public static byte[] GetKeyParameter(SafeKeyHandleImpl keyHandle, uint keyParamId)
{
uint dataLength = 0;
if (!CryptoApi.CryptGetKeyParam(keyHandle, keyParamId, null, ref dataLength, 0))
{
throw CreateWin32Error();
}
var dataBytes = new byte[dataLength];
if (!CryptoApi.CryptGetKeyParam(keyHandle, keyParamId, dataBytes, ref dataLength, 0))
{
throw CreateWin32Error();
}
return(dataBytes);
}
private static SafeHashHandleImpl CreateHashHMAC(SafeProvHandleImpl providerHandle, SafeKeyHandleImpl symKeyHandle, int hmacAlgId)
{
var hashHmacHandle = SafeHashHandleImpl.InvalidHandle;
if (!CryptoApi.CryptCreateHash(providerHandle, (uint)hmacAlgId, symKeyHandle, 0, ref hashHmacHandle))
{
var errorCode = Marshal.GetLastWin32Error();
if (errorCode == Constants.NTE_BAD_ALGID)
{
throw ExceptionUtility.CryptographicException(Resources.AlgorithmNotAvailable);
}
throw ExceptionUtility.CryptographicException(errorCode);
}
return(hashHmacHandle);
}
public static byte[] EndHashData(SafeHashHandleImpl hashHandle)
{
uint dataLength = 0;
if (!CryptoApi.CryptGetHashParam(hashHandle, Constants.HP_HASHVAL, null, ref dataLength, 0))
{
throw CreateWin32Error();
}
var data = new byte[dataLength];
if (!CryptoApi.CryptGetHashParam(hashHandle, Constants.HP_HASHVAL, data, ref dataLength, 0))
{
throw CreateWin32Error();
}
return(data);
}
public static SafeProvHandleImpl AcquireProvider(CspParameters providerParameters)
{
var providerHandle = SafeProvHandleImpl.InvalidHandle;
var dwFlags = Constants.CRYPT_VERIFYCONTEXT;
if ((providerParameters.Flags & CspProviderFlags.UseMachineKeyStore) != CspProviderFlags.NoFlags)
{
dwFlags |= Constants.CRYPT_MACHINE_KEYSET;
}
if (!CryptoApi.CryptAcquireContext(ref providerHandle, providerParameters.KeyContainerName, providerParameters.ProviderName, (uint)providerParameters.ProviderType, dwFlags))
{
throw CreateWin32Error();
}
return(providerHandle);
}
public static int GetKeyParameterInt32(SafeKeyHandleImpl keyHandle, uint keyParamId)
{
const int doubleWordSize = 4;
uint dwDataLength = doubleWordSize;
var dwDataBytes = new byte[doubleWordSize];
if (!CryptoApi.CryptGetKeyParam(keyHandle, keyParamId, dwDataBytes, ref dwDataLength, 0))
{
throw CreateWin32Error();
}
if (dwDataLength != doubleWordSize)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_DATA);
}
return(BitConverter.ToInt32(dwDataBytes, 0));
}
private static void SetHashValue(SafeHashHandleImpl hashHandle, byte[] hashValue)
{
uint hashLength = 0;
if (!CryptoApi.CryptGetHashParam(hashHandle, Constants.HP_HASHVAL, null, ref hashLength, 0))
{
throw CreateWin32Error();
}
if (hashValue.Length != hashLength)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_HASH);
}
if (!CryptoApi.CryptSetHashParam(hashHandle, Constants.HP_HASHVAL, hashValue, 0))
{
throw CreateWin32Error();
}
}
public static SafeKeyHandleImpl GenerateDhEphemeralKey(ProviderType providerType, SafeProvHandleImpl providerHandle, int algId, string digestParamSet, string publicKeyParamSet)
{
var keyHandle = SafeKeyHandleImpl.InvalidHandle;
var dwFlags = MapCspKeyFlags(CspProviderFlags.NoFlags) | Constants.CRYPT_PREGEN;
if (!CryptoApi.CryptGenKey(providerHandle, (uint)algId, dwFlags, ref keyHandle))
{
throw CreateWin32Error();
}
if (!providerType.IsVipNet())
{
SetKeyParameterString(keyHandle, Constants.KP_HASHOID, digestParamSet);
}
SetKeyParameterString(keyHandle, Constants.KP_DHOID, publicKeyParamSet);
SetKeyParameter(keyHandle, Constants.KP_X, null);
return(keyHandle);
}
public static SafeHashHandleImpl CreateHashHmac(SafeProvHandleImpl providerHandle, SafeKeyHandleImpl symKeyHandle)
{
var hashHmacHandle = SafeHashHandleImpl.InvalidHandle;
var hmacAlgId = (GostCryptoConfig.ProviderType == ProviderTypes.VipNet) ? Constants.CALG_GR3411_HMAC34 : Constants.CALG_GR3411_HMAC;
if (!CryptoApi.CryptCreateHash(providerHandle, (uint)hmacAlgId, symKeyHandle, 0, ref hashHmacHandle))
{
var errorCode = Marshal.GetLastWin32Error();
if (errorCode == Constants.NTE_BAD_ALGID)
