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Consultando informações de evento

O exemplo a seguir mostra como abrir um log de eventos, ler eventos do log, imprimir informações sobre os eventos e fechar o log de eventos. Este exemplo filtra os eventos gravados pelo exemplo em Relatando um evento.

#include <windows.h>
#include <stdio.h>
#include <strsafe.h>

#define PROVIDER_NAME           L"MyEventProvider"
#define RESOURCE_DLL            L"<path>\\Provider.dll"
#define MAX_TIMESTAMP_LEN       23 + 1   // mm/dd/yyyy hh:mm:ss.mmm
#define MAX_RECORD_BUFFER_SIZE  0x10000  // 64K

HANDLE GetMessageResources();
DWORD DumpRecordsInBuffer(PBYTE pBuffer, DWORD dwBytesRead);
DWORD GetEventTypeName(DWORD EventType);
LPWSTR GetMessageString(DWORD Id, DWORD argc, LPWSTR args);
void GetTimestamp(const DWORD Time, WCHAR DisplayString[]);
DWORD ApplyParameterStringsToMessage(CONST LPCWSTR pMessage, LPWSTR & pFinalMessage);

CONST LPWSTR pEventTypeNames[] = {L"Error", L"Warning", L"Informational", L"Audit Success", L"Audit Failure"};


HANDLE g_hResources = NULL;


void wmain(void)
{
    HANDLE hEventLog = NULL;
    DWORD status = ERROR_SUCCESS;
    DWORD dwBytesToRead = 0;
    DWORD dwBytesRead = 0;
    DWORD dwMinimumBytesToRead = 0;
    PBYTE pBuffer = NULL;
    PBYTE pTemp = NULL;

    // The source name (provider) must exist as a subkey of Application.
    hEventLog = OpenEventLog(NULL, PROVIDER_NAME);
    if (NULL == hEventLog)
    {
        wprintf(L"OpenEventLog failed with 0x%x.\n", GetLastError());
        goto cleanup;
    }

    // Get the DLL that contains the string resources for the provider.
    g_hResources = GetMessageResources();
    if (NULL == g_hResources)
    {
        wprintf(L"GetMessageResources failed.\n");
        goto cleanup;
    }

    // Allocate an initial block of memory used to read event records. The number 
    // of records read into the buffer will vary depending on the size of each event.
    // The size of each event will vary based on the size of the user-defined
    // data included with each event, the number and length of insertion 
    // strings, and other data appended to the end of the event record.
    dwBytesToRead = MAX_RECORD_BUFFER_SIZE;
    pBuffer = (PBYTE)malloc(dwBytesToRead);
    if (NULL == pBuffer)
    {
        wprintf(L"Failed to allocate the initial memory for the record buffer.\n");
        goto cleanup;
    }

    // Read blocks of records until you reach the end of the log or an 
    // error occurs. The records are read from newest to oldest. If the buffer
    // is not big enough to hold a complete event record, reallocate the buffer.
    while (ERROR_SUCCESS == status)
    {
        if (!ReadEventLog(hEventLog, 
            EVENTLOG_SEQUENTIAL_READ | EVENTLOG_BACKWARDS_READ,
            0, 
            pBuffer,
            dwBytesToRead,
            &dwBytesRead,
            &dwMinimumBytesToRead))
        {
            status = GetLastError();
            if (ERROR_INSUFFICIENT_BUFFER == status)
            {
                status = ERROR_SUCCESS;

                pTemp = (PBYTE)realloc(pBuffer, dwMinimumBytesToRead);
                if (NULL == pTemp)
                {
                    wprintf(L"Failed to reallocate the memory for the record buffer (%d bytes).\n", dwMinimumBytesToRead);
                    goto cleanup;
                }

                pBuffer = pTemp;
                dwBytesToRead = dwMinimumBytesToRead;
            }
            else 
            {
                if (ERROR_HANDLE_EOF != status)
                {
                    wprintf(L"ReadEventLog failed with %lu.\n", status);
                    goto cleanup;
                }
            }
        }
        else
        {
            // Print the contents of each record in the buffer.
            DumpRecordsInBuffer(pBuffer, dwBytesRead);
        }
    }

cleanup:

    if (hEventLog)
        CloseEventLog(hEventLog);

    if (pBuffer)
        free(pBuffer);
}


// Get the provider DLL that contains the string resources for the
// category strings, event message strings, and parameter insert strings.
// For this example, the path to the DLL is hardcoded but typically,
// you would read the CategoryMessageFile, EventMessageFile, and 
// ParameterMessageFile registry values under the source's registry key located 
// under \SYSTEM\CurrentControlSet\Services\Eventlog\Application in
// the HKLM registry hive. In this example, all resources are included in
// the same resource-only DLL.
HANDLE GetMessageResources()
{
    HANDLE hResources = NULL;

