478 lines
13 KiB
C++
478 lines
13 KiB
C++
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/*****************************************************************/
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/** Microsoft Windows for Workgroups **/
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/** Copyright (C) Microsoft Corp., 1995-1996 **/
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/*****************************************************************/
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/*
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regentry.cpp
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registry access classes
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This file contains classes which enable
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convenient access the registry for entries.
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FILE HISTORY:
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lens 10/15/95 Created
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ChrisPi 6/21/96 Added GetBinary(), SetValue() for binary
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*/
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#include "precomp.h"
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#include <regentry.h>
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#include <strutil.h>
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RegEntry::RegEntry(LPCTSTR pszSubKey, HKEY hkey, BOOL fCreate, REGSAM samDesired)
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: m_pbValueBuffer(NULL),
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m_cbValueBuffer(0),
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m_fValuesWritten(FALSE),
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m_szNULL('\0')
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{
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// Open with desired access if it is specified explicitly; otherwise, use
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// the default access.
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if (samDesired) {
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if (fCreate) {
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DWORD dwDisposition;
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m_error = ::RegCreateKeyEx(hkey,
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pszSubKey,
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0,
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NULL,
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REG_OPTION_NON_VOLATILE,
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samDesired,
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NULL,
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&m_hkey,
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&dwDisposition);
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}
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else {
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m_error = ::RegOpenKeyEx(hkey, pszSubKey, 0, samDesired, &m_hkey);
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}
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}
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else {
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if (fCreate) {
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m_error = ::RegCreateKey(hkey, pszSubKey, &m_hkey);
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}
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else {
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m_error = ::RegOpenKey(hkey, pszSubKey, &m_hkey);
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}
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}
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m_fhkeyValid = (m_error == ERROR_SUCCESS);
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}
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RegEntry::~RegEntry()
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{
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ChangeKey(NULL);
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delete [] m_pbValueBuffer;
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}
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VOID RegEntry::ChangeKey(HKEY hNewKey)
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{
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// hNewKey assumed to be valid or never used
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// (as in destructor).
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if (m_fValuesWritten) {
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FlushKey();
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}
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if (m_fhkeyValid) {
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::RegCloseKey(m_hkey);
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}
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m_hkey = hNewKey;
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}
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VOID RegEntry::UpdateWrittenStatus()
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{
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if (m_error == ERROR_SUCCESS) {
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m_fValuesWritten = TRUE;
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}
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}
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long RegEntry::SetValue(LPCTSTR pszValue, LPCTSTR string)
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{
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if (m_fhkeyValid) {
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m_error = ::RegSetValueEx(m_hkey, pszValue, 0, REG_SZ,
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(LPBYTE)string, (lstrlen(string)+1) * sizeof(*string));
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UpdateWrittenStatus();
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}
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return m_error;
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}
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long RegEntry::SetValue(LPCTSTR pszValue, unsigned long dwNumber)
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{
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if (m_fhkeyValid) {
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m_error = ::RegSetValueEx(m_hkey, pszValue, 0, REG_BINARY,
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(LPBYTE)&dwNumber, sizeof(dwNumber));
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UpdateWrittenStatus();
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}
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return m_error;
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}
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long RegEntry::SetValue(LPCTSTR pszValue,
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void* pData,
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DWORD cbLength)
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{
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if (m_fhkeyValid) {
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m_error = ::RegSetValueEx( m_hkey,
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pszValue,
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0,
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REG_BINARY,
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(LPBYTE) pData,
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cbLength);
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UpdateWrittenStatus();
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}
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return m_error;
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}
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long RegEntry::DeleteValue(LPCTSTR pszValue)
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{
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if (m_fhkeyValid) {
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m_error = ::RegDeleteValue(m_hkey, pszValue);
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UpdateWrittenStatus();
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}
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return m_error;
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}
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long RegEntry::GetNumber(LPCTSTR pszValue, long dwDefault)
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{
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DWORD dwType = REG_BINARY;
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long dwNumber = 0L;
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DWORD dwSize = sizeof(dwNumber);
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if (m_fhkeyValid) {
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m_error = ::RegQueryValueEx(m_hkey, pszValue, 0, &dwType, (LPBYTE)&dwNumber,
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&dwSize);
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}
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// If the call succeeded, make sure that the returned data matches our
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// expectations.
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ASSERT(m_error != ERROR_SUCCESS ||
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(REG_BINARY == dwType && sizeof(dwNumber) == dwSize) ||
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REG_DWORD == dwType);
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if (m_error != ERROR_SUCCESS)
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dwNumber = dwDefault;
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return dwNumber;
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}
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// The GetNumberIniStyle method performs the same function as GetNumber,
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// but in a style compatible with the old GetPrivateProfileInt API.