{
throw ExceptionUtility.CryptographicException(Resources.AlgorithmNotAvailable);
}
throw ExceptionUtility.CryptographicException(errorCode);
}
return(hashHmacHandle);
}
public static void EndCrypt(SafeKeyHandleImpl symKeyHandle, Gost28147CryptoTransformMode transformMode)
{
bool success;
uint dataLength = 0;
if (transformMode == Gost28147CryptoTransformMode.Encrypt)
{
var data = new byte[32];
success = CryptoApi.CryptEncrypt(symKeyHandle, SafeHashHandleImpl.InvalidHandle, true, 0, data, ref dataLength, (uint)data.Length);
}
else
{
var data = new byte[0];
success = CryptoApi.CryptDecrypt(symKeyHandle, SafeHashHandleImpl.InvalidHandle, true, 0, data, ref dataLength) || (GostCryptoConfig.ProviderType == ProviderTypes.VipNet);
}
if (!success)
{
throw CreateWin32Error();
}
}
public static int OpenProvider(CspParameters providerParameters, ref SafeProvHandleImpl hProv)
{
uint dwFlags = MapCspProviderFlags(providerParameters.Flags);
if (!CryptoApi.CryptAcquireContext(ref hProv, providerParameters.KeyContainerName, providerParameters.ProviderName, (uint)providerParameters.ProviderType, dwFlags))
{
return(Marshal.GetLastWin32Error());
}
return(0);
//var providerHandle = SafeProvHandleImpl.InvalidHandle;
//var dwFlags = MapCspProviderFlags(providerParameters.Flags);
//if (!CryptoApi.CryptAcquireContext(ref providerHandle, providerParameters.KeyContainerName, providerParameters.ProviderName, (uint)providerParameters.ProviderType, dwFlags))
//{
// throw CreateWin32Error();
//}
//return providerHandle;
}
public static byte[] SignValue(SafeProvHandleImpl providerHandle, SafeHashHandleImpl hashHandle, int keyNumber, byte[] hashValue)
{
SetHashValue(hashHandle, hashValue);
uint signatureLength = 0;
// Вычисление размера подписи
if (!CryptoApi.CryptSignHash(hashHandle, (uint)keyNumber, null, 0, null, ref signatureLength))
{
throw CreateWin32Error();
}
var signatureValue = new byte[signatureLength];
// Вычисление значения подписи
if (!CryptoApi.CryptSignHash(hashHandle, (uint)keyNumber, null, 0, signatureValue, ref signatureLength))
{
throw CreateWin32Error();
}
return(signatureValue);
}
public static byte[] SignValue(SafeProvHandleImpl hProv, int keyNumber, byte[] hashValue)
{
using (var hashHandle = SetupHashAlgorithm(hProv, hashValue))
{
uint signatureLength = 0;
// Вычисление размера подписи
if (!CryptoApi.CryptSignHash(hashHandle, (uint)keyNumber, null, 0, null, ref signatureLength))
{
throw CreateWin32Error();
}
var signatureValue = new byte[signatureLength];
// Вычисление значения подписи
if (!CryptoApi.CryptSignHash(hashHandle, (uint)keyNumber, null, 0, signatureValue, ref signatureLength))
{
throw CreateWin32Error();
}
return(signatureValue);
}
}
public static byte[] SignValue(SafeProvHandleImpl hProv, int keyNumber, byte[] hashValue, GostAlgorithmType alg)
{
using (var hashHandle = SetupHashAlgorithm(hProv, hashValue, alg))
{
int signatureLength = 0;
// Вычисление размера подписи
if (!CryptoApi.CryptSignHash(hashHandle, (int)keyNumber, null, 0, null, ref signatureLength))
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
var signatureValue = new byte[signatureLength];
// Вычисление значения подписи
if (!CryptoApi.CryptSignHash(hashHandle, (int)keyNumber, null, 0, signatureValue, ref signatureLength))
{
throw new Win32Exception(Marshal.GetLastWin32Error());
}
return(signatureValue);
}
}
private static SafeHashHandleImpl SetupHashAlgorithm(SafeProvHandleImpl providerHandle, byte[] hashValue)
{
var hashHandle = CreateHash_3411_94(providerHandle);
uint hashLength = 0;
if (!CryptoApi.CryptGetHashParam(hashHandle, Constants.HP_HASHVAL, null, ref hashLength, 0))
{
throw CreateWin32Error();
}
if (hashValue.Length != hashLength)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_HASH);
}
if (!CryptoApi.CryptSetHashParam(hashHandle, Constants.HP_HASHVAL, hashValue, 0))
{
throw CreateWin32Error();
}
return(hashHandle);
}
/// <summary>
/// Возвращает сертификат X.509 для указанного ключа.