    hResources = LoadLibraryEx(RESOURCE_DLL, NULL, LOAD_LIBRARY_AS_IMAGE_RESOURCE | LOAD_LIBRARY_AS_DATAFILE);
    if (NULL == hResources)
    {
        wprintf(L"LoadLibrary failed with %lu.\n", GetLastError());
    }

    return hResources;
}


// Loop through the buffer and print the contents of each record 
// in the buffer.
DWORD DumpRecordsInBuffer(PBYTE pBuffer, DWORD dwBytesRead)
{
    DWORD status = ERROR_SUCCESS;
    PBYTE pRecord = pBuffer;
    PBYTE pEndOfRecords = pBuffer + dwBytesRead;
    LPWSTR pMessage = NULL;
    LPWSTR pFinalMessage = NULL;
    WCHAR TimeStamp[MAX_TIMESTAMP_LEN];

    while (pRecord < pEndOfRecords)
    {
        // If the event was written by our provider, write the contents of the event.
        if (0 == wcscmp(PROVIDER_NAME, (LPWSTR)(pRecord + sizeof(EVENTLOGRECORD))))
        {
            GetTimestamp(((PEVENTLOGRECORD)pRecord)->TimeGenerated, TimeStamp);
            wprintf(L"Time stamp: %s\n", TimeStamp);
            wprintf(L"record number: %lu\n", ((PEVENTLOGRECORD)pRecord)->RecordNumber);
            wprintf(L"status code: %d\n", ((PEVENTLOGRECORD)pRecord)->EventID & 0xFFFF);
            wprintf(L"event type: %s\n", pEventTypeNames[GetEventTypeName(((PEVENTLOGRECORD)pRecord)->EventType)]);

            pMessage = GetMessageString(((PEVENTLOGRECORD)pRecord)->EventCategory, 0, NULL);

            if (pMessage)
            {
                wprintf(L"event category: %s", pMessage);
                LocalFree(pMessage);
                pMessage = NULL;
            }

            pMessage = GetMessageString(((PEVENTLOGRECORD)pRecord)->EventID, 
                ((PEVENTLOGRECORD)pRecord)->NumStrings, (LPWSTR)(pRecord + ((PEVENTLOGRECORD)pRecord)->StringOffset));

            if (pMessage)
            {
                status = ApplyParameterStringsToMessage(pMessage, pFinalMessage);

                wprintf(L"event message: %s", (pFinalMessage) ? pFinalMessage : pMessage);
                LocalFree(pMessage);
                pMessage = NULL;

                if (pFinalMessage)
                {
                    free(pFinalMessage);
                    pFinalMessage = NULL;
                }
            }


            // To write the event data, you need to know the format of the data. In
            // this example, we know that the event data is a null-terminated string.
            if (((PEVENTLOGRECORD)pRecord)->DataLength > 0)
            {
                wprintf(L"event data: %s\n", (LPWSTR)(pRecord + ((PEVENTLOGRECORD)pRecord)->DataOffset));
            }

            wprintf(L"\n");
        }

        pRecord += ((PEVENTLOGRECORD)pRecord)->Length;
    }

    return status;
}


// Get an index value to the pEventTypeNames array based on 
// the event type value.
DWORD GetEventTypeName(DWORD EventType)
{
    DWORD index = 0;

    switch (EventType)
    {
        case EVENTLOG_ERROR_TYPE:
            index = 0;
            break;
        case EVENTLOG_WARNING_TYPE:
            index = 1;
            break;
        case EVENTLOG_INFORMATION_TYPE:
            index = 2;
            break;
        case EVENTLOG_AUDIT_SUCCESS:
            index = 3;
            break;
        case EVENTLOG_AUDIT_FAILURE:
            index = 4;
            break;
    }

    return index;
}


// Formats the specified message. If the message uses inserts, build
// the argument list to pass to FormatMessage.
LPWSTR GetMessageString(DWORD MessageId, DWORD argc, LPWSTR argv)
{
    LPWSTR pMessage = NULL;
    DWORD dwFormatFlags = FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_FROM_HMODULE | FORMAT_MESSAGE_ALLOCATE_BUFFER;
    DWORD_PTR* pArgs = NULL;
    LPWSTR pString = argv;

