s4:dsdb/acl_read: specify the correct access_mask for nTSecurityDescriptor

[Samba/gebeck_regimport.git] / source3 / librpc / idl / perfcount.idl

#include "idl_types.h"

/*
   IDL structures for perfcount code
*/

[
        pointer_default(unique)
]
        interface perfcount
{
        const int PERF_NO_INSTANCES             = -1;
        const int PERF_NO_UNIQUE_ID             = -1;

        /* These determine the data size */
        const int PERF_SIZE_DWORD               = 0x00000000;
        const int PERF_SIZE_LARGE               = 0x00000100;
        const int PERF_SIZE_ZERO                = 0x00000200;
        const int PERF_SIZE_VARIABLE_LEN        = 0x00000300;

        /* These determine the usage of the counter */
        const int PERF_TYPE_NUMBER              = 0x00000000;
        const int PERF_TYPE_COUNTER             = 0x00000400;
        const int PERF_TYPE_TEXT                = 0x00000800;
        const int PERF_TYPE_ZERO                = 0x00000C00;

        /* If PERF_TYPE_NUMBER was selected, these provide display information */
        const int PERF_NUMBER_HEX               = 0x00000000;
        const int PERF_NUMBER_DECIMAL           = 0x00010000;
        const int PERF_NUMBER_DEC_1000          = 0x00020000;

        /* If PERF_TYPE_COUNTER was selected, these provide display information */
        const int PERF_COUNTER_VALUE            = 0x00000000;
        const int PERF_COUNTER_RATE             = 0x00010000;
        const int PERF_COUNTER_FRACTION         = 0x00020000;
        const int PERF_COUNTER_BASE             = 0x00030000;
        const int PERF_COUNTER_ELAPSED          = 0x00040000;
        const int PERF_COUNTER_QUEUELEN         = 0x00050000;
        const int PERF_COUNTER_HISTOGRAM        = 0x00060000;
        const int PERF_COUNTER_PRECISION        = 0x00070000;

        /* If PERF_TYPE_TEXT was selected, these provide display information */
        const int PERF_TEXT_UNICODE             = 0x00000000;
        const int PERF_TEXT_ASCII               = 0x00010000;

        /* These provide information for which tick count to use when computing elapsed interval */
        const int PERF_TIMER_TICK               = 0x00000000;
        const int PERF_TIMER_100NS              = 0x00100000;
        const int PERF_OBJECT_TIMER             = 0x00200000;

        /* These affect how the data is manipulated prior to being displayed */
        const int PERF_DELTA_COUNTER            = 0x00400000;
        const int PERF_DELTA_BASE               = 0x00800000;
        const int PERF_INVERSE_COUNTER          = 0x01000000;
        const int PERF_MULTI_COUNTER            = 0x02000000;

        /* These determine if any text gets added when the value is displayed */
        const int PERF_DISPLAY_NO_SUFFIX        = 0x00000000;
        const int PERF_DISPLAY_PER_SEC          = 0x10000000;
        const int PERF_DISPLAY_PERCENT          = 0x20000000;
        const int PERF_DISPLAY_SECONDS          = 0x30000000;
        const int PERF_DISPLAY_NOSHOW           = 0x40000000;

        /* These determine the DetailLevel of the counter */
        const int PERF_DETAIL_NOVICE            = 100;
        const int PERF_DETAIL_ADVANCED          = 200;
        const int PERF_DETAIL_EXPERT            = 300;
        const int PERF_DETAIL_WIZARD            = 400;

        typedef struct {
                uint16 year;
                uint16 month;
                uint16 dayofweek;
                uint16 day;
                uint16 hour;
                uint16 minute;
                uint16 second;
                uint16 milliseconds;
        } SYSTEMTIME;

        typedef [public] struct {
                /* sizeof(PERF_COUNTER_DEFINITION) */
                uint32 ByteLength;
                uint32 CounterNameTitleIndex;
                uint32 CounterNameTitlePointer;
                uint32 CounterHelpTitleIndex;
                uint32 CounterHelpTitlePointer;
                uint32 DefaultScale;
                uint32 DetailLevel;
                uint32 CounterType;
                uint32 CounterSize;
                uint32 CounterOffset;
        } PERF_COUNTER_DEFINITION;

        typedef [public] struct {
                /* Total size of the data block, including all data plus this header */
                uint32 ByteLength;
                uint8 data[ByteLength];
        } PERF_COUNTER_BLOCK;

        typedef [public] struct {
                /* Total size of the instance definition, including the length of the terminated Name string */
                uint32 ByteLength;
                uint32 ParentObjectTitleIndex;
                uint32 ParentObjectTitlePointer;
                uint32 UniqueID;
                /* From the start of the PERF_INSTANCE_DEFINITION, the byte offset to the start of the Name string */
                uint32 NameOffset;
                uint32 NameLength;
                /* Unicode string containing the name for the instance */
                uint8 *data;
                PERF_COUNTER_BLOCK counter_data;
        } PERF_INSTANCE_DEFINITION;

        typedef [public] struct {
                /* Total size of the object block, including all PERF_INSTANCE_DEFINITIONs,
                   PERF_COUNTER_DEFINITIONs and PERF_COUNTER_BLOCKs in bytes */
                uint32 TotalByteLength;
                /* Size of this PERF_OBJECT_TYPE plus all PERF_COUNTER_DEFINITIONs in bytes */
                uint32 DefinitionLength;
                /* Size of this PERF_OBJECT_TYPE */
                uint32 HeaderLength;
                uint32 ObjectNameTitleIndex;
                uint32 ObjectNameTitlePointer;
                uint32 ObjectHelpTitleIndex;
                uint32 ObjectHelpTitlePointer;
                uint32 DetailLevel;
                uint32 NumCounters;
                uint32 DefaultCounter;
                uint32 NumInstances;
                uint32 CodePage;
                hyper PerfTime;
                hyper PerfFreq;
                PERF_COUNTER_DEFINITION counters[NumCounters];
                PERF_INSTANCE_DEFINITION instances[NumInstances];
                PERF_COUNTER_BLOCK counter_data;
        } PERF_OBJECT_TYPE;

        /* PerfCounter Inner Buffer structs */
        typedef [public] struct {
                /* hardcoded to read "P.E.R.F" */
                uint16 Signature[4];
                uint32 LittleEndian;
                /* both currently hardcoded to 1 */
                uint32 Version;
                uint32 Revision;
                /* bytes of PERF_OBJECT_TYPE data, does NOT include the PERF_DATA_BLOCK */
                uint32 TotalByteLength;
                /* size of PERF_DATA_BLOCK including the uint8 *data */
                uint32 HeaderLength;
                /* number of PERF_OBJECT_TYPE structures encoded */
                uint32 NumObjectTypes;
                uint32 DefaultObject;
                SYSTEMTIME SystemTime;
                /* This will guarantee that we're on a 64-bit boundary before we encode
                   PerfTime, and having it there will make my offset math much easier. */
                uint32 Padding;
                /* Now when I'm marshalling this, I'll need to call prs_align_uint64()
                   before I start encodint the uint64 structs */
                /* clock rate * seconds uptime */
                hyper PerfTime;
                /* The clock rate of the CPU */
                hyper PerfFreq;
                /* used for high-res timers -- for now PerfTime * 10e7 */
                hyper PerfTime100nSec;
                uint32 SystemNameLength;
                uint32 SystemNameOffset;
                /* The SystemName, in unicode, terminated */
                uint8* data;
                PERF_OBJECT_TYPE objects[NumObjectTypes];
        } PERF_DATA_BLOCK;
}