/*++ BUILD Version: 0002 // Increment this if a change has global effects Copyright (c) 1989 Microsoft Corporation Module Name: ob.h Abstract: This module contains the object manager structure public data structures and procedure prototypes to be used within the NT system. Author: Steve Wood (stevewo) 28-Mar-1989 Revision History: --*/ #ifndef _OB_ #define _OB_ // // System Initialization procedure for OB subcomponent of NTOS // BOOLEAN ObInitSystem( VOID ); VOID ObShutdownSystem( IN ULONG Phase ); NTSTATUS ObInitProcess( PEPROCESS ParentProcess OPTIONAL, PEPROCESS NewProcess ); VOID ObInitProcess2( PEPROCESS NewProcess ); VOID ObKillProcess( PEPROCESS Process ); VOID ObClearProcessHandleTable ( PEPROCESS Process ); VOID ObDereferenceProcessHandleTable ( PEPROCESS SourceProcess ); PHANDLE_TABLE ObReferenceProcessHandleTable ( PEPROCESS SourceProcess ); ULONG ObGetProcessHandleCount ( PEPROCESS Process ); NTSTATUS ObDuplicateObject ( IN PEPROCESS SourceProcess, IN HANDLE SourceHandle, IN PEPROCESS TargetProcess OPTIONAL, OUT PHANDLE TargetHandle OPTIONAL, IN ACCESS_MASK DesiredAccess, IN ULONG HandleAttributes, IN ULONG Options, IN KPROCESSOR_MODE PreviousMode ); // begin_ntddk begin_wdm begin_nthal begin_ntosp begin_ntifs // // Object Manager types // typedef struct _OBJECT_HANDLE_INFORMATION { ULONG HandleAttributes; ACCESS_MASK GrantedAccess; } OBJECT_HANDLE_INFORMATION, *POBJECT_HANDLE_INFORMATION; // end_ntddk end_wdm end_nthal end_ntifs typedef struct _OBJECT_DUMP_CONTROL { PVOID Stream; ULONG Detail; } OB_DUMP_CONTROL, *POB_DUMP_CONTROL; typedef VOID (*OB_DUMP_METHOD)( IN PVOID Object, IN POB_DUMP_CONTROL Control OPTIONAL ); typedef enum _OB_OPEN_REASON { ObCreateHandle, ObOpenHandle, ObDuplicateHandle, ObInheritHandle, ObMaxOpenReason } OB_OPEN_REASON; typedef NTSTATUS (*OB_OPEN_METHOD)( IN OB_OPEN_REASON OpenReason, IN PEPROCESS Process OPTIONAL, IN PVOID Object, IN ACCESS_MASK GrantedAccess, IN ULONG HandleCount ); typedef BOOLEAN (*OB_OKAYTOCLOSE_METHOD)( IN PEPROCESS Process OPTIONAL, IN PVOID Object, IN HANDLE Handle, IN KPROCESSOR_MODE PreviousMode ); typedef VOID (*OB_CLOSE_METHOD)( IN PEPROCESS Process OPTIONAL, IN PVOID Object, IN ACCESS_MASK GrantedAccess, IN ULONG ProcessHandleCount, IN ULONG SystemHandleCount ); typedef VOID (*OB_DELETE_METHOD)( IN PVOID Object ); typedef NTSTATUS (*OB_PARSE_METHOD)( IN PVOID ParseObject, IN PVOID ObjectType, IN OUT PACCESS_STATE AccessState, IN KPROCESSOR_MODE AccessMode, IN ULONG Attributes, IN OUT PUNICODE_STRING CompleteName, IN OUT PUNICODE_STRING RemainingName, IN OUT PVOID Context OPTIONAL, IN PSECURITY_QUALITY_OF_SERVICE SecurityQos OPTIONAL, OUT PVOID *Object ); typedef NTSTATUS (*OB_SECURITY_METHOD)( IN PVOID Object, IN SECURITY_OPERATION_CODE OperationCode, IN PSECURITY_INFORMATION SecurityInformation, IN OUT PSECURITY_DESCRIPTOR SecurityDescriptor, IN OUT PULONG