/// </summary>
/// <param name="keyHandle">Дескриптор ключа сертификата.</param>
public static X509Certificate2 GetKeyCertificate(SafeKeyHandleImpl keyHandle)
{
uint certDataLength = 0;
if (!CryptoApi.CryptGetKeyParam(keyHandle, Constants.KP_CERTIFICATE, null, ref certDataLength, 0))
{
if (Marshal.GetLastWin32Error() != Constants.ERROR_NO_SUCH_CERTIFICATE)
{
throw CreateWin32Error();
}
return(null);
}
var certData = new byte[certDataLength];
if (!CryptoApi.CryptGetKeyParam(keyHandle, Constants.KP_CERTIFICATE, certData, ref certDataLength, 0))
{
throw CreateWin32Error();
}
return(new X509Certificate2(certData));
}
public static void SetProviderParameter(SafeProvHandleImpl providerHandle, int keyNumber, uint keyParamId, IntPtr keyParamValue)
{
if ((keyParamId == Constants.PP_KEYEXCHANGE_PIN) || (keyParamId == Constants.PP_SIGNATURE_PIN))
{
if (keyNumber == Constants.AT_KEYEXCHANGE)
{
keyParamId = Constants.PP_KEYEXCHANGE_PIN;
}
else if (keyNumber == Constants.AT_SIGNATURE)
{
keyParamId = Constants.PP_SIGNATURE_PIN;
}
else
{
throw ExceptionUtility.NotSupported(Resources.KeyAlgorithmNotSupported);
}
}
if (!CryptoApi.CryptSetProvParam(providerHandle, keyParamId, keyParamValue, 0))
{
throw CreateWin32Error();
}
}
private static SafeHashHandleImpl SetupHashAlgorithm(SafeProvHandleImpl providerHandle, byte[] hashValue, GostAlgorithmType alg)
{
SafeHashHandleImpl hashHandle;
if (alg == GostAlgorithmType.Gost2012_256)
{
hashHandle = CreateHash_3411_2012_256(providerHandle);
}
else if (alg == GostAlgorithmType.Gost2012_512)
{
hashHandle = CreateHash_3411_2012_512(providerHandle);
}
else
{
hashHandle = CreateHash_3411_94(providerHandle);
}
//uint hashLength = 0;
//if (!CryptoApi.CryptGetHashParam(hashHandle, Constants.HP_HASHVAL, null, ref hashLength, 0))
//{
// throw CreateWin32Error();
//}
//if (hashValue.Length != hashLength)
//{
// throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_HASH);
//}
if (!CryptoApi.CryptSetHashParam(hashHandle, Constants.HP_HASHVAL, hashValue, 0))
{
throw CreateWin32Error();
}
return(hashHandle);
}
protected override bool ReleaseHandle()
{
CryptoApi.CryptDestroyHash(handle);
return(true);
}
public static int DecryptData(SafeKeyHandleImpl symKeyHandle, byte[] data, int dataOffset, int dataLength, ref byte[] decryptedData, int decryptedDataOffset, PaddingMode paddingMode, bool isDone)
{
if (dataOffset < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataOffset));
}
if (dataLength < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataLength));
}
if ((dataOffset > data.Length) || ((dataOffset + dataLength) > data.Length))
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataOffset), Resources.InvalidDataOffset);
}
// Выровненные данные
var dataAlignLength = (uint)dataLength;
var dataAlign = new byte[dataAlignLength];
Array.Copy(data, dataOffset, dataAlign, 0L, dataAlignLength);
// Расшифровка данных
if (!CryptoApi.CryptDecrypt(symKeyHandle, SafeHashHandleImpl.InvalidHandle, false, 0, dataAlign, ref dataAlignLength))
{
throw CreateWin32Error();
}
var length = (int)dataAlignLength;
if (isDone)
{
byte dataPaddingSize = 0;
// Удаление дополнения данных в зависимости от настроек
if (((paddingMode == PaddingMode.PKCS7) || (paddingMode == PaddingMode.ANSIX923)) || (paddingMode == PaddingMode.ISO10126))
{
if (dataAlignLength < 8)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_DATA);
}
// Размер дополнения находится в последнем байте
