Aquí hay un pseudocódigo para recuperar lo siguiente:
- Si existe una clave de registro
- Cuál es el valor predeterminado para esa clave de registro
- Qué valor de cadena es
- Que es un valor DWORD
Código de ejemplo:
Incluya la dependencia de la biblioteca: Advapi32.lib
HKEY hKey;
LONG lRes = RegOpenKeyExW(HKEY_LOCAL_MACHINE, L"SOFTWARE\\Perl", 0, KEY_READ, &hKey);
bool bExistsAndSuccess (lRes == ERROR_SUCCESS);
bool bDoesNotExistsSpecifically (lRes == ERROR_FILE_NOT_FOUND);
std::wstring strValueOfBinDir;
std::wstring strKeyDefaultValue;
GetStringRegKey(hKey, L"BinDir", strValueOfBinDir, L"bad");
GetStringRegKey(hKey, L"", strKeyDefaultValue, L"bad");
LONG GetDWORDRegKey(HKEY hKey, const std::wstring &strValueName, DWORD &nValue, DWORD nDefaultValue)
{
nValue = nDefaultValue;
DWORD dwBufferSize(sizeof(DWORD));
DWORD nResult(0);
LONG nError = ::RegQueryValueExW(hKey,
strValueName.c_str(),
0,
NULL,
reinterpret_cast<LPBYTE>(&nResult),
&dwBufferSize);
if (ERROR_SUCCESS == nError)
{
nValue = nResult;
}
return nError;
}
LONG GetBoolRegKey(HKEY hKey, const std::wstring &strValueName, bool &bValue, bool bDefaultValue)
{
DWORD nDefValue((bDefaultValue) ? 1 : 0);
DWORD nResult(nDefValue);
LONG nError = GetDWORDRegKey(hKey, strValueName.c_str(), nResult, nDefValue);
if (ERROR_SUCCESS == nError)
{
bValue = (nResult != 0) ? true : false;
}
return nError;
}
LONG GetStringRegKey(HKEY hKey, const std::wstring &strValueName, std::wstring &strValue, const std::wstring &strDefaultValue)
{
strValue = strDefaultValue;
WCHAR szBuffer[512];
DWORD dwBufferSize = sizeof(szBuffer);
ULONG nError;
nError = RegQueryValueExW(hKey, strValueName.c_str(), 0, NULL, (LPBYTE)szBuffer, &dwBufferSize);
if (ERROR_SUCCESS == nError)
{
strValue = szBuffer;
}
return nError;
}
RegOpenKeyExW
yRegQueryValueExW
su equivalente agnóstico de "conjunto de caracteres"RegOpenKeyEx
yRegQueryValueEx
const CString REG_SW_GROUP_I_WANT = _T("SOFTWARE\\My Corporation\\My Package\\Group I want"); const CString REG_KEY_I_WANT= _T("Key Name"); CRegKey regKey; DWORD dwValue = 0; if(ERROR_SUCCESS != regKey.Open(HKEY_LOCAL_MACHINE, REG_SW_GROUP_I_WANT)) { m_pobLogger->LogError(_T("CRegKey::Open failed in Method")); regKey.Close(); goto Function_Exit; } if( ERROR_SUCCESS != regKey.QueryValue( dwValue, REG_KEY_I_WANT)) { m_pobLogger->LogError(_T("CRegKey::QueryValue Failed in Method")); regKey.Close(); goto Function_Exit; } // dwValue has the stuff now - use for further processing
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CRegKey
suena como país ATL o MFC.Desde Windows> = Vista / Server 2008, RegGetValue está disponible, que es una función más segura que RegQueryValueEx . No hay necesidad de
RegOpenKeyEx
,RegCloseKey
oNUL
cheques de terminación de valores de cadena (REG_SZ
,REG_MULTI_SZ
,REG_EXPAND_SZ