CapturedLength, IN OUT PSECURITY_DESCRIPTOR *ObjectsSecurityDescriptor, IN POOL_TYPE PoolType, IN PGENERIC_MAPPING GenericMapping ); typedef NTSTATUS (*OB_QUERYNAME_METHOD)( IN PVOID Object, IN BOOLEAN HasObjectName, OUT POBJECT_NAME_INFORMATION ObjectNameInfo, IN ULONG Length, OUT PULONG ReturnLength ); /* A security method and its caller must obey the following w.r.t. capturing and probing parameters: For a query operation, the caller must pass a kernel space address for CapturedLength. The caller should be able to assume that it points to valid data that will not change. In addition, the SecurityDescriptor parameter (which will receive the result of the query operation) must be probed for write up to the length given in CapturedLength. The security method itself must always write to the SecurityDescriptor buffer in a try clause in case the caller de-allocates it. For a set operation, the SecurityDescriptor parameter must have been captured via SeCaptureSecurityDescriptor. This parameter is not optional, and therefore may not be NULL. */ // // Prototypes for Win32 WindowStation and Desktop object callout routines // typedef struct _WIN32_OPENMETHOD_PARAMETERS { OB_OPEN_REASON OpenReason; PEPROCESS Process; PVOID Object; ACCESS_MASK GrantedAccess; ULONG HandleCount; } WIN32_OPENMETHOD_PARAMETERS, *PKWIN32_OPENMETHOD_PARAMETERS; typedef NTSTATUS (*PKWIN32_OPENMETHOD_CALLOUT) ( PKWIN32_OPENMETHOD_PARAMETERS ); extern PKWIN32_OPENMETHOD_CALLOUT ExDesktopOpenProcedureCallout; extern PKWIN32_OPENMETHOD_CALLOUT ExWindowStationOpenProcedureCallout; typedef struct _WIN32_OKAYTOCLOSEMETHOD_PARAMETERS { PEPROCESS Process; PVOID Object; HANDLE Handle; KPROCESSOR_MODE PreviousMode; } WIN32_OKAYTOCLOSEMETHOD_PARAMETERS, *PKWIN32_OKAYTOCLOSEMETHOD_PARAMETERS; typedef NTSTATUS (*PKWIN32_OKTOCLOSEMETHOD_CALLOUT) ( PKWIN32_OKAYTOCLOSEMETHOD_PARAMETERS ); extern PKWIN32_OKTOCLOSEMETHOD_CALLOUT ExDesktopOkToCloseProcedureCallout; extern PKWIN32_OKTOCLOSEMETHOD_CALLOUT ExWindowStationOkToCloseProcedureCallout; typedef struct _WIN32_CLOSEMETHOD_PARAMETERS { PEPROCESS Process; PVOID Object; ACCESS_MASK GrantedAccess; ULONG ProcessHandleCount; ULONG SystemHandleCount; } WIN32_CLOSEMETHOD_PARAMETERS, *PKWIN32_CLOSEMETHOD_PARAMETERS; typedef NTSTATUS (*PKWIN32_CLOSEMETHOD_CALLOUT) ( PKWIN32_CLOSEMETHOD_PARAMETERS ); extern PKWIN32_CLOSEMETHOD_CALLOUT ExDesktopCloseProcedureCallout; extern PKWIN32_CLOSEMETHOD_CALLOUT ExWindowStationCloseProcedureCallout; typedef struct _WIN32_DELETEMETHOD_PARAMETERS { PVOID Object; } WIN32_DELETEMETHOD_PARAMETERS, *PKWIN32_DELETEMETHOD_PARAMETERS; typedef NTSTATUS (*PKWIN32_DELETEMETHOD_CALLOUT) ( PKWIN32_DELETEMETHOD_PARAMETERS ); extern PKWIN32_DELETEMETHOD_CALLOUT ExDesktopDeleteProcedureCallout; extern PKWIN32_DELETEMETHOD_CALLOUT ExWindowStationDeleteProcedureCallout; typedef struct _WIN32_PARSEMETHOD_PARAMETERS { PVOID