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// Specfically it means:
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// - If the value is stored in the registry as a string, it attempts to
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// convert it to an integer.
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// - If the value is negative, it returns 0.
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ULONG RegEntry::GetNumberIniStyle(LPCTSTR pszValueName, ULONG dwDefault)
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{
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DWORD dwType = REG_BINARY;
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ULONG dwNumber = 0L;
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DWORD cbLength = m_cbValueBuffer;
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if (m_fhkeyValid) {
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m_error = ::RegQueryValueEx(m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&cbLength);
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// Try again with a larger buffer if the first one is too small,
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// or if there wasn't already a buffer allocated.
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if ((ERROR_SUCCESS == m_error && NULL == m_pbValueBuffer)
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|| ERROR_MORE_DATA == m_error) {
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ASSERT(cbLength > m_cbValueBuffer);
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ResizeValueBuffer(cbLength);
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m_error = RegQueryValueEx( m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&cbLength );
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}
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if (ERROR_SUCCESS == m_error) {
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switch(dwType) {
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case REG_DWORD:
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case REG_BINARY:
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ASSERT(sizeof(dwNumber) == cbLength);
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dwNumber = * (LPDWORD) m_pbValueBuffer;
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break;
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case REG_SZ:
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{
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LONG lNumber = RtStrToInt((LPCTSTR) m_pbValueBuffer);
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// Convert negative numbers to zero, to match
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// GetPrivateProfileInt's behavior.
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dwNumber = lNumber < 0 ? 0 : lNumber;
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}
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break;
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default:
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ERROR_OUT(("Invalid value type (%lu) returned by RegQueryValueEx()",
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dwType));
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break;
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}
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}
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}
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if (m_error != ERROR_SUCCESS) {
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dwNumber = dwDefault;
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}
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return dwNumber;
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}
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LPTSTR RegEntry::GetString(LPCTSTR pszValueName)
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{
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DWORD dwType = REG_SZ;
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DWORD length = m_cbValueBuffer;
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if (m_fhkeyValid) {
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m_error = ::RegQueryValueEx( m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&length );
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// Try again with a larger buffer if the first one is too small,
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// or if there wasn't already a buffer allocated.
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if ((ERROR_SUCCESS == m_error && NULL == m_pbValueBuffer)
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|| ERROR_MORE_DATA == m_error) {
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ASSERT(length > m_cbValueBuffer);
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ResizeValueBuffer(length);
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m_error = ::RegQueryValueEx( m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&length );
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}
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if (m_error == ERROR_SUCCESS) {
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if ((dwType != REG_SZ) && (dwType != REG_EXPAND_SZ)) {
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m_error = ERROR_INVALID_PARAMETER;
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}
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}
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}
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if ((m_error != ERROR_SUCCESS) || (length == 0)) {
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return &m_szNULL;
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}
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return (LPTSTR) m_pbValueBuffer;
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}
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DWORD RegEntry::GetBinary( LPCTSTR pszValueName,
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void** ppvData)
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{
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ASSERT(ppvData);
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DWORD dwType = REG_BINARY;
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DWORD length = m_cbValueBuffer;
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if (m_fhkeyValid) {
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m_error = ::RegQueryValueEx( m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&length );
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// Try again with a larger buffer if the first one is too small,
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// or if there wasn't already a buffer allocated.
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if ((ERROR_SUCCESS == m_error && NULL == m_pbValueBuffer)
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|| ERROR_MORE_DATA == m_error) {
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ASSERT(length > m_cbValueBuffer);
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ResizeValueBuffer(length);
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m_error = ::RegQueryValueEx( m_hkey,
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pszValueName,
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0,
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&dwType,
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m_pbValueBuffer,
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&length );
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}
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if (m_error == ERROR_SUCCESS) {
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if (dwType != REG_BINARY) {
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m_error = ERROR_INVALID_PARAMETER;
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}
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}
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}
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if ((m_error != ERROR_SUCCESS) || (length == 0)) {
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*ppvData = NULL;
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length = 0;
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}
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else
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{
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*ppvData = m_pbValueBuffer;
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}
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return length;
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}
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// BUGBUG - Use LocalReAlloc instead of new/delete?
