//+----------------------------------------------------------------------- // // Microsoft Windows // // Copyright (c) Microsoft Corporation 2000 // // File: A D T G E N . H // // Contents: definitions of types/functions required for // generating generic audits. // // !!!WARNING!!! // This file is included by lsarpc.idl, therefore, if you // change it, make sure to clean build the entire DS depot. // // // History: // 07-January-2000 kumarp created // //------------------------------------------------------------------------ #ifndef _ADTGEN_H #define _ADTGEN_H // // type of audit // // AUDIT_TYPE_LEGACY // In this case the audit event schema is stored in a .mc file. // // AUDIT_TYPE_WMI // The schema is stored in WMI. (currently not supported) // #define AUDIT_TYPE_LEGACY 1 #define AUDIT_TYPE_WMI 2 // // Type of parameters passed in the AUDIT_PARAMS.Parameters array // // Use the AdtInitParams function to initialize and prepare // an array of audit parameters. // typedef enum _AUDIT_PARAM_TYPE { // // do we need this? // APT_None = 1, // // NULL terminated string // APT_String, // // unsigned long // APT_Ulong, // // a pointer. use for specifying handles/pointers // (32 bit on 32 bit systems and 64 bit on 64 bit systems) // Note that the memory to which the pointer points to // is not marshalled when using this type. Use this when you // are interested in the absolute value of the pointer. // A good example of this is when specifying HANDLE values. // APT_Pointer, // // SID // APT_Sid, // // Logon ID (LUID) // APT_LogonId, // // Object Type List // APT_ObjectTypeList, // // Luid (not translated to LogonId) // APT_Luid, // // Guid // APT_Guid, // // Time (FILETIME) // APT_Time, // // ULONGLONG // APT_Int64 } AUDIT_PARAM_TYPE; // // There are two types of flags that can be used with a parameter. // // - formatting flag // This defines the appearance of a parameter when // written to the eventlog. Such flags may become obsolete // when we move to WMI auditing. // // - control flag // This causes a specified action to be taken that affects // a parameter value. // // For example: // If you use the AP_PrimaryLogonId/AP_ClientLogonId flag, // the system will capture the logon-id from the process/thread token. // #define AP_ParamTypeBits 8 #define AP_ParamTypeMask 0x000000ffL // // the flags values below have overlapping values. this is ok since // the scope of each flag is limited to the type to which it applies. // // // APT_Ulong : format flag : causes a number to appear in hex // #define AP_FormatHex (0x0001L << AP_ParamTypeBits) // // APT_Ulong : format flag : causes a number to be treated as access-mask. // The meaning of each bit depends on the associated // object type. // #define AP_AccessMask (0x0002L << AP_ParamTypeBits) // // APT_String : format flag : causes a string to be treated as a file-path // #define AP_Filespec (0x0001L << AP_ParamTypeBits) // // APT_LogonId : control flag : logon-id is captured from the process token // #define AP_PrimaryLogonId (0x0001L << AP_ParamTypeBits) // // APT_LogonId : control flag : logon-id is captured from the thread token // #define AP_ClientLogonId (0x0002L << AP_ParamTypeBits) // // internal helper macros // #define ApExtractType(TypeFlags) ((AUDIT_PARAM_TYPE)(TypeFlags & AP_ParamTypeMask)) #define ApExtractFlags(TypeFlags) ((TypeFlags & ~AP_ParamTypeMask)) // // Element of an object-type-list // // The AUDIT_OBJECT_TYPES structure identifies an object type element // in a hierarchy of object types. The AccessCheckByType functions use // an array of such structures to define a hierarchy of an object and // its