ParseObject; PVOID ObjectType; PACCESS_STATE AccessState; KPROCESSOR_MODE AccessMode; ULONG Attributes; PUNICODE_STRING CompleteName; PUNICODE_STRING RemainingName; PVOID Context OPTIONAL; PSECURITY_QUALITY_OF_SERVICE SecurityQos; PVOID *Object; } WIN32_PARSEMETHOD_PARAMETERS, *PKWIN32_PARSEMETHOD_PARAMETERS; typedef NTSTATUS (*PKWIN32_PARSEMETHOD_CALLOUT) ( PKWIN32_PARSEMETHOD_PARAMETERS ); extern PKWIN32_PARSEMETHOD_CALLOUT ExWindowStationParseProcedureCallout; // // Object Type Structure // typedef struct _OBJECT_TYPE_INITIALIZER { USHORT Length; BOOLEAN UseDefaultObject; BOOLEAN CaseInsensitive; ULONG InvalidAttributes; GENERIC_MAPPING GenericMapping; ULONG ValidAccessMask; BOOLEAN SecurityRequired; BOOLEAN MaintainHandleCount; BOOLEAN MaintainTypeList; POOL_TYPE PoolType; ULONG DefaultPagedPoolCharge; ULONG DefaultNonPagedPoolCharge; OB_DUMP_METHOD DumpProcedure; OB_OPEN_METHOD OpenProcedure; OB_CLOSE_METHOD CloseProcedure; OB_DELETE_METHOD DeleteProcedure; OB_PARSE_METHOD ParseProcedure; OB_SECURITY_METHOD SecurityProcedure; OB_QUERYNAME_METHOD QueryNameProcedure; OB_OKAYTOCLOSE_METHOD OkayToCloseProcedure; } OBJECT_TYPE_INITIALIZER, *POBJECT_TYPE_INITIALIZER; #define OBJECT_LOCK_COUNT 4 typedef struct _OBJECT_TYPE { ERESOURCE Mutex; LIST_ENTRY TypeList; UNICODE_STRING Name; // Copy from object header for convenience PVOID DefaultObject; ULONG Index; ULONG TotalNumberOfObjects; ULONG TotalNumberOfHandles; ULONG HighWaterNumberOfObjects; ULONG HighWaterNumberOfHandles; OBJECT_TYPE_INITIALIZER TypeInfo; #ifdef POOL_TAGGING ULONG Key; #endif //POOL_TAGGING ERESOURCE ObjectLocks[ OBJECT_LOCK_COUNT ]; } OBJECT_TYPE, *POBJECT_TYPE; // // Object Directory Structure // #define NUMBER_HASH_BUCKETS 37 typedef struct _OBJECT_DIRECTORY { struct _OBJECT_DIRECTORY_ENTRY *HashBuckets[ NUMBER_HASH_BUCKETS ]; EX_PUSH_LOCK Lock; struct _DEVICE_MAP *DeviceMap; USHORT Reserved; USHORT SymbolicLinkUsageCount; } OBJECT_DIRECTORY, *POBJECT_DIRECTORY; // end_ntosp // // Object Directory Entry Structure // typedef struct _OBJECT_DIRECTORY_ENTRY { struct _OBJECT_DIRECTORY_ENTRY *ChainLink; PVOID Object; } OBJECT_DIRECTORY_ENTRY, *POBJECT_DIRECTORY_ENTRY; // // Symbolic Link Object Structure // typedef struct _OBJECT_SYMBOLIC_LINK { LARGE_INTEGER CreationTime; UNICODE_STRING LinkTarget; UNICODE_STRING LinkTargetRemaining; PVOID LinkTargetObject; ULONG DosDeviceDriveIndex; // 1-based index into KUSER_SHARED_DATA.DosDeviceDriveType } OBJECT_SYMBOLIC_LINK, *POBJECT_SYMBOLIC_LINK; // // Device Map Structure // typedef struct _DEVICE_MAP { POBJECT_DIRECTORY DosDevicesDirectory; POBJECT_DIRECTORY GlobalDosDevicesDirectory; ULONG ReferenceCount; ULONG DriveMap; UCHAR DriveType[ 32 ]; } DEVICE_MAP, *PDEVICE_MAP; extern PDEVICE_MAP ObSystemDeviceMap; // // Object Handle Count Database // typedef struct _OBJECT_HANDLE_COUNT_ENTRY { PEPROCESS Process; ULONG