).#include <iostream> #include <string> #include <exception> #include <windows.h> /*! \brief Returns a value from HKLM as string. \exception std::runtime_error Replace with your error handling. */ std::wstring GetStringValueFromHKLM(const std::wstring& regSubKey, const std::wstring& regValue) { size_t bufferSize = 0xFFF; // If too small, will be resized down below. std::wstring valueBuf; // Contiguous buffer since C++11. valueBuf.resize(bufferSize); auto cbData = static_cast<DWORD>(bufferSize * sizeof(wchar_t)); auto rc = RegGetValueW( HKEY_LOCAL_MACHINE, regSubKey.c_str(), regValue.c_str(), RRF_RT_REG_SZ, nullptr, static_cast<void*>(valueBuf.data()), &cbData ); while (rc == ERROR_MORE_DATA) { // Get a buffer that is big enough. cbData /= sizeof(wchar_t); if (cbData > static_cast<DWORD>(bufferSize)) { bufferSize = static_cast<size_t>(cbData); } else { bufferSize *= 2; cbData = static_cast<DWORD>(bufferSize * sizeof(wchar_t)); } valueBuf.resize(bufferSize); rc = RegGetValueW( HKEY_LOCAL_MACHINE, regSubKey.c_str(), regValue.c_str(), RRF_RT_REG_SZ, nullptr, static_cast<void*>(valueBuf.data()), &cbData ); } if (rc == ERROR_SUCCESS) { cbData /= sizeof(wchar_t); valueBuf.resize(static_cast<size_t>(cbData - 1)); // remove end null character return valueBuf; } else { throw std::runtime_error("Windows system error code: " + std::to_string(rc)); } } int main() { std::wstring regSubKey; #ifdef _WIN64 // Manually switching between 32bit/64bit for the example. Use dwFlags instead. regSubKey = L"SOFTWARE\\WOW6432Node\\Company Name\\Application Name\\"; #else regSubKey = L"SOFTWARE\\Company Name\\Application Name\\"; #endif std::wstring regValue(L"MyValue"); std::wstring valueFromRegistry; try { valueFromRegistry = GetStringValueFromHKLM(regSubKey, regValue); } catch (std::exception& e) { std::cerr << e.what(); } std::wcout << valueFromRegistry; }
Su parámetro
dwFlags
admite banderas para la restricción de tipo, llenando el búfer de valores con ceros en caso de falla (RRF_ZEROONFAILURE
) y acceso al registro de 32/64 bits (RRF_SUBKEY_WOW6464KEY
,RRF_SUBKEY_WOW6432KEY
) para programas de 64 bits.fuente
El par RegOpenKey y RegQueryKeyEx hará el truco.
Si usa la clase MFC CRegKey , la solución es aún más fácil.
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RegQueryValueEx
Esto da el valor si existe y devuelve un código de error ERROR_FILE_NOT_FOUND si la clave no existe.
(No puedo decir si mi enlace funciona o no, pero si solo busca en Google "RegQueryValueEx", el primer resultado es la documentación de msdn).
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Esta aplicación de consola enumerará todos los valores y sus datos de una clave de registro para la mayoría de los valores de registro potenciales. Hay algunos extraños que no se usan a menudo. Si necesita admitirlos todos, amplíe este ejemplo mientras hace referencia a este tipo de valor de registro documentación de .