dataPaddingSize = dataAlign[(int)((IntPtr)(dataAlignLength - 1))];
if (dataPaddingSize > 8)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_DATA);
}
// Проверка корректности дополнения данных
if (paddingMode == PaddingMode.PKCS7)
{
for (var paddingIndex = dataAlignLength - dataPaddingSize; paddingIndex < (dataAlignLength - 1); paddingIndex++)
{
if (dataAlign[paddingIndex] != dataPaddingSize)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_DATA);
}
}
}
else if (paddingMode == PaddingMode.ANSIX923)
{
for (var paddingIndex = dataAlignLength - dataPaddingSize; paddingIndex < (dataAlignLength - 1); paddingIndex++)
{
if (dataAlign[paddingIndex] != 0)
{
throw ExceptionUtility.CryptographicException(Constants.NTE_BAD_DATA);
}
}
}
}
else if ((paddingMode != PaddingMode.None) && (paddingMode != PaddingMode.Zeros))
{
throw ExceptionUtility.Argument(nameof(paddingMode), Resources.InvalidPaddingMode);
}
length -= dataPaddingSize;
}
if (decryptedData == null)
{
decryptedData = new byte[length];
Array.Copy(dataAlign, 0, decryptedData, 0, length);
}
else
{
if (decryptedDataOffset < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(decryptedDataOffset));
}
if ((decryptedData.Length < length) || ((decryptedData.Length - length) < decryptedDataOffset))
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(decryptedData), Resources.InvalidDataOffset);
}
Array.Copy(dataAlign, 0, decryptedData, decryptedDataOffset, length);
}
return(length);
}
public static int EncryptData(ProviderType providerType, SafeKeyHandleImpl symKeyHandle, byte[] data, int dataOffset, int dataLength, ref byte[] encryptedData, int encryptedDataOffset, PaddingMode paddingMode, bool isDone, bool isStream)
{
if (dataOffset < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataOffset));
}
if (dataLength < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataLength));
}
if (dataOffset > data.Length)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(dataOffset), Resources.InvalidDataOffset);
}
var length = dataLength;
if (isDone)
{
length += 8;
}
// Выровненные данные
var dataAlignLength = (uint)dataLength;
var dataAlignArray = new byte[length];
Array.Clear(dataAlignArray, 0, length);
Array.Copy(data, dataOffset, dataAlignArray, 0, dataLength);
if (isDone)
{
var dataPadding = dataLength & 7;
var dataPaddingSize = (byte)(8 - dataPadding);
// Добпаление дополнения данных в зависимости от настроек
switch (paddingMode)
{
case PaddingMode.None:
if ((dataPadding != 0) && !isStream)
{
throw ExceptionUtility.CryptographicException(Resources.EncryptInvalidDataSize);
}
break;
case PaddingMode.Zeros:
if (dataPadding != 0)
{
dataAlignLength += dataPaddingSize;
// Дополнение заполняется нулевыми байтами
}
break;
case PaddingMode.PKCS7:
{
dataAlignLength += dataPaddingSize;
var paddingIndex = dataLength;
// Дополнение заполняется байтами, в каждый из которых записывается размер дополнения
while (paddingIndex < dataAlignLength)
{
dataAlignArray[paddingIndex++] = dataPaddingSize;
}
}
break;
case PaddingMode.ANSIX923:
{
dataAlignLength += dataPaddingSize;
// Дополнение заполняется нулевыми, кроме последнего - в него записывается размер дополнения
dataAlignArray[(int)((IntPtr)(dataAlignLength - 1))] = dataPaddingSize;
}
break;
case PaddingMode.ISO10126:
{
dataAlignLength += dataPaddingSize;
// Дополнение заполняется случайными байтами, кроме последнего - в него записывается размер дополнения
var randomPadding = new byte[dataPaddingSize - 1];