subobjects, such as property sets and properties. // typedef struct _AUDIT_OBJECT_TYPE { GUID ObjectType; // guid of the (sub)object USHORT Flags; // currently not defined USHORT Level; // level within the hierarchy. // 0 is the root level ACCESS_MASK AccessMask; // access-mask for this (sub)object } AUDIT_OBJECT_TYPE, *PAUDIT_OBJECT_TYPE; typedef struct _AUDIT_OBJECT_TYPES { USHORT Count; // number of object-types in pObjectTypes USHORT Flags; // currently not defined #ifdef MIDL_PASS [size_is(Count)] #endif AUDIT_OBJECT_TYPE* pObjectTypes; // array of object-types } AUDIT_OBJECT_TYPES, *PAUDIT_OBJECT_TYPES; // // Structure that defines a single audit parameter. // // LsaGenAuditEvent accepts an array of such elements to // represent the parameters of the audit to be generated. // // It is best to initialize this structure using AdtInitParams function. // This will ensure compatibility with any future changes to this // structure. // typedef struct _AUDIT_PARAM { AUDIT_PARAM_TYPE Type; // type ULONG Length; // currently unused DWORD Flags; // currently unused #ifdef MIDL_PASS [switch_type(AUDIT_PARAM_TYPE),switch_is(Type)] #endif union { #ifdef MIDL_PASS [default] #endif ULONG_PTR Data0; #ifdef MIDL_PASS [case(APT_String)] [string] #endif PWSTR String; #ifdef MIDL_PASS [case(APT_Ulong, APT_Pointer)] #endif ULONG_PTR u; #ifdef MIDL_PASS [case(APT_Sid)] #endif SID* psid; #ifdef MIDL_PASS [case(APT_Guid)] #endif GUID* pguid; #ifdef MIDL_PASS [case(APT_LogonId)] #endif ULONG LogonId_LowPart; #ifdef MIDL_PASS [case(APT_ObjectTypeList)] #endif AUDIT_OBJECT_TYPES* pObjectTypes; }; #ifdef MIDL_PASS [switch_type(AUDIT_PARAM_TYPE),switch_is(Type)] #endif union { #ifdef MIDL_PASS [default] #endif ULONG_PTR Data1; #ifdef MIDL_PASS [case(APT_LogonId)] #endif LONG LogonId_HighPart; }; } AUDIT_PARAM, *PAUDIT_PARAM; // // Audit control flags. To be used with AUDIT_PARAMS.Flags // #define APF_AuditFailure 0x00000000 // generate a failure audit #define APF_AuditSuccess 0x00000001 // generate a success audit when set, // a failure audit otherwise. // // set of valid audit control flags // #define APF_ValidFlags (APF_AuditSuccess) // // Audit parameters passed to LsaGenAuditEvent // typedef struct _AUDIT_PARAMS { ULONG Length; // size in bytes DWORD Flags; // currently unused USHORT Count; // number of parameters #ifdef MIDL_PASS [size_is(Count)] #endif AUDIT_PARAM* Parameters; // array of parameters } AUDIT_PARAMS, *PAUDIT_PARAMS; // // Defines the elements of a legacy audit event. // typedef struct _AUTHZ_AUDIT_EVENT_TYPE_LEGACY { // // Audit category ID // USHORT CategoryId; // // Audit event ID // USHORT AuditId; // // Parameter count // USHORT ParameterCount; } AUTHZ_AUDIT_EVENT_TYPE_LEGACY, *PAUTHZ_AUDIT_EVENT_TYPE_LEGACY; typedef #ifdef MIDL_PASS [switch_type(BYTE)] #endif union _AUTHZ_AUDIT_EVENT_TYPE_UNION { #ifdef MIDL_PASS [case(AUDIT_TYPE_LEGACY)] #endif AUTHZ_AUDIT_EVENT_TYPE_LEGACY Legacy; } AUTHZ_AUDIT_EVENT_TYPE_UNION, *PAUTHZ_AUDIT_EVENT_TYPE_UNION; // // description of an audit event // typedef struct _AUTHZ_AUDIT_EVENT_TYPE_OLD { // version number ULONG Version; DWORD dwFlags; LONG RefCount; ULONG_PTR hAudit; LUID LinkId; #ifdef MIDL_PASS [switch_is(Version)] #endif AUTHZ_AUDIT_EVENT_TYPE_UNION u; } AUTHZ_AUDIT_EVENT_TYPE_OLD; typedef #ifdef MIDL_PASS [handle] #endif AUTHZ_AUDIT_EVENT_TYPE_OLD* PAUTHZ_AUDIT_EVENT_TYPE_OLD; typedef #ifdef MIDL_PASS [context_handle] #endif PVOID AUDIT_HANDLE, *PAUDIT_HANDLE; // // Begin support for extensible auditing. // #define AUTHZ_ALLOW_MULTIPLE_SOURCE_INSTANCES 0x1 #define AUTHZ_AUDIT_INSTANCE_INFORMATION 0x2 #endif //_ADTGEN_H