Deje que este sea el contenido de la clave de registro que puede importar desde un
.reg
formato de archivo:Windows Registry Editor Version 5.00 [HKEY_CURRENT_USER\added\subkey] "String_Value"="hello, world!" "Binary_Value"=hex:01,01,01,01 "Dword value"=dword:00001224 "QWord val"=hex(b):24,22,12,00,00,00,00,00 "multi-line val"=hex(7):4c,00,69,00,6e,00,65,00,20,00,30,00,00,00,4c,00,69,00,\ 6e,00,65,00,20,00,31,00,00,00,4c,00,69,00,6e,00,65,00,20,00,32,00,00,00,00,\ 00 "expanded_val"=hex(2):25,00,55,00,53,00,45,00,52,00,50,00,52,00,4f,00,46,00,49,\ 00,4c,00,45,00,25,00,5c,00,6e,00,65,00,77,00,5f,00,73,00,74,00,75,00,66,00,\ 66,00,00,00
La propia aplicación de consola:
#include <Windows.h> #include <iostream> #include <string> #include <locale> #include <vector> #include <iomanip> int wmain() { const auto hKey = HKEY_CURRENT_USER; constexpr auto lpSubKey = TEXT("added\\subkey"); auto openedKey = HKEY(); auto status = RegOpenKeyEx(hKey, lpSubKey, 0, KEY_READ, &openedKey); if (status == ERROR_SUCCESS) { auto valueCount = static_cast<DWORD>(0); auto maxNameLength = static_cast<DWORD>(0); auto maxValueLength = static_cast<DWORD>(0); status = RegQueryInfoKey(openedKey, NULL, NULL, NULL, NULL, NULL, NULL, &valueCount, &maxNameLength, &maxValueLength, NULL, NULL); if (status == ERROR_SUCCESS) { DWORD type = 0; DWORD index = 0; std::vector<wchar_t> valueName = std::vector<wchar_t>(maxNameLength + 1); std::vector<BYTE> dataBuffer = std::vector<BYTE>(maxValueLength); for (DWORD index = 0; index < valueCount; index++) { DWORD charCountValueName = static_cast<DWORD>(valueName.size()); DWORD charBytesData = static_cast<DWORD>(dataBuffer.size()); status = RegEnumValue(openedKey, index, valueName.data(), &charCountValueName, NULL, &type, dataBuffer.data(), &charBytesData); if (type == REG_SZ) { const auto reg_string = reinterpret_cast<wchar_t*>(dataBuffer.data()); std::wcout << L"Type: REG_SZ" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData : " << reg_string << std::endl; } else if (type == REG_EXPAND_SZ) { const auto casted = reinterpret_cast<wchar_t*>(dataBuffer.data()); TCHAR buffer[32000]; ExpandEnvironmentStrings(casted, buffer, 32000); std::wcout << L"Type: REG_EXPAND_SZ" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData: " << buffer << std::endl; } else if (type == REG_MULTI_SZ) { std::vector<std::wstring> lines; const auto str = reinterpret_cast<wchar_t*>(dataBuffer.data()); auto line = str; lines.emplace_back(line); for (auto i = 0; i < charBytesData / sizeof(wchar_t) - 1; i++) { const auto c = str[i]; if (c == 0) { line = str + i + 1; const auto new_line = reinterpret_cast<wchar_t*>(line); if (wcsnlen_s(new_line, 1024) > 0) lines.emplace_back(new_line); } } std::wcout << L"Type: REG_MULTI_SZ" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData: " << std::endl; for (size_t i = 0; i < lines.size(); i++) { std::wcout << L"\t\tLine[" << i + 1 << L"]: " << lines[i] << std::endl; } } if (type == REG_DWORD) { const auto dword_value = reinterpret_cast<unsigned long*>(dataBuffer.data()); std::wcout << L"Type: REG_DWORD" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData : " << std::to_wstring(*dword_value) << std::endl; } else if (type == REG_QWORD) { const auto qword_value = reinterpret_cast<unsigned long long*>(dataBuffer.data()); std::wcout << L"Type: REG_DWORD" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData : " << std::to_wstring(*qword_value) << std::endl; } else if (type == REG_BINARY) { std::vector<uint16_t> bins; for (auto i = 0; i < charBytesData; i++) { bins.push_back(static_cast<uint16_t>(dataBuffer[i])); } std::wcout << L"Type: REG_BINARY" << std::endl; std::wcout << L"\tName: " << valueName.data() << std::endl; std::wcout << L"\tData:"; for (size_t i = 0; i < bins.size(); i++) { std::wcout << L" " << std::uppercase << std::hex << \ std::setw(2) << std::setfill(L'0') << std::to_wstring(bins[i]); } std::wcout << std::endl; } } } } RegCloseKey(openedKey); return 0; }
Salida de consola esperada:
Type: REG_SZ Name: String_Value Data : hello, world! Type: REG_BINARY Name: Binary_Value Data: 01 01 01 01 Type: REG_DWORD Name: Dword value Data : 4644 Type: REG_DWORD Name: QWord val Data : 1188388 Type: REG_MULTI_SZ Name: multi-line val Data: Line[1]: Line 0 Line[2]: Line 1 Line[3]: Line 2 Type: REG_EXPAND_SZ Name: expanded_val Data: C:\Users\user name\new_stuff
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Normalmente, la clave y el valor del registro son constantes en el programa. Si es así, aquí hay un ejemplo de cómo leer un valor de registro DWORD
Computer\HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\FileSystem\LongPathsEnabled
:#include <windows.h> DWORD val; DWORD dataSize = sizeof(val); if (ERROR_SUCCESS == RegGetValueA(HKEY_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Control\\FileSystem", "LongPathsEnabled", RRF_RT_DWORD, nullptr /*type not required*/, &val, &dataSize)) { printf("Value is %i\n", val); // no CloseKey needed because it is a predefined registry key } else { printf("Error reading.\n"); }
Para adaptarse a otros tipos de valores, consulte https://docs.microsoft.com/en-us/windows/win32/api/winreg/nf-winreg-reggetvaluea para obtener especificaciones completas.
