Реализация OpenPerformanceData

Функция OpenPerformanceData предоставляет поставщику возможность инициализировать структуры данных о производительности. Система вызывает функцию open, когда потребитель впервые вызывает RegQueryValueEx или если потребитель использует функцию RegOpenKey или RegConnectRegistry для открытия HKEY_PERFORMANCE_DATA.

В следующем примере показана реализация функции OpenPerformanceData . Файл заголовка, содержащий определение счетчиков, используемых в этой функции, соответствует этому примеру. Если для реализации этой функции используется C++, обязательно используйте extern "C" при объявлении функции. Константы смещения счетчиков, используемые в этом примере, определяются в файле CounterOffsets.h, показанном в разделе Добавление имен счетчиков и описания в реестр.

#include "provider.h"


// Callback that the performance service calls once for each consumer that wants 
// to consume one or more of your counters. You can use this notification to 
// prepare the counter data structures and setup communications with the 
// application that is providing the actual performance data.
extern "C" DWORD APIENTRY OpenPerfData(LPWSTR pContext)
{
    DWORD FirstCounterIndex = 0;
    DWORD FirstHelpIndex = 0;
    DWORD DataSize = sizeof(DWORD);  // Used in the RegQueryValueEx call
    HKEY hkey;
    LONG rc = ERROR_SUCCESS;

    // Use g_OpenCount to prevent initializing the data more than once.
    
    if (g_OpenCount > 1)
    {
        goto cleanup;
    }

    // Retrieve the application specific context data
    // if you define an Export value under the 
    // HKLM\SYSTEM\CurrentControlSet\Services\MyProvider\Linkage key.
    // The context string is a REG_MULTI_SZ string.

    if (pContext)
    {
        for (; *pContext; pContext += (wcslen(pContext)+1))
        {
            // Do something with the string.
        }
    }

    // Retrieve the starting index values for your counters and help strings. You add 
    // your offset values (see Adding Counter Names and Descriptions to the Registry)
    // to these index values to determine your actual object and counter index values.

    rc = RegOpenKeyEx(HKEY_LOCAL_MACHINE, PERFORMANCE_REGISTRY_PATH, 0, KEY_READ, &hkey);
    if (ERROR_SUCCESS == rc)
    {
        rc = RegQueryValueEx(hkey, L"First Counter", NULL, NULL, (LPBYTE)&FirstCounterIndex, &DataSize);
        if (ERROR_SUCCESS == rc)
        {
            rc = RegQueryValueEx(hkey, L"First Help", NULL, NULL, (LPBYTE)&FirstHelpIndex, &DataSize);        
        }

        RegCloseKey(hkey);
    }

    // If you could not open the key or retrieve the value, exit.

    if (ERROR_SUCCESS != rc)
    {
        // If you return a non-success code, the service adds a Disable Performance 
        // Counters value to your Performance key to disable your provider.
        // Consider logging an event and returning success instead of failing.

        rc = ERROR_SUCCESS;
        goto cleanup;
    }

    // Initialize the Transfer object. This is a single instance object, so you can
    // initialize each member of the object and its counters.

    ZeroMemory(&g_Transfer, TransferSize);
    g_Transfer.Object.TotalByteLength = TransferSize;
    g_Transfer.Object.DefinitionLength = sizeof(PERF_OBJECT_TYPE) + 
        sizeof(PERF_COUNTER_DEFINITION) * NumberOfTransferCounters;
    g_Transfer.Object.HeaderLength = sizeof(PERF_OBJECT_TYPE);
    g_TransferIndex = FirstCounterIndex;
    g_Transfer.Object.ObjectNameTitleIndex = g_TransferIndex;
    g_Transfer.Object.ObjectHelpTitleIndex = FirstHelpIndex;
    g_Transfer.Object.DetailLevel = PERF_DETAIL_ADVANCED;
    g_Transfer.Object.NumCounters = NumberOfTransferCounters;
    g_Transfer.Object.DefaultCounter = -1;  // No default counter
    g_Transfer.Object.NumInstances = PERF_NO_INSTANCES;

    // Initialize the bytes sent counter.

