/*++ Copyright (c) 1989-2000 Microsoft Corporation Module Name: UdfData.h Abstract: This module declares the global data used by the Udfs file system. // @@BEGIN_DDKSPLIT Author: Dan Lovinger [DanLo] 20-May-1996 Revision History: Tom Jolly [TomJolly] 1-March-2000 UDF 2.01 support // @@END_DDKSPLIT --*/ #ifndef _UDFDATA_ #define _UDFDATA_ // // Global data structures // extern UDF_DATA UdfData; extern FAST_IO_DISPATCH UdfFastIoDispatch; // // Global constants // // // These are the number of times a mounted Vcb will be referenced on behalf // of the system. The counts include the following references. // // 1 reference - shows the volume is mounted // 1 reference - 1 for VolumeDasdFcb. // 2 references - 1 for RootIndexFcb, 1 for internal stream. // 2 references - 1 for MetadataFcb, 1 for internal stream. // // AND THEN, IF THIS IS CD-UDF // // 2 references - 1 for the VatFcb, 1 for the internal stream. // // For user references we add one for the reference in each of the internal // Fcbs. // #define UDFS_BASE_RESIDUAL_REFERENCE (6) #define UDFS_BASE_RESIDUAL_USER_REFERENCE (3) #define UDFS_CDUDF_RESIDUAL_REFERENCE (2) #define UDFS_CDUDF_RESIDUAL_USER_REFERENCE (1) // // The UDFS signature for thread contexts // #define UDFS_SIGNATURE 0x53464455 // // Reserved directory strings // #define SELF_ENTRY 0 #define PARENT_ENTRY 1 extern WCHAR UdfUnicodeSelfArray[]; extern WCHAR UdfUnicodeParentArray[]; extern LARGE_INTEGER UdfCorruptFileTime; extern UNICODE_STRING UdfUnicodeDirectoryNames[]; // // Static Identifier strings // extern STRING UdfCS0Identifier; extern STRING UdfDomainIdentifier; extern STRING UdfVirtualPartitionDomainIdentifier; extern STRING UdfVatTableIdentifier; extern STRING UdfSparablePartitionDomainIdentifier; extern STRING UdfSparingTableIdentifier; extern STRING UdfNSR02Identifier; extern STRING UdfNSR03Identifier; // // Lookup tables for rudimentary parsing of strings we will // discover in on-disk structures // extern PARSE_KEYVALUE VsdIdentParseTable[]; extern PARSE_KEYVALUE NsrPartContIdParseTable[]; // // Lookaside lists // extern NPAGED_LOOKASIDE_LIST UdfFcbNonPagedLookasideList; extern NPAGED_LOOKASIDE_LIST UdfIrpContextLookasideList; extern PAGED_LOOKASIDE_LIST UdfCcbLookasideList; extern PAGED_LOOKASIDE_LIST UdfFcbIndexLookasideList; extern PAGED_LOOKASIDE_LIST UdfFcbDataLookasideList; extern PAGED_LOOKASIDE_LIST UdfLcbLookasideList; // // 16bit CRC table // extern PUSHORT UdfCrcTable; // // Turn on pseudo-asserts if UDFS_FREE_ASSERTS is defined. // #if (!DBG && defined( UDFS_FREE_ASSERTS )) || defined( UDFSDBG ) #undef ASSERT #undef ASSERTMSG #define ASSERT(exp) \ ((exp) ? TRUE : \ (DbgPrint( "%s:%d %s\n",__FILE__,__LINE__,#exp ), \ DbgBreakPoint(), \ TRUE)) #define ASSERTMSG(msg,exp) \ ((exp) ? TRUE : \ (DbgPrint( "%s:%d %s %s\n",__FILE__,__LINE__,msg,#exp ), \ DbgBreakPoint(), \ TRUE)) #endif // // McDebugging Stuff // // // The following assertion macros ensure that the indicated structure // is valid // // ASSERT_STRUCT( IN PVOID Struct, IN CSHORT NodeType ); // ASSERT_OPTIONAL_STRUCT( IN PVOID Struct OPTIONAL, IN CSHORT NodeType ); // // ASSERT_VCB( IN PVCB Vcb ); // ASSERT_OPTIONAL_VCB( IN PVCB Vcb OPTIONAL ); // // ASSERT_FCB( IN PFCB Fcb ); // ASSERT_OPTIONAL_FCB( IN PFCB Fcb OPTIONAL ); // // ASSERT_LCB( IN PLCB Lcb ); // ASSERT_OPTIONAL_LCB( IN PLCB Lcb OPTIONAL ); // // ASSERT_PCB( IN PFCB Pcb ); // ASSERT_OPTIONAL_PCB( IN PPCB Pcb OPTIONAL ); // // ASSERT_FCB_NONPAGED( IN PFCB_NONPAGED FcbNonpaged ); // ASSERT_OPTIONAL_FCB( IN PFCB_NONPAGED FcbNonpaged OPTIONAL ); // // ASSERT_CCB( IN PSCB Ccb ); // ASSERT_OPTIONAL_CCB( IN PSCB Ccb OPTIONAL ); // // ASSERT_IRP_CONTEXT( IN PIRP_CONTEXT IrpContext ); // ASSERT_OPTIONAL_IRP_CONTEXT( IN PIRP_CONTEXT IrpContext OPTIONAL ); // // ASSERT_IRP( IN PIRP Irp ); // ASSERT_OPTIONAL_IRP( IN PIRP Irp OPTIONAL ); // // ASSERT_FILE_OBJECT( IN PFILE_OBJECT FileObject ); // ASSERT_OPTIONAL_FILE_OBJECT( IN PFILE_OBJECT FileObject OPTIONAL ); // // The following macros are used to check the current thread owns // the indicated resource // // ASSERT_EXCLUSIVE_RESOURCE( IN PERESOURCE Resource ); // // ASSERT_SHARED_RESOURCE( IN PERESOURCE Resource ); // // ASSERT_RESOURCE_NOT_MINE( IN PERESOURCE Resource ); // // The following macros are used to check whether the current thread // owns the resoures in the given structures. // // ASSERT_EXCLUSIVE_CDDATA // // ASSERT_EXCLUSIVE_VCB( IN PVCB Vcb ); // // ASSERT_SHARED_VCB( IN PVCB Vcb ); // // ASSERT_EXCLUSIVE_FCB( IN PFCB Fcb ); // // ASSERT_SHARED_FCB( IN PFCB Fcb ); // // ASSERT_EXCLUSIVE_FILE( IN PFCB Fcb ); // // ASSERT_SHARED_FILE( IN PFCB Fcb ); // // ASSERT_LOCKED_VCB( IN PVCB Vcb ); // // ASSERT_NOT_LOCKED_VCB( IN PVCB Vcb ); // // ASSERT_LOCKED_FCB( IN PFCB Fcb ); // // ASSERT_NOT_LOCKED_FCB( IN PFCB Fcb ); // // // Turn on the sanity checks if this is DBG or UDF_FREE_ASSERTS // #if DBG || UDF_FREE_ASSERTS #undef UDF_SANITY #define UDF_SANITY #endif #ifdef UDF_SANITY extern LONG UdfDebugTraceLevel; extern LONG UdfDebugTraceIndent; extern BOOLEAN UdfNoisyVerifyDescriptor; extern BOOLEAN UdfTestRaisedStatus; BOOLEAN UdfDebugTrace ( LONG IndentIncrement, ULONG TraceMask, PCHAR Format, ... ); #define DebugTrace(x) UdfDebugTrace x #define DebugUnwind(X) { \ if (AbnormalTermination()) { \ DebugTrace(( -1, UDFS_DEBUG_LEVEL_UNWIND, #X ", Abnormal termination.\n" )); \ } \ } #define DebugBreakOnStatus(S) { \ if (UdfTestRaisedStatus) { \ if ((S) == STATUS_DISK_CORRUPT_ERROR || \ (S) == STATUS_FILE_CORRUPT_ERROR || \ (S) == STATUS_CRC_ERROR) { \ DbgPrint( "UDFS: Breaking on possible media corruption (S = %08x)\n", (S)); \ DbgPrint( "UDFS: Contact UDFS.SYS component owner for triage.