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VOID RegEntry::ResizeValueBuffer(DWORD length)
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{
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LPBYTE pbNewBuffer;
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if ((m_error == ERROR_SUCCESS || m_error == ERROR_MORE_DATA)
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&& (length > m_cbValueBuffer)) {
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pbNewBuffer = new BYTE[length];
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if (pbNewBuffer) {
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delete [] m_pbValueBuffer;
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m_pbValueBuffer = pbNewBuffer;
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m_cbValueBuffer = length;
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}
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else {
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m_error = ERROR_NOT_ENOUGH_MEMORY;
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}
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}
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}
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// BUGBUG - Support other OpenKey switches from constructor
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VOID RegEntry::MoveToSubKey(LPCTSTR pszSubKeyName)
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{
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HKEY _hNewKey;
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if (m_fhkeyValid) {
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m_error = ::RegOpenKey ( m_hkey,
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pszSubKeyName,
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&_hNewKey );
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if (m_error == ERROR_SUCCESS) {
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ChangeKey(_hNewKey);
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}
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}
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}
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RegEnumValues::RegEnumValues(RegEntry *pReqRegEntry)
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: m_pRegEntry(pReqRegEntry),
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m_iEnum(0),
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m_pchName(NULL),
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m_pbValue(NULL)
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{
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m_error = m_pRegEntry->GetError();
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if (m_error == ERROR_SUCCESS) {
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m_error = ::RegQueryInfoKey (m_pRegEntry->GetKey(), // Key
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NULL, // Buffer for class string
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NULL, // Size of class string buffer
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NULL, // Reserved
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NULL, // Number of subkeys
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NULL, // Longest subkey name
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NULL, // Longest class string
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&m_cEntries, // Number of value entries
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&m_cMaxValueName, // Longest value name
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&m_cMaxData, // Longest value data
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NULL, // Security descriptor
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NULL ); // Last write time
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}
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if (m_error == ERROR_SUCCESS) {
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if (m_cEntries != 0) {
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m_cMaxValueName++; // REG_SZ needs one more for null
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m_cMaxData++; // REG_SZ needs one more for null
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m_pchName = new TCHAR[m_cMaxValueName];
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if (!m_pchName) {
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m_error = ERROR_NOT_ENOUGH_MEMORY;
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}
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else {
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if (m_cMaxData) {
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m_pbValue = new BYTE[m_cMaxData];
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if (!m_pbValue) {
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m_error = ERROR_NOT_ENOUGH_MEMORY;
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}
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}
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}
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}
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}
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}
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RegEnumValues::~RegEnumValues()
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{
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delete m_pchName;
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delete m_pbValue;
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}
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long RegEnumValues::Next()
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{
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if (m_error != ERROR_SUCCESS) {
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return m_error;
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}
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if (m_cEntries == m_iEnum) {
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return ERROR_NO_MORE_ITEMS;
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}
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DWORD cchName = m_cMaxValueName;
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m_dwDataLength = m_cMaxData;
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m_error = ::RegEnumValue ( m_pRegEntry->GetKey(), // Key
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m_iEnum, // Index of value
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m_pchName, // Address of buffer for value name
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&cchName, // Address for size of buffer
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NULL, // Reserved
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&m_dwType, // Data type
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m_pbValue, // Address of buffer for value data
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&m_dwDataLength ); // Address for size of data
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m_iEnum++;
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return m_error;
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}
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RegEnumSubKeys::RegEnumSubKeys(RegEntry *pReqRegEntry)
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: m_pRegEntry(pReqRegEntry),
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m_iEnum(0),
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m_pchName(NULL)
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{
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m_error = m_pRegEntry->GetError();
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if (m_error == ERROR_SUCCESS) {
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m_error = ::RegQueryInfoKey ( m_pRegEntry->GetKey(), // Key
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NULL, // Buffer for class string
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NULL, // Size of class string buffer
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NULL, // Reserved
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&m_cEntries, // Number of subkeys
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&m_cMaxKeyName, // Longest subkey name
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NULL, // Longest class string
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NULL, // Number of value entries
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NULL, // Longest value name
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NULL, // Longest value data
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NULL, // Security descriptor
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NULL ); // Last write time
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}
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if (m_error == ERROR_SUCCESS) {
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if (m_cEntries != 0) {
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m_cMaxKeyName = m_cMaxKeyName + 1; // needs one more for null
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m_pchName = new TCHAR[m_cMaxKeyName];
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if (!m_pchName) {
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m_error = ERROR_NOT_ENOUGH_MEMORY;
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}
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}
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}
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}
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RegEnumSubKeys::~RegEnumSubKeys()
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{
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delete m_pchName;
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}
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long RegEnumSubKeys::Next()
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{
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if (m_error != ERROR_SUCCESS) {
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return m_error;
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}
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if (m_cEntries == m_iEnum) {
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return ERROR_NO_MORE_ITEMS;
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}
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DWORD cchName = m_cMaxKeyName;
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m_error = ::RegEnumKey ( m_pRegEntry->GetKey(), // Key
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||
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m_iEnum, // Index of value
|
||
|
m_pchName, // Address of buffer for subkey name
|
||
|
cchName); // Size of buffer
|
||
|
m_iEnum++;
|
||
|
return m_error;
|
||
|
}
|