HandleCount; } OBJECT_HANDLE_COUNT_ENTRY, *POBJECT_HANDLE_COUNT_ENTRY; typedef struct _OBJECT_HANDLE_COUNT_DATABASE { ULONG CountEntries; OBJECT_HANDLE_COUNT_ENTRY HandleCountEntries[ 1 ]; } OBJECT_HANDLE_COUNT_DATABASE, *POBJECT_HANDLE_COUNT_DATABASE; // // Object Header Structure // // The SecurityQuotaCharged is the amount of quota charged to cover // the GROUP and DISCRETIONARY ACL fields of the security descriptor // only. The OWNER and SYSTEM ACL fields get charged for at a fixed // rate that may be less than or greater than the amount actually used. // // If the object has no security, then the SecurityQuotaCharged and the // SecurityQuotaInUse fields are set to zero. // // Modification of the OWNER and SYSTEM ACL fields should never fail // due to quota exceeded problems. Modifications to the GROUP and // DISCRETIONARY ACL fields may fail due to quota exceeded problems. // // typedef struct _OBJECT_CREATE_INFORMATION { ULONG Attributes; HANDLE RootDirectory; PVOID ParseContext; KPROCESSOR_MODE ProbeMode; ULONG PagedPoolCharge; ULONG NonPagedPoolCharge; ULONG SecurityDescriptorCharge; PSECURITY_DESCRIPTOR SecurityDescriptor; PSECURITY_QUALITY_OF_SERVICE SecurityQos; SECURITY_QUALITY_OF_SERVICE SecurityQualityOfService; } OBJECT_CREATE_INFORMATION; // begin_ntosp typedef struct _OBJECT_CREATE_INFORMATION *POBJECT_CREATE_INFORMATION;; typedef struct _OBJECT_HEADER { LONG PointerCount; union { LONG HandleCount; PVOID NextToFree; }; POBJECT_TYPE Type; UCHAR NameInfoOffset; UCHAR HandleInfoOffset; UCHAR QuotaInfoOffset; UCHAR Flags; union { POBJECT_CREATE_INFORMATION ObjectCreateInfo; PVOID QuotaBlockCharged; }; PSECURITY_DESCRIPTOR SecurityDescriptor; QUAD Body; } OBJECT_HEADER, *POBJECT_HEADER; // end_ntosp typedef struct _OBJECT_HEADER_QUOTA_INFO { ULONG PagedPoolCharge; ULONG NonPagedPoolCharge; ULONG SecurityDescriptorCharge; PEPROCESS ExclusiveProcess; #ifdef _WIN64 ULONG64 Reserved; // Win64 requires these structures to be 16 byte aligned. #endif } OBJECT_HEADER_QUOTA_INFO, *POBJECT_HEADER_QUOTA_INFO; typedef struct _OBJECT_HEADER_HANDLE_INFO { union { POBJECT_HANDLE_COUNT_DATABASE HandleCountDataBase; OBJECT_HANDLE_COUNT_ENTRY SingleEntry; }; } OBJECT_HEADER_HANDLE_INFO, *POBJECT_HEADER_HANDLE_INFO; // begin_ntosp typedef struct _OBJECT_HEADER_NAME_INFO { POBJECT_DIRECTORY Directory; UNICODE_STRING Name; ULONG QueryReferences; #if DBG ULONG Reserved2; LONG DbgDereferenceCount; #ifdef _WIN64 ULONG64 Reserved3; // Win64 requires these structures to be 16 byte aligned. #endif #endif } OBJECT_HEADER_NAME_INFO, *POBJECT_HEADER_NAME_INFO; // end_ntosp typedef struct _OBJECT_HEADER_CREATOR_INFO { LIST_ENTRY TypeList; HANDLE CreatorUniqueProcess; USHORT CreatorBackTraceIndex; USHORT Reserved; } OBJECT_HEADER_CREATOR_INFO, *POBJECT_HEADER_CREATOR_INFO; #define OB_FLAG_NEW_OBJECT 0x01 #define OB_FLAG_KERNEL_OBJECT 0x02 #define OB_FLAG_CREATOR_INFO 