GetRandomNumberGenerator(providerType).GetBytes(randomPadding);
randomPadding.CopyTo(dataAlignArray, dataLength);
dataAlignArray[(int)((IntPtr)(dataAlignLength - 1))] = dataPaddingSize;
}
break;
default:
throw ExceptionUtility.Argument(nameof(paddingMode), Resources.InvalidPaddingMode);
}
}
// Шифрование данных
if (!CryptoApi.CryptEncrypt(symKeyHandle, SafeHashHandleImpl.InvalidHandle, false, 0, dataAlignArray, ref dataAlignLength, (uint)length))
{
throw CreateWin32Error();
}
// Копирование результата шифрования данных
if (encryptedData == null)
{
encryptedData = new byte[dataAlignLength];
Array.Copy(dataAlignArray, 0L, encryptedData, 0L, dataAlignLength);
}
else
{
if (encryptedDataOffset < 0)
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(encryptedDataOffset));
}
if ((encryptedData.Length < dataAlignLength) || ((encryptedData.Length - dataAlignLength) < encryptedDataOffset))
{
throw ExceptionUtility.ArgumentOutOfRange(nameof(encryptedDataOffset), Resources.InvalidDataOffset);
}
Array.Copy(dataAlignArray, 0L, encryptedData, encryptedDataOffset, dataAlignLength);
}
return((int)dataAlignLength);
}
public static SafeKeyHandleImpl ImportBulkSessionKey(ProviderType providerType, SafeProvHandleImpl providerHandle, byte[] bulkSessionKey, RNGCryptoServiceProvider randomNumberGenerator)
{
if (bulkSessionKey == null)
{
throw ExceptionUtility.ArgumentNull(nameof(bulkSessionKey));
}
if (randomNumberGenerator == null)
{
throw ExceptionUtility.ArgumentNull(nameof(randomNumberGenerator));
}
var hSessionKey = SafeKeyHandleImpl.InvalidHandle;
if (!CryptoApi.CryptGenKey(providerHandle, Constants.CALG_G28147, 0, ref hSessionKey))
{
throw CreateWin32Error();
}
var keyWrap = new Gost_28147_89_KeyExchangeInfo {
EncryptedKey = new byte[32]
};
Array.Copy(bulkSessionKey, keyWrap.EncryptedKey, 32);
SetKeyParameterInt32(hSessionKey, Constants.KP_MODE, Constants.CRYPT_MODE_ECB);
SetKeyParameterInt32(hSessionKey, Constants.KP_ALGID, Constants.CALG_G28147);
SetKeyParameterInt32(hSessionKey, Constants.KP_PADDING, Constants.ZERO_PADDING);
uint sessionKeySize = 32;
if (!CryptoApi.CryptEncrypt(hSessionKey, SafeHashHandleImpl.InvalidHandle, true, 0, keyWrap.EncryptedKey, ref sessionKeySize, sessionKeySize))
{
throw CreateWin32Error();
}
SetKeyParameterInt32(hSessionKey, Constants.KP_MODE, Constants.CRYPT_MODE_CFB);
var hashHandle = CreateHashImit(providerHandle, hSessionKey);
keyWrap.Ukm = new byte[8];
randomNumberGenerator.GetBytes(keyWrap.Ukm);
if (!CryptoApi.CryptSetHashParam(hashHandle, Constants.HP_HASHSTARTVECT, keyWrap.Ukm, 0))
{
throw CreateWin32Error();
}
if (!CryptoApi.CryptHashData(hashHandle, bulkSessionKey, 32, 0))
{
throw CreateWin32Error();
}
keyWrap.Mac = EndHashData(hashHandle);
keyWrap.EncryptionParamSet = GetKeyParameterString(hSessionKey, Constants.KP_CIPHEROID);
SetKeyExchangeExportAlgId(providerType, hSessionKey, Constants.CALG_SIMPLE_EXPORT);
SetKeyParameterInt32(hSessionKey, Constants.KP_MODE, Constants.CRYPT_MODE_ECB);
SetKeyParameterInt32(hSessionKey, Constants.KP_PADDING, Constants.ZERO_PADDING);
return(ImportKeyExchange(providerHandle, keyWrap, hSessionKey));
}
public static bool VerifySign(SafeProvHandleImpl providerHandle, SafeHashHandleImpl hashHandle, SafeKeyHandleImpl keyHandle, byte[] hashValue, byte[] signatureValue)
{
SetHashValue(hashHandle, hashValue);
return(CryptoApi.CryptVerifySignature(hashHandle, signatureValue, (uint)signatureValue.Length, keyHandle, null, 0));
}