    g_Transfer.BytesSentCounter.ByteLength = sizeof(PERF_COUNTER_DEFINITION);
    g_Transfer.BytesSentCounter.CounterNameTitleIndex = FirstCounterIndex + BYTES_SENT;
    g_Transfer.BytesSentCounter.CounterHelpTitleIndex = FirstHelpIndex + BYTES_SENT;
    g_Transfer.BytesSentCounter.DetailLevel = PERF_DETAIL_ADVANCED;
    g_Transfer.BytesSentCounter.CounterType = PERF_COUNTER_RAWCOUNT;
    g_Transfer.BytesSentCounter.CounterSize = sizeof(DWORD);
    g_Transfer.BytesSentCounter.CounterOffset = BytesSentOffset;

    // Initialize the available bandwidth counter.

    g_Transfer.AvailableBandwidthCounter.ByteLength = sizeof(PERF_COUNTER_DEFINITION);
    g_Transfer.AvailableBandwidthCounter.CounterNameTitleIndex = FirstCounterIndex + AVAILABLE_BANDWIDTH;
    g_Transfer.AvailableBandwidthCounter.CounterHelpTitleIndex = FirstHelpIndex + AVAILABLE_BANDWIDTH;
    g_Transfer.AvailableBandwidthCounter.DetailLevel = PERF_DETAIL_ADVANCED;
    g_Transfer.AvailableBandwidthCounter.CounterType = PERF_RAW_FRACTION;
    g_Transfer.AvailableBandwidthCounter.CounterSize = sizeof(DWORD);
    g_Transfer.AvailableBandwidthCounter.CounterOffset = AvailableBandwidthOffset;

    // Initialize the total bandwidth counter. This is a base counter for the
    // available bandwidth counter. You do not specify index values for base counters.

    g_Transfer.TotalBandwidthBaseCounter.ByteLength = sizeof(PERF_COUNTER_DEFINITION);
    g_Transfer.TotalBandwidthBaseCounter.CounterType = PERF_RAW_BASE;
    g_Transfer.TotalBandwidthBaseCounter.CounterSize = sizeof(DWORD);
    g_Transfer.TotalBandwidthBaseCounter.CounterOffset = TotalBandwidthBaseOffset;

    // Specify the size of the counter block which contains the raw counter values. 

    g_Transfer.CounterBlock.ByteLength = EndOfTransferData;

    // Initialize the Peer object. This is a multiple instance object. You cannot 
    // initialize all members of the Peer object because you do not know how 
    // many instances there will be until the object data is queried. You set 
    // the TotalByteLength and NumInstances members in the CollectPerfData function.

    ZeroMemory(&g_Peer, sizeof(PEER));
    g_Peer.Object.DefinitionLength = sizeof(PERF_OBJECT_TYPE) + 
        sizeof(PERF_COUNTER_DEFINITION) * NumberOfPeerCounters;
    g_Peer.Object.HeaderLength = sizeof(PERF_OBJECT_TYPE);
    g_PeerIndex = FirstCounterIndex + PEER_OBJECT;
    g_Peer.Object.ObjectNameTitleIndex = g_PeerIndex;
    g_Peer.Object.ObjectHelpTitleIndex = FirstHelpIndex + PEER_OBJECT;
    g_Peer.Object.DetailLevel = PERF_DETAIL_ADVANCED;
    g_Peer.Object.NumCounters = NumberOfPeerCounters;
    g_Peer.Object.DefaultCounter = -1;  // No default counter

    // Initialize the bytes served counter.

    g_Peer.BytesServedCounter.ByteLength = sizeof(PERF_COUNTER_DEFINITION);
    g_Peer.BytesServedCounter.CounterNameTitleIndex = FirstCounterIndex + BYTES_SERVED;
    g_Peer.BytesServedCounter.CounterHelpTitleIndex = FirstHelpIndex + BYTES_SERVED;
    g_Peer.BytesServedCounter.DetailLevel = PERF_DETAIL_ADVANCED;
    g_Peer.BytesServedCounter.CounterType = PERF_COUNTER_RAWCOUNT;
    g_Peer.BytesServedCounter.CounterSize = sizeof(DWORD);
    g_Peer.BytesServedCounter.CounterOffset = BytesServedOffset;

    InterlockedIncrement(&g_OpenCount);  // Decremented in ClosePerfData

cleanup:
    
    return rc;
}

Ниже приведен файл заголовка, используемый в этом примере.