0x04 #define OB_FLAG_EXCLUSIVE_OBJECT 0x08 #define OB_FLAG_PERMANENT_OBJECT 0x10 #define OB_FLAG_DEFAULT_SECURITY_QUOTA 0x20 #define OB_FLAG_SINGLE_HANDLE_ENTRY 0x40 #define OB_FLAG_DELETED_INLINE 0x80 // begin_ntosp #define OBJECT_TO_OBJECT_HEADER( o ) \ CONTAINING_RECORD( (o), OBJECT_HEADER, Body ) // end_ntosp #define OBJECT_HEADER_TO_EXCLUSIVE_PROCESS( oh ) ((oh->Flags & OB_FLAG_EXCLUSIVE_OBJECT) == 0 ? \ NULL : (((POBJECT_HEADER_QUOTA_INFO)((PCHAR)(oh) - (oh)->QuotaInfoOffset))->ExclusiveProcess)) #define OBJECT_HEADER_TO_QUOTA_INFO( oh ) ((POBJECT_HEADER_QUOTA_INFO) \ ((oh)->QuotaInfoOffset == 0 ? NULL : ((PCHAR)(oh) - (oh)->QuotaInfoOffset))) #define OBJECT_HEADER_TO_HANDLE_INFO( oh ) ((POBJECT_HEADER_HANDLE_INFO) \ ((oh)->HandleInfoOffset == 0 ? NULL : ((PCHAR)(oh) - (oh)->HandleInfoOffset))) // begin_ntosp #define OBJECT_HEADER_TO_NAME_INFO( oh ) ((POBJECT_HEADER_NAME_INFO) \ ((oh)->NameInfoOffset == 0 ? NULL : ((PCHAR)(oh) - (oh)->NameInfoOffset))) #define OBJECT_HEADER_TO_CREATOR_INFO( oh ) ((POBJECT_HEADER_CREATOR_INFO) \ (((oh)->Flags & OB_FLAG_CREATOR_INFO) == 0 ? NULL : ((PCHAR)(oh) - sizeof(OBJECT_HEADER_CREATOR_INFO)))) NTKERNELAPI NTSTATUS ObCreateObjectType( IN PUNICODE_STRING TypeName, IN POBJECT_TYPE_INITIALIZER ObjectTypeInitializer, IN PSECURITY_DESCRIPTOR SecurityDescriptor OPTIONAL, OUT POBJECT_TYPE *ObjectType ); // end_ntosp VOID FASTCALL ObFreeObjectCreateInfoBuffer( IN POBJECT_CREATE_INFORMATION ObjectCreateInfo ); NTSTATUS ObSetDirectoryDeviceMap ( OUT PDEVICE_MAP *ppDeviceMap OPTIONAL, IN HANDLE DirectoryHandle ); ULONG ObIsLUIDDeviceMapsEnabled ( ); BOOLEAN ObIsObjectDeletionInline( IN PVOID Object ); // begin_nthal NTKERNELAPI VOID ObDeleteCapturedInsertInfo( IN PVOID Object ); // begin_ntosp NTKERNELAPI NTSTATUS ObCreateObject( IN KPROCESSOR_MODE ProbeMode, IN POBJECT_TYPE ObjectType, IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL, IN KPROCESSOR_MODE OwnershipMode, IN OUT PVOID ParseContext OPTIONAL, IN ULONG ObjectBodySize, IN ULONG PagedPoolCharge, IN ULONG NonPagedPoolCharge, OUT PVOID *Object ); // // These inlines correct an issue where the compiler refetches // the output object over and over again because it thinks its // a possible alias for other stores. // FORCEINLINE NTSTATUS _ObCreateObject( IN KPROCESSOR_MODE ProbeMode, IN POBJECT_TYPE ObjectType, IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL, IN KPROCESSOR_MODE OwnershipMode, IN OUT PVOID ParseContext OPTIONAL, IN ULONG ObjectBodySize, IN ULONG PagedPoolCharge, IN ULONG NonPagedPoolCharge, OUT PVOID *pObject ) { PVOID Object; NTSTATUS Status; Status = ObCreateObject (ProbeMode, ObjectType, ObjectAttributes, OwnershipMode, ParseContext, ObjectBodySize, PagedPoolCharge, NonPagedPoolCharge, &Object); *pObject = Object; return Status; } #define ObCreateObject _ObCreateObject NTKERNELAPI NTSTATUS ObInsertObject( IN