    // The insertion strings appended to the end of the event record
    // are an array of strings; however, FormatMessage requires
    // an array of addresses. Create an array of DWORD_PTRs based on
    // the count of strings. Assign the address of each string
    // to an element in the array (maintaining the same order).
    if (argc > 0)
    {
        pArgs = (DWORD_PTR*)malloc(sizeof(DWORD_PTR) * argc);
        if (pArgs)
        {
            dwFormatFlags |= FORMAT_MESSAGE_ARGUMENT_ARRAY;

            for (DWORD i = 0; i < argc; i++)
            {
                pArgs[i] = (DWORD_PTR)pString;
                pString += wcslen(pString) + 1;
            }
        }
        else
        {
            dwFormatFlags |= FORMAT_MESSAGE_IGNORE_INSERTS;
            wprintf(L"Failed to allocate memory for the insert string array.\n");
        }
    }

    if (!FormatMessage(dwFormatFlags,
                       g_hResources,
                       MessageId,
                       0,  
                       (LPWSTR)&pMessage, 
                       0, 
                       (va_list*)pArgs))
    {
        wprintf(L"Format message failed with %lu\n", GetLastError());
    }

    if (pArgs)
        free(pArgs);

    return pMessage;
}

// If the message string contains parameter insertion strings (for example, %%4096),
// you must perform the parameter substitution yourself. To get the parameter message 
// string, call FormatMessage with the message identifier found in the parameter insertion 
// string (for example, 4096 is the message identifier if the parameter insertion string
// is %%4096). You then substitute the parameter insertion string in the message 
// string with the actual parameter message string. 
DWORD ApplyParameterStringsToMessage(CONST LPCWSTR pMessage, LPWSTR & pFinalMessage)
{
    DWORD status = ERROR_SUCCESS;
    DWORD dwParameterCount = 0;  // Number of insertion strings found in pMessage
    size_t cbBuffer = 0;         // Size of the buffer in bytes
    size_t cchBuffer = 0;        // Size of the buffer in characters
    size_t cchParameters = 0;    // Number of characters in all the parameter strings
    size_t cch = 0;
    DWORD i = 0;
    LPWSTR* pStartingAddresses = NULL;  // Array of pointers to the beginning of each parameter string in pMessage
    LPWSTR* pEndingAddresses = NULL;    // Array of pointers to the end of each parameter string in pMessage
    DWORD* pParameterIDs = NULL;        // Array of parameter identifiers found in pMessage
    LPWSTR* pParameters = NULL;         // Array of the actual parameter strings
    LPWSTR pTempMessage = (LPWSTR)pMessage;
    LPWSTR pTempFinalMessage = NULL;

    // Determine the number of parameter insertion strings in pMessage.
    while (pTempMessage = wcschr(pTempMessage, L'%'))
    {
        if (isdigit(*(pTempMessage + 1))) {
            dwParameterCount++;
        }
        pTempMessage++;
    }

    // If there are no parameter insertion strings in pMessage, return.
    if (0 == dwParameterCount)
    {
        pFinalMessage = NULL;
        goto cleanup;
    }

    // Allocate an array of pointers that will contain the beginning address 
    // of each parameter insertion string.
    cbBuffer = sizeof(LPWSTR) * dwParameterCount;
    pStartingAddresses = (LPWSTR*)malloc(cbBuffer);
    if (NULL == pStartingAddresses)
    {
        wprintf(L"Failed to allocate memory for pStartingAddresses.\n");
        status = ERROR_OUTOFMEMORY;
        goto cleanup;
    }

    RtlZeroMemory(pStartingAddresses, cbBuffer);

    // Allocate an array of pointers that will contain the ending address (one
    // character past the of the identifier) of the each parameter insertion string.
    pEndingAddresses = (LPWSTR*)malloc(cbBuffer);
    if (NULL == pEndingAddresses)
    {
        wprintf(L"Failed to allocate memory for pEndingAddresses.\n");
        status = ERROR_OUTOFMEMORY;
        goto cleanup;
    }

    RtlZeroMemory(pEndingAddresses, cbBuffer);

    // Allocate an array of pointers that will contain pointers to the actual
    // parameter strings.
    pParameters = (LPWSTR*)malloc(cbBuffer);
    if (NULL == pParameters)
    {
        wprintf(L"Failed to allocate memory for pEndingAddresses.\n");
        status = ERROR_OUTOFMEMORY;
        goto cleanup;
    }

    RtlZeroMemory(pParameters, cbBuffer);

    // Allocate an array of DWORDs that will contain the message identifier
    // for each parameter.
    pParameterIDs = (DWORD*)malloc(cbBuffer);
    if (NULL == pParameterIDs)
    {
        wprintf(L"Failed to allocate memory for pParameterIDs.\n");
        status = ERROR_OUTOFMEMORY;
        goto cleanup;
    }