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#include <windows.h> #include <map> #include <string> #include <stdio.h> #include <string.h> #include <tr1/stdint.h> using namespace std; void printerr(DWORD dwerror) { LPVOID lpMsgBuf; FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, dwerror, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language (LPTSTR) &lpMsgBuf, 0, NULL ); // Process any inserts in lpMsgBuf. // ... // Display the string. if (isOut) { fprintf(fout, "%s\n", lpMsgBuf); } else { printf("%s\n", lpMsgBuf); } // Free the buffer. LocalFree(lpMsgBuf); } bool regreadSZ(string& hkey, string& subkey, string& value, string& returnvalue, string& regValueType) { char s[128000]; map<string,HKEY> keys; keys["HKEY_CLASSES_ROOT"]=HKEY_CLASSES_ROOT; keys["HKEY_CURRENT_CONFIG"]=HKEY_CURRENT_CONFIG; //DID NOT SURVIVE? keys["HKEY_CURRENT_USER"]=HKEY_CURRENT_USER; keys["HKEY_LOCAL_MACHINE"]=HKEY_LOCAL_MACHINE; keys["HKEY_USERS"]=HKEY_USERS; HKEY mykey; map<string,DWORD> valuetypes; valuetypes["REG_SZ"]=REG_SZ; valuetypes["REG_EXPAND_SZ"]=REG_EXPAND_SZ; valuetypes["REG_MULTI_SZ"]=REG_MULTI_SZ; //probably can't use this. LONG retval=RegOpenKeyEx( keys[hkey], // handle to open key subkey.c_str(), // subkey name 0, // reserved KEY_READ, // security access mask &mykey // handle to open key ); if (ERROR_SUCCESS != retval) {printerr(retval); return false;} DWORD slen=128000; DWORD valuetype = valuetypes[regValueType]; retval=RegQueryValueEx( mykey, // handle to key value.c_str(), // value name NULL, // reserved (LPDWORD) &valuetype, // type buffer (LPBYTE)s, // data buffer (LPDWORD) &slen // size of data buffer ); switch(retval) { case ERROR_SUCCESS: //if (isOut) { // fprintf(fout,"RegQueryValueEx():ERROR_SUCCESS:succeeded.\n"); //} else { // printf("RegQueryValueEx():ERROR_SUCCESS:succeeded.\n"); //} break; case ERROR_MORE_DATA: //what do I do now? data buffer is too small. if (isOut) { fprintf(fout,"RegQueryValueEx():ERROR_MORE_DATA: need bigger buffer.\n"); } else { printf("RegQueryValueEx():ERROR_MORE_DATA: need bigger buffer.\n"); } return false; case ERROR_FILE_NOT_FOUND: if (isOut) { fprintf(fout,"RegQueryValueEx():ERROR_FILE_NOT_FOUND: registry value does not exist.\n"); } else { printf("RegQueryValueEx():ERROR_FILE_NOT_FOUND: registry value does not exist.\n"); } return false; default: if (isOut) { fprintf(fout,"RegQueryValueEx():unknown error type 0x%lx.\n", retval); } else { printf("RegQueryValueEx():unknown error type 0x%lx.\n", retval); } return false; } retval=RegCloseKey(mykey); if (ERROR_SUCCESS != retval) {printerr(retval); return false;} returnvalue = s; return true; }
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