PVOID Object, IN PACCESS_STATE PassedAccessState OPTIONAL, IN ACCESS_MASK DesiredAccess OPTIONAL, IN ULONG ObjectPointerBias, OUT PVOID *NewObject OPTIONAL, OUT PHANDLE Handle OPTIONAL ); // end_nthal NTKERNELAPI // ntddk wdm nthal ntifs NTSTATUS // ntddk wdm nthal ntifs ObReferenceObjectByHandle( // ntddk wdm nthal ntifs IN HANDLE Handle, // ntddk wdm nthal ntifs IN ACCESS_MASK DesiredAccess, // ntddk wdm nthal ntifs IN POBJECT_TYPE ObjectType OPTIONAL, // ntddk wdm nthal ntifs IN KPROCESSOR_MODE AccessMode, // ntddk wdm nthal ntifs OUT PVOID *Object, // ntddk wdm nthal ntifs OUT POBJECT_HANDLE_INFORMATION HandleInformation OPTIONAL // ntddk wdm nthal ntifs ); // ntddk wdm nthal ntifs FORCEINLINE NTSTATUS _ObReferenceObjectByHandle( IN HANDLE Handle, IN ACCESS_MASK DesiredAccess, IN POBJECT_TYPE ObjectType OPTIONAL, IN KPROCESSOR_MODE AccessMode, OUT PVOID *pObject, OUT POBJECT_HANDLE_INFORMATION pHandleInformation OPTIONAL ) { PVOID Object; NTSTATUS Status; Status = ObReferenceObjectByHandle (Handle, DesiredAccess, ObjectType, AccessMode, &Object, pHandleInformation); *pObject = Object; return Status; } #define ObReferenceObjectByHandle _ObReferenceObjectByHandle NTKERNELAPI NTSTATUS ObReferenceFileObjectForWrite( IN HANDLE Handle, IN KPROCESSOR_MODE AccessMode, OUT PVOID *FileObject, OUT POBJECT_HANDLE_INFORMATION HandleInformation ); NTKERNELAPI NTSTATUS ObOpenObjectByName( IN POBJECT_ATTRIBUTES ObjectAttributes, IN POBJECT_TYPE ObjectType, IN KPROCESSOR_MODE AccessMode, IN OUT PACCESS_STATE PassedAccessState OPTIONAL, IN ACCESS_MASK DesiredAccess OPTIONAL, IN OUT PVOID ParseContext OPTIONAL, OUT PHANDLE Handle ); NTKERNELAPI // ntifs NTSTATUS // ntifs ObOpenObjectByPointer( // ntifs IN PVOID Object, // ntifs IN ULONG HandleAttributes, // ntifs IN PACCESS_STATE PassedAccessState OPTIONAL, // ntifs IN ACCESS_MASK DesiredAccess OPTIONAL, // ntifs IN POBJECT_TYPE ObjectType OPTIONAL, // ntifs IN KPROCESSOR_MODE AccessMode, // ntifs OUT PHANDLE Handle // ntifs ); // ntifs NTSTATUS ObReferenceObjectByName( IN PUNICODE_STRING ObjectName, IN ULONG Attributes, IN PACCESS_STATE PassedAccessState OPTIONAL, IN ACCESS_MASK DesiredAccess OPTIONAL, IN POBJECT_TYPE ObjectType, IN KPROCESSOR_MODE AccessMode, IN OUT PVOID ParseContext OPTIONAL, OUT PVOID *Object ); // end_ntosp NTKERNELAPI // ntifs VOID // ntifs ObMakeTemporaryObject( // ntifs IN PVOID Object // ntifs ); // ntifs // begin_ntosp NTKERNELAPI BOOLEAN ObFindHandleForObject( IN PEPROCESS Process, IN PVOID Object, IN POBJECT_TYPE ObjectType OPTIONAL, IN POBJECT_HANDLE_INFORMATION MatchCriteria OPTIONAL, OUT PHANDLE Handle ); // begin_ntddk begin_wdm begin_nthal begin_ntifs #define ObDereferenceObject(a) \ ObfDereferenceObject(a) #define ObReferenceObject(Object) ObfReferenceObject(Object) NTKERNELAPI LONG FASTCALL ObfReferenceObject( IN PVOID Object ); NTKERNELAPI NTSTATUS