#ifndef _PROVIDER_H
#define _PROVIDER_H

#include <windows.h>
#include <strsafe.h>
#include "CounterOffsets.h"

extern "C" DWORD APIENTRY OpenPerfData(LPWSTR pContext);
extern "C" DWORD APIENTRY CollectPerfData(LPWSTR pQuery, PVOID* ppData, LPDWORD pcbData, LPDWORD pObjectsReturned);
extern "C" DWORD APIENTRY ClosePerfData();
BOOL IsQuerySupported(LPWSTR pQuery, DWORD* pQueriedObjects);
DWORD GetQuerySize(DWORD QueriedObjects);

// Define the Transfer counter object. This object is a single 
// instance counter object, so you can define it completely.
typedef struct _transfer 
{
    PERF_OBJECT_TYPE Object;
    PERF_COUNTER_DEFINITION BytesSentCounter;
    PERF_COUNTER_DEFINITION AvailableBandwidthCounter;
    PERF_COUNTER_DEFINITION TotalBandwidthBaseCounter;
    PERF_COUNTER_BLOCK CounterBlock;
    DWORD BytesSentData;
    DWORD AvailableBandwidthData;
    DWORD TotalBandwidthData;
} TRANSFER, *PTRANSFER;

// Define offsets to counter data
#define BytesSentOffset sizeof(PERF_COUNTER_BLOCK)
#define AvailableBandwidthOffset BytesSentOffset + sizeof(DWORD)
#define TotalBandwidthBaseOffset AvailableBandwidthOffset + sizeof(DWORD)
#define EndOfTransferData TotalBandwidthBaseOffset + sizeof(DWORD)
#define TransferSize sizeof(TRANSFER)

#define NumberOfTransferCounters 3

#define MAX_INSTANCE_NAME_LEN 15 

// Define the Peer counter object. This object is a multiple
// instance object, so you must define the object and instances
// separately.
typedef struct _peer {
  PERF_OBJECT_TYPE Object;
  PERF_COUNTER_DEFINITION BytesServedCounter;
} PEER, *PPEER;

typedef struct _peerinstance {
  PERF_INSTANCE_DEFINITION Instance;
  WCHAR InstanceName[MAX_INSTANCE_NAME_LEN+1];
  PERF_COUNTER_BLOCK CounterBlock;
  DWORD BytesServedData;
} PEER_INSTANCE, *PPEER_INSTANCE;

#define BytesServedOffset sizeof(PERF_COUNTER_BLOCK)
#define EndOfPeerData BytesServedOffset + sizeof(DWORD)
#define NumberOfPeerCounters 1

// For this example, the instances are static, so predefine the names.
#define INSTANCE_NAME_1 L"Peer 1"
#define INSTANCE_NAME_2 L"Peer 2"
#define PERFORMANCE_REGISTRY_PATH L"SYSTEM\\CurrentControlSet\\Services\\MyApplication\\Performance"

typedef enum _queriedflags { 
  QUERIED_TRANSFER_OBJECT = 1,
  QUERIED_PEER_OBJECT = 2,
  QUERIED_ALL_OBJECTS = 0xFFFF
} QUERIED_FLAGS;

//Globals
TRANSFER g_Transfer;             // Transfer object
PEER g_Peer;                     // Peer object
DWORD g_TransferIndex = 0;       // Index value for the Transfer object
DWORD g_PeerIndex = 0;           // Index value for the Peer object
DWORD g_QueriedObjects = 0;      // Objects that were queried
UNALIGNED LONG g_OpenCount = 0;  // Reference count for the number of times
                                 // that OpenPerfData is called.
#endif

В следующем примере показан файл определения модуля (DEF), используемый для экспорта функций открытия, сбора и закрытия.

LIBRARY    "PerfProvider"

EXPORTS
    OpenPerfData    @1
    CollectPerfData    @2
    ClosePerfData    @3

В следующем примере показана реализация функции ClosePerformanceData . Система вызывает функцию close, когда потребитель вызывает RegCloseKey для закрытия HKEY_PERFORMANCE_DATA. Поставщики используют этот вызов, чтобы освободить все выделенные ресурсы.

// Callback that the performance service calls once for each consumer that has
// finished consuming your performance counters. Cleanup any resources that 
// you allocated for your performance counters.
extern "C" DWORD APIENTRY ClosePerfData(void)
{
    if (g_OpenCount > 0)
    {
        InterlockedDecrement(&g_OpenCount);
    }

    return ERROR_SUCCESS;
}