\n"); \ DbgPrint( "UDFS: 'eb %p 0' to disable this alert\n",&UdfTestRaisedStatus ); \ DbgBreakPoint(); \ } \ } \ } #define ASSERT_STRUCT(S,T) ASSERT( SafeNodeType( S ) == (T) ) #define ASSERT_OPTIONAL_STRUCT(S,T) ASSERT( ((S) == NULL) || (SafeNodeType( S ) == (T)) ) #define ASSERT_VCB(V) ASSERT_STRUCT( (V), UDFS_NTC_VCB ) #define ASSERT_OPTIONAL_VCB(V) ASSERT_OPTIONAL_STRUCT( (V), UDFS_NTC_VCB ) #define ASSERT_FCB(F) \ ASSERT( (SafeNodeType( F ) == UDFS_NTC_FCB_DATA ) || \ (SafeNodeType( F ) == UDFS_NTC_FCB_INDEX ) ) #define ASSERT_OPTIONAL_FCB(F) \ ASSERT( ((F) == NULL) || \ (SafeNodeType( F ) == UDFS_NTC_FCB_DATA ) || \ (SafeNodeType( F ) == UDFS_NTC_FCB_INDEX ) ) #define ASSERT_FCB_DATA(F) ASSERT( (SafeNodeType( F ) == UDFS_NTC_FCB_DATA ) ) #define ASSERT_OPTIONAL_FCB_DATA(F) \ ASSERT( ((F) == NULL) || \ (SafeNodeType( F ) == UDFS_NTC_FCB_DATA ) ) #define ASSERT_FCB_INDEX(F) ASSERT( (SafeNodeType( F ) == UDFS_NTC_FCB_INDEX ) ) #define ASSERT_OPTIONAL_FCB_INDEX(F) \ ASSERT( ((F) == NULL) || \ (SafeNodeType( F ) == UDFS_NTC_FCB_INDEX ) ) #define ASSERT_FCB_NONPAGED(FN) ASSERT_STRUCT( (FN), UDFS_NTC_FCB_NONPAGED ) #define ASSERT_OPTIONAL_FCB_NONPAGED(FN) ASSERT_OPTIONAL_STRUCT( (FN), UDFS_NTC_FCB_NONPAGED ) #define ASSERT_CCB(C) ASSERT_STRUCT( (C), UDFS_NTC_CCB ) #define ASSERT_OPTIONAL_CCB(C) ASSERT_OPTIONAL_STRUCT( (C), UDFS_NTC_CCB ) #define ASSERT_PCB(C) ASSERT_STRUCT( (C), UDFS_NTC_PCB ) #define ASSERT_OPTIONAL_PCB(C) ASSERT_OPTIONAL_STRUCT( (C), UDFS_NTC_PCB ) #define ASSERT_LCB(C) ASSERT_STRUCT( (C), UDFS_NTC_LCB ) #define ASSERT_OPTIONAL_LCB(C) ASSERT_OPTIONAL_STRUCT( (C), UDFS_NTC_LCB ) #define ASSERT_IRP_CONTEXT(IC) ASSERT_STRUCT( (IC), UDFS_NTC_IRP_CONTEXT ) #define ASSERT_OPTIONAL_IRP_CONTEXT(IC) ASSERT_OPTIONAL_STRUCT( (IC), UDFS_NTC_IRP_CONTEXT ) #define ASSERT_IRP_CONTEXT_LITE(IC) ASSERT_STRUCT( (IC), UDFS_NTC_IRP_CONTEXT_LITE ) #define ASSERT_OPTIONAL_IRP_CONTEXT_LITE(IC) ASSERT_OPTIONAL_STRUCT( (IC), UDFS_NTC_IRP_CONTEXT_LITE ) #define ASSERT_IRP(I) ASSERT_STRUCT( (I), IO_TYPE_IRP ) #define ASSERT_OPTIONAL_IRP(I) ASSERT_OPTIONAL_STRUCT( (I), IO_TYPE_IRP ) #define ASSERT_FILE_OBJECT(FO) ASSERT_STRUCT( (FO), IO_TYPE_FILE ) #define ASSERT_OPTIONAL_FILE_OBJECT(FO) ASSERT_OPTIONAL_STRUCT( (FO), IO_TYPE_FILE ) #define ASSERT_EXCLUSIVE_RESOURCE(R) ASSERT( ExIsResourceAcquiredExclusiveLite( R )) #define ASSERT_SHARED_RESOURCE(R) ASSERT( ExIsResourceAcquiredSharedLite( R )) #define ASSERT_RESOURCE_NOT_MINE(R) ASSERT( !ExIsResourceAcquiredSharedLite( R )) #define ASSERT_EXCLUSIVE_UDFDATA ASSERT( ExIsResourceAcquiredExclusiveLite( &UdfData.DataResource )) #define ASSERT_EXCLUSIVE_VCB(V) ASSERT( ExIsResourceAcquiredExclusiveLite( &(V)->VcbResource )) #define ASSERT_SHARED_VCB(V) ASSERT( ExIsResourceAcquiredSharedLite( &(V)->VcbResource )) #define ASSERT_EXCLUSIVE_FCB_OR_VCB(F) ASSERT( ExIsResourceAcquiredExclusiveLite( &(F)->FcbNonpaged->FcbResource ) || \ ExIsResourceAcquiredExclusiveLite( &(F)->Vcb->VcbResource )) #define