ObReferenceObjectByPointer( IN PVOID Object, IN ACCESS_MASK DesiredAccess, IN POBJECT_TYPE ObjectType, IN KPROCESSOR_MODE AccessMode ); NTKERNELAPI LONG FASTCALL ObfDereferenceObject( IN PVOID Object ); // end_ntddk end_wdm end_nthal end_ntifs end_ntosp NTKERNELAPI BOOLEAN FASTCALL ObReferenceObjectSafe ( IN PVOID Object ); NTKERNELAPI LONG FASTCALL ObReferenceObjectEx ( IN PVOID Object, IN ULONG Count ); LONG FASTCALL ObDereferenceObjectEx ( IN PVOID Object, IN ULONG Count ); NTSTATUS ObWaitForSingleObject( IN HANDLE Handle, IN BOOLEAN Alertable, IN PLARGE_INTEGER Timeout OPTIONAL ); VOID ObDereferenceObjectDeferDelete ( IN PVOID Object ); // begin_ntifs begin_ntosp NTKERNELAPI NTSTATUS ObQueryNameString( IN PVOID Object, OUT POBJECT_NAME_INFORMATION ObjectNameInfo, IN ULONG Length, OUT PULONG ReturnLength ); // end_ntifs end_ntosp #if DBG PUNICODE_STRING ObGetObjectName( IN PVOID Object ); #endif // DBG NTSTATUS ObQueryTypeName( IN PVOID Object, PUNICODE_STRING ObjectTypeName, IN ULONG Length, OUT PULONG ReturnLength ); NTSTATUS ObQueryTypeInfo( IN POBJECT_TYPE ObjectType, OUT POBJECT_TYPE_INFORMATION ObjectTypeInfo, IN ULONG Length, OUT PULONG ReturnLength ); NTSTATUS ObDumpObjectByHandle( IN HANDLE Handle, IN POB_DUMP_CONTROL Control OPTIONAL ); NTSTATUS ObDumpObjectByPointer( IN PVOID Object, IN POB_DUMP_CONTROL Control OPTIONAL ); NTSTATUS ObSetDeviceMap( IN PEPROCESS TargetProcess, IN HANDLE DirectoryHandle ); NTSTATUS ObQueryDeviceMapInformation( IN PEPROCESS TargetProcess, OUT PPROCESS_DEVICEMAP_INFORMATION DeviceMapInformation, IN ULONG Flags ); VOID ObInheritDeviceMap( IN PEPROCESS NewProcess, IN PEPROCESS ParentProcess ); VOID ObDereferenceDeviceMap( IN PEPROCESS Process ); // begin_ntifs begin_ntddk begin_wdm begin_ntosp NTSTATUS ObGetObjectSecurity( IN PVOID Object, OUT PSECURITY_DESCRIPTOR *SecurityDescriptor, OUT PBOOLEAN MemoryAllocated ); VOID ObReleaseObjectSecurity( IN PSECURITY_DESCRIPTOR SecurityDescriptor, IN BOOLEAN MemoryAllocated ); // end_ntifs end_ntddk end_wdm end_ntosp NTSTATUS ObLogSecurityDescriptor ( IN PSECURITY_DESCRIPTOR InputSecurityDescriptor, OUT PSECURITY_DESCRIPTOR *OutputSecurityDescriptor, ULONG RefBias ); VOID ObDereferenceSecurityDescriptor ( PSECURITY_DESCRIPTOR SecurityDescriptor, ULONG Count ); VOID ObReferenceSecurityDescriptor ( IN PSECURITY_DESCRIPTOR SecurityDescriptor, IN ULONG Count ); NTSTATUS ObAssignObjectSecurityDescriptor( IN PVOID Object, IN PSECURITY_DESCRIPTOR SecurityDescriptor OPTIONAL, IN POOL_TYPE PoolType ); NTSTATUS ObValidateSecurityQuota( IN PVOID Object, IN ULONG NewSize ); // begin_ntosp NTKERNELAPI BOOLEAN ObCheckCreateObjectAccess( IN PVOID DirectoryObject, IN ACCESS_MASK CreateAccess, IN PACCESS_STATE AccessState OPTIONAL, IN PUNICODE_STRING ComponentName, IN BOOLEAN TypeMutexLocked, IN KPROCESSOR_MODE PreviousMode, OUT PNTSTATUS AccessStatus ); NTKERNELAPI BOOLEAN