    RtlZeroMemory(pParameterIDs, cbBuffer);

    // Find each parameter in pMessage and get the pointer to the
    // beginning of the insertion string, the end of the insertion string,
    // and the message identifier of the parameter.
    pTempMessage = (LPWSTR)pMessage;
    while (pTempMessage = wcschr(pTempMessage, L'%'))
    {
        if (isdigit(*(pTempMessage+1)))
        {
            pStartingAddresses[i] = pTempMessage;

            pTempMessage++;
            pParameterIDs[i] = (DWORD)_wtoi(pTempMessage);

            while (isdigit(*++pTempMessage))
                ;

            pEndingAddresses[i] = pTempMessage;

            i++;
        }
        else {
            pTempMessage++;
        }
    }

    // For each parameter, use the message identifier to get the
    // actual parameter string.
    for (DWORD i = 0; i < dwParameterCount; i++)
    {
        pParameters[i] = GetMessageString(pParameterIDs[i], 0, NULL);
        if (NULL == pParameters[i])
        {
            wprintf(L"GetMessageString could not find parameter string for insert %lu.\n", i);
            status = ERROR_INVALID_PARAMETER;
            goto cleanup;
        }

        cchParameters += wcslen(pParameters[i]);
    }

    // Allocate enough memory for pFinalMessage based on the length of pMessage
    // and the length of each parameter string. The pFinalMessage buffer will contain 
    // the completed parameter substitution.
    pTempMessage = (LPWSTR)pMessage;
    cbBuffer = (wcslen(pMessage) + cchParameters + 1) * sizeof(WCHAR);
    pFinalMessage = (LPWSTR)malloc(cbBuffer);
    if (NULL == pFinalMessage)
    {
        wprintf(L"Failed to allocate memory for pFinalMessage.\n");
        status = ERROR_OUTOFMEMORY;
        goto cleanup;
    }

    RtlZeroMemory(pFinalMessage, cbBuffer);
    cchBuffer = cbBuffer / sizeof(WCHAR);
    pTempFinalMessage = pFinalMessage;

    // Build the final message string.
    for (DWORD i = 0; i < dwParameterCount; i++)
    {
        // Append the segment from pMessage. In the first iteration, this is "8 " and in the
        // second iteration, this is " = 2 ".
        wcsncpy_s(pTempFinalMessage, cchBuffer, pTempMessage, cch = (pStartingAddresses[i] - pTempMessage));
        pTempMessage = pEndingAddresses[i];
        cchBuffer -= cch;

        // Append the parameter string. In the first iteration, this is "quarts" and in the
        // second iteration, this is "gallons"
        pTempFinalMessage += cch;
        wcscpy_s(pTempFinalMessage, cchBuffer, pParameters[i]);
        cchBuffer -= cch = wcslen(pParameters[i]);

        pTempFinalMessage += cch;
    }

    // Append the last segment from pMessage, which is ".".
    wcscpy_s(pTempFinalMessage, cchBuffer, pTempMessage);

cleanup:

    if (ERROR_SUCCESS != status)
        pFinalMessage = (LPWSTR)pMessage;

    if (pStartingAddresses)
        free(pStartingAddresses);

    if (pEndingAddresses)
        free(pEndingAddresses);

    if (pParameterIDs)
        free(pParameterIDs);

    for (DWORD i = 0; i < dwParameterCount; i++)
    {
        if (pParameters[i])
            LocalFree(pParameters[i]);
    }

    return status;
}


// Get a string that contains the time stamp of when the event 
// was generated.
void GetTimestamp(const DWORD Time, WCHAR DisplayString[])
{
    ULONGLONG ullTimeStamp = 0;
    ULONGLONG SecsTo1970 = 116444736000000000;
    SYSTEMTIME st;
    FILETIME ft, ftLocal;

    ullTimeStamp = Int32x32To64(Time, 10000000) + SecsTo1970;
    ft.dwHighDateTime = (DWORD)((ullTimeStamp >> 32) & 0xFFFFFFFF);
    ft.dwLowDateTime = (DWORD)(ullTimeStamp & 0xFFFFFFFF);
    
    FileTimeToLocalFileTime(&ft, &ftLocal);
    FileTimeToSystemTime(&ftLocal, &st);
    StringCchPrintf(DisplayString, MAX_TIMESTAMP_LEN, L"%d/%d/%d %.2d:%.2d:%.2d", 
        st.wMonth, st.wDay, st.wYear, st.wHour, st.wMinute, st.wSecond);
}