks) // // Macro for validating the FastIo dispatch routines before calling // them in the FastIo pass through functions. // #define VALID_FAST_IO_DISPATCH_HANDLER(FastIoDispatchPtr, FieldName) \ (((FastIoDispatchPtr) != NULL) && \ (((FastIoDispatchPtr)->SizeOfFastIoDispatch) >= \ (FIELD_OFFSET(FAST_IO_DISPATCH, FieldName) + sizeof(VOID *))) && \ ((FastIoDispatchPtr)->FieldName != NULL)) #define VALID_FS_FILTER_CALLBACK_HANDLER(FsFilterCallbackPtr, FieldName) \ (((FsFilterCallbackPtr) != NULL) && \ (((FsFilterCallbackPtr)->SizeOfFsFilterCallbacks) >= \ (FIELD_OFFSET(FS_FILTER_CALLBACKS, FieldName) + sizeof(VOID *))) && \ ((FsFilterCallbackPtr)->FieldName != NULL)) #define FSRTL_FILTER_MEMORY_TAG 'gmSF' typedef struct _FS_FILTER_COMPLETION_NODE { PDEVICE_OBJECT DeviceObject; PFILE_OBJECT FileObject; PVOID CompletionContext; PFS_FILTER_COMPLETION_CALLBACK CompletionCallback; } FS_FILTER_COMPLETION_NODE, *PFS_FILTER_COMPLETION_NODE; #define FS_FILTER_DEFAULT_STACK_SIZE 15 typedef struct _FS_FILTER_COMPLETION_STACK { USHORT StackLength; USHORT NextStackPosition; PFS_FILTER_COMPLETION_NODE Stack; FS_FILTER_COMPLETION_NODE DefaultStack[FS_FILTER_DEFAULT_STACK_SIZE]; } FS_FILTER_COMPLETION_STACK, *PFS_FILTER_COMPLETION_STACK; typedef struct _FS_FILTER_CTRL { FS_FILTER_CALLBACK_DATA Data; ULONG Flags; ULONG Reserved; FS_FILTER_COMPLETION_STACK CompletionStack; } FS_FILTER_CTRL, *PFS_FILTER_CTRL; // // Flag values for FS_FILTER_CTRL // #define FS_FILTER_ALLOCATED_COMPLETION_STACK 0x00000001 #define FS_FILTER_USED_RESERVE_POOL 0x00000002 #define FS_FILTER_CHANGED_DEVICE_STACKS 0x00000004 NTSTATUS FsFilterInit( ); NTSTATUS FsFilterAllocateCompletionStack ( IN PFS_FILTER_CTRL FsFilterCtrl, IN BOOLEAN CanFail, OUT PULONG AllocationSize ); VOID FsFilterFreeCompletionStack ( IN PFS_FILTER_CTRL FsFilterCtrl ); NTSTATUS FsFilterCtrlInit ( IN OUT PFS_FILTER_CTRL FsFilterCtrl, IN UCHAR Operation, IN PDEVICE_OBJECT DeviceObject, IN PDEVICE_OBJECT BaseFsDeviceObject, IN PFILE_OBJECT FileObject, IN BOOLEAN CanFail ); VOID FsFilterCtrlFree ( IN PFS_FILTER_CTRL FsFilterCtrl ); #define PUSH_COMPLETION_NODE( completionStack ) \ (((completionStack)->NextStackPosition < (completionStack)->StackLength ) ? \ &(completionStack)->Stack[(completionStack)->NextStackPosition++] : \ (ASSERT( FALSE ), NULL) ) #define POP_COMPLETION_NODE( completionStack ) \ (ASSERT((completionStack)->NextStackPosition > 0), \ ((completionStack)->NextStackPosition--)) #define GET_COMPLETION_NODE( completionStack ) \ (ASSERT((completionStack)->NextStackPosition > 0),\ (&(completionStack)->Stack[(completionStack)->NextStackPosition-1])) #define FS_FILTER_HAVE_COMPLETIONS( fsFilterCtrl ) \ ((fsFilterCtrl)->CompletionStack.NextStackPosition > 0) VOID FsFilterGetCallbacks ( IN UCHAR Operation, IN PDEVICE_OBJECT DeviceObject, OUT PFS_FILTER_CALLBACK *PreOperationCallback, OUT PFS_FILTER_COMPLETION_CALLBACK *PostOperationCallback ); NTSTATUS FsFilterPerformCallbacks ( IN PFS_FILTER_CTRL FsFilterCtrl, IN BOOLEAN AllowFilterToFail, IN BOOLEAN AllowBaseFsToFail, OUT BOOLEAN *BaseFsFailedOp ); VOID FsFilterPerformCompletionCallbacks( IN PFS_FILTER_CTRL FsFilterCtrl, IN NTSTATUS OperationStatus ); #endif // _FSRTLP_