ObCheckObjectAccess( IN PVOID Object, IN PACCESS_STATE AccessState, IN BOOLEAN TypeMutexLocked, IN KPROCESSOR_MODE AccessMode, OUT PNTSTATUS AccessStatus ); NTKERNELAPI NTSTATUS ObAssignSecurity( IN PACCESS_STATE AccessState, IN PSECURITY_DESCRIPTOR ParentDescriptor OPTIONAL, IN PVOID Object, IN POBJECT_TYPE ObjectType ); // end_ntosp NTSTATUS // ntifs ObQueryObjectAuditingByHandle( // ntifs IN HANDLE Handle, // ntifs OUT PBOOLEAN GenerateOnClose // ntifs ); // ntifs // begin_ntosp NTSTATUS ObSetSecurityObjectByPointer ( IN PVOID Object, IN SECURITY_INFORMATION SecurityInformation, IN PSECURITY_DESCRIPTOR SecurityDescriptor ); NTSTATUS ObSetHandleAttributes ( IN HANDLE Handle, IN POBJECT_HANDLE_FLAG_INFORMATION HandleFlags, IN KPROCESSOR_MODE PreviousMode ); NTSTATUS ObCloseHandle ( IN HANDLE Handle, IN KPROCESSOR_MODE PreviousMode ); // end_ntosp #if DEVL typedef BOOLEAN (*OB_ENUM_OBJECT_TYPE_ROUTINE)( IN PVOID Object, IN PUNICODE_STRING ObjectName, IN ULONG HandleCount, IN ULONG PointerCount, IN PVOID Parameter ); NTSTATUS ObEnumerateObjectsByType( IN POBJECT_TYPE ObjectType, IN OB_ENUM_OBJECT_TYPE_ROUTINE EnumerationRoutine, IN PVOID Parameter ); NTSTATUS ObGetHandleInformation( OUT PSYSTEM_HANDLE_INFORMATION HandleInformation, IN ULONG Length, OUT PULONG ReturnLength OPTIONAL ); NTSTATUS ObGetHandleInformationEx ( OUT PSYSTEM_HANDLE_INFORMATION_EX HandleInformation, IN ULONG Length, OUT PULONG ReturnLength OPTIONAL ); NTSTATUS ObGetObjectInformation( IN PCHAR UserModeBufferAddress, OUT PSYSTEM_OBJECTTYPE_INFORMATION ObjectInformation, IN ULONG Length, OUT PULONG ReturnLength OPTIONAL ); // begin_ntosp NTKERNELAPI NTSTATUS ObSetSecurityDescriptorInfo( IN PVOID Object, IN PSECURITY_INFORMATION SecurityInformation, IN OUT PSECURITY_DESCRIPTOR SecurityDescriptor, IN OUT PSECURITY_DESCRIPTOR *ObjectsSecurityDescriptor, IN POOL_TYPE PoolType, IN PGENERIC_MAPPING GenericMapping ); // end_ntosp NTKERNELAPI NTSTATUS ObQuerySecurityDescriptorInfo( IN PVOID Object, IN PSECURITY_INFORMATION SecurityInformation, OUT PSECURITY_DESCRIPTOR SecurityDescriptor, IN OUT PULONG Length, IN PSECURITY_DESCRIPTOR *ObjectsSecurityDescriptor ); NTSTATUS ObDeassignSecurity ( IN OUT PSECURITY_DESCRIPTOR *SecurityDescriptor ); VOID ObAuditObjectAccess( IN HANDLE Handle, IN POBJECT_HANDLE_INFORMATION HandleInformation OPTIONAL, IN KPROCESSOR_MODE AccessMode, IN ACCESS_MASK DesiredAccess ); NTKERNELAPI VOID FASTCALL ObInitializeFastReference ( IN PEX_FAST_REF FastRef, IN PVOID Object ); NTKERNELAPI PVOID FASTCALL ObFastReferenceObject ( IN PEX_FAST_REF FastRef ); NTKERNELAPI PVOID FASTCALL ObFastReferenceObjectLocked ( IN PEX_FAST_REF FastRef ); NTKERNELAPI VOID FASTCALL ObFastDereferenceObject ( IN PEX_FAST_REF FastRef, IN PVOID Object ); NTKERNELAPI PVOID FASTCALL ObFastReplaceObject ( IN PEX_FAST_REF FastRef, IN PVOID Object ); #endif // DEVL #endif // _OB_