ASSERT_EXCLUSIVE_FCB(F) ASSERT( ExIsResourceAcquiredExclusiveLite( &(F)->FcbNonpaged->FcbResource )) #define ASSERT_SHARED_FCB(F) ASSERT( ExIsResourceAcquiredSharedLite( &(F)->FcbNonpaged->FcbResource )) #define ASSERT_EXCLUSIVE_FILE(F) ASSERT( ExIsResourceAcquiredExclusiveLite( (F)->Resource )) #define ASSERT_SHARED_FILE(F) ASSERT( ExIsResourceAcquiredSharedLite( (F)->Resource )) #define ASSERT_LOCKED_VCB(V) ASSERT( (V)->VcbLockThread == PsGetCurrentThread() ) #define ASSERT_NOT_LOCKED_VCB(V) ASSERT( (V)->VcbLockThread != PsGetCurrentThread() ) #define ASSERT_LOCKED_FCB(F) ASSERT( (F)->FcbLockThread == PsGetCurrentThread() ) #define ASSERT_NOT_LOCKED_FCB(F) ASSERT( (F)->FcbLockThread != PsGetCurrentThread() ) #define ASSERT_NOT_HELD_VMCB(V) ASSERT( !ExIsResourceAcquiredSharedLite(&(V)->VmcbMappingResource) && \ !ExIsResourceAcquiredExclusiveLite(&(V)->VmcbMappingResource) ) #else #define DebugTrace(X) TRUE #define DebugUnwind(X) { NOTHING; } #define DebugBreakOnStatus(S) { NOTHING; } #define ASSERT_NOT_HELD_VMCB(V) { NOTHING; } #define ASSERT_STRUCT(S,T) { NOTHING; } #define ASSERT_OPTIONAL_STRUCT(S,T) { NOTHING; } #define ASSERT_VCB(V) { NOTHING; } #define ASSERT_OPTIONAL_VCB(V) { NOTHING; } #define ASSERT_FCB(F) { NOTHING; } #define ASSERT_OPTIONAL_FCB(F) { NOTHING; } #define ASSERT_FCB_DATA { NOTHING; } #define ASSERT_OPTIONAL_FCB_DATA(F) { NOTHING; } #define ASSERT_FCB_INDEX(F) { NOTHING; } #define ASSERT_OPTIONAL_FCB_INDEX(F) { NOTHING; } #define ASSERT_FCB_NONPAGED(FN) { NOTHING; } #define ASSERT_OPTIONAL_FCB_NONPAGED(FN) { NOTHING; } #define ASSERT_CCB(C) { NOTHING; } #define ASSERT_OPTIONAL_CCB(C) { NOTHING; } #define ASSERT_PCB(C) { NOTHING; } #define ASSERT_OPTIONAL_PCB(C) { NOTHING; } #define ASSERT_LCB(C) { NOTHING; } #define ASSERT_OPTIONAL_LCB(C) { NOTHING; } #define ASSERT_IRP_CONTEXT(IC) { NOTHING; } #define ASSERT_OPTIONAL_IRP_CONTEXT(IC) { NOTHING; } #define ASSERT_IRP_CONTEXT_LITE(IC) { NOTHING; } #define ASSERT_OPTIONAL_IRP_CONTEXT_LITE(IC) { NOTHING; } #define ASSERT_IRP(I) { NOTHING; } #define ASSERT_OPTIONAL_IRP(I) { NOTHING; } #define ASSERT_FILE_OBJECT(FO) { NOTHING; } #define ASSERT_OPTIONAL_FILE_OBJECT(FO) { NOTHING; } #define ASSERT_EXCLUSIVE_RESOURCE(R) { NOTHING; } #define ASSERT_SHARED_RESOURCE(R) { NOTHING; } #define ASSERT_RESOURCE_NOT_MINE(R) { NOTHING; } #define ASSERT_EXCLUSIVE_UDFDATA { NOTHING; } #define ASSERT_EXCLUSIVE_VCB(V) { NOTHING; } #define ASSERT_SHARED_VCB(V) { NOTHING; } #define ASSERT_EXCLUSIVE_FCB_OR_VCB(F) { NOTHING; } #define ASSERT_EXCLUSIVE_FCB(F) { NOTHING; } #define ASSERT_SHARED_FCB(F) { NOTHING; } #define ASSERT_EXCLUSIVE_FILE(F) { NOTHING; } #define ASSERT_SHARED_FILE(F) { NOTHING; } #define ASSERT_LOCKED_VCB(V) { NOTHING; } #define ASSERT_NOT_LOCKED_VCB(V) { NOTHING; } #define ASSERT_LOCKED_FCB(F) { NOTHING; } #define ASSERT_NOT_LOCKED_FCB(F) { NOTHING; } #endif #endif // _UDFDATA_