/// <summary>
/// Create the hash.
/// This method is written with the help of Lyquidity library, many thanks for this nice sample
/// </summary>
/// <param name="password">The password</param>
/// <param name="encryptionInfo">The encryption info extracted from the ENCRYPTIOINFO stream inside the OLE document</param>
/// <returns>The hash to encrypt the document</returns>
private byte[] GetPasswordHash(string password, EncryptionInfo encryptionInfo)
{
byte[] hash = null;
byte[] tempHash = new byte[4+20]; //Iterator + prev. hash
try
{
HashAlgorithm hashProvider;
if (encryptionInfo.Header.AlgIDHash == AlgorithmHashID.SHA1 || encryptionInfo.Header.AlgIDHash == AlgorithmHashID.App && (encryptionInfo.Flags & Flags.fExternal) == 0)
{
hashProvider = new SHA1CryptoServiceProvider();
}
else if (encryptionInfo.Header.KeySize > 0 && encryptionInfo.Header.KeySize < 80)
{
throw new NotSupportedException("RC4 Hash provider is not supported. Must be SHA1(AlgIDHash == 0x8004)");
}
else
{
throw new NotSupportedException("Hash provider is invalid. Must be SHA1(AlgIDHash == 0x8004)");
}
hash = hashProvider.ComputeHash(CombinePassword(encryptionInfo.Verifier.Salt, password));
//Iterate 50 000 times, inserting i in first 4 bytes and then the prev. hash in byte 5-24
for (int i = 0; i < 50000; i++)
{
Array.Copy(BitConverter.GetBytes(i), tempHash, 4);
Array.Copy(hash, 0, tempHash, 4, hash.Length);
hash = hashProvider.ComputeHash(tempHash);
}
// Append "block" (0)
Array.Copy(hash, tempHash, hash.Length);
Array.Copy(System.BitConverter.GetBytes(0), 0, tempHash, hash.Length, 4);
hash = hashProvider.ComputeHash(tempHash);
/***** Now use the derived key algorithm *****/
byte[] derivedKey = new byte[64];
int keySizeBytes = encryptionInfo.Header.KeySize / 8;
//First XOR hash bytes with 0x36 and fill the rest with 0x36
for (int i = 0; i < derivedKey.Length; i++)
derivedKey[i] = (byte)(i < hash.Length ? 0x36 ^ hash[i] : 0x36);
byte[] X1 = hashProvider.ComputeHash(derivedKey);
//if verifier size is bigger than the key size we can return X1
if (encryptionInfo.Verifier.VerifierHashSize > keySizeBytes)
return FixHashSize(X1,keySizeBytes);
//Else XOR hash bytes with 0x5C and fill the rest with 0x5C
for (int i = 0; i < derivedKey.Length; i++)
derivedKey[i] = (byte)(i < hash.Length ? 0x5C ^ hash[i] : 0x5C);
byte[] X2 = hashProvider.ComputeHash(derivedKey);
//Join the two and return
byte[] join = new byte[X1.Length + X2.Length];
Array.Copy(X1, 0, join, 0, X1.Length);
Array.Copy(X2, 0, join, X1.Length, X2.Length);
return FixHashSize(join,keySizeBytes);
}
catch (Exception ex)
{
throw (new Exception("An error occured when the encryptionkey was created", ex));
}
}
/// <summary>
/// Validate the password
/// </summary>
/// <param name="key">The encryption key</param>
/// <param name="encryptionInfo">The encryption info extracted from the ENCRYPTIOINFO stream inside the OLE document</param>
/// <returns></returns>
private bool IsPasswordValid(byte[] key, EncryptionInfo encryptionInfo)
{
RijndaelManaged decryptKey = new RijndaelManaged();
decryptKey.KeySize = encryptionInfo.Header.KeySize;
decryptKey.Mode = CipherMode.ECB;
decryptKey.Padding = PaddingMode.None;
ICryptoTransform decryptor = decryptKey.CreateDecryptor(
key,
null);
//Decrypt the verifier
MemoryStream dataStream = new MemoryStream(encryptionInfo.Verifier.EncryptedVerifier);
CryptoStream cryptoStream = new CryptoStream(dataStream,
decryptor,
CryptoStreamMode.Read);
var decryptedVerifier = new byte[16];
cryptoStream.Read(decryptedVerifier, 0, 16);
dataStream = new MemoryStream(encryptionInfo.Verifier.EncryptedVerifierHash);
cryptoStream = new CryptoStream( dataStream,
decryptor,
CryptoStreamMode.Read);
//Decrypt the verifier hash
var decryptedVerifierHash = new byte[16];
cryptoStream.Read(decryptedVerifierHash, 0, (int)16);
//Get the hash for the decrypted verifier
var sha = new SHA1Managed();
var hash = sha.ComputeHash(decryptedVerifier);
//Equal?
for (int i = 0; i < 16; i++)
{
if (hash[i] != decryptedVerifierHash[i])
{
return false;
}
}
return true;
}
// Help method to print a storage part binary to c:\temp
//private void PrintStorage(IStorage storage, System.Runtime.InteropServices.ComTypes.STATSTG sTATSTG, string topName)
//{
// IStorage ds;
// if (topName.Length > 0)
// {
// topName = topName[0] < 'A' ? topName.Substring(1, topName.Length - 1) : topName;
// }
// storage.OpenStorage(sTATSTG.pwcsName,
// null,
// (uint)(STGM.DIRECT | STGM.READ | STGM.SHARE_EXCLUSIVE),
// IntPtr.Zero,
// 0,
// out ds);
// System.Runtime.InteropServices.ComTypes.STATSTG statstgSub;
// ds.Stat(out statstgSub, (uint)STATFLAG.STATFLAG_DEFAULT);
// IEnumSTATSTG pIEnumStatStgSub = null;
// System.Runtime.InteropServices.ComTypes.STATSTG[] regeltSub = { statstgSub };
// ds.EnumElements(0, IntPtr.Zero, 0, out pIEnumStatStgSub);
// uint fetched = 0;
// while (pIEnumStatStgSub.Next(1, regeltSub, out fetched) == 0)
// {
// string sName = regeltSub[0].pwcsName[0] < 'A' ? regeltSub[0].pwcsName.Substring(1, regeltSub[0].pwcsName.Length - 1) : regeltSub[0].pwcsName;
// if (regeltSub[0].type == 1)
// {
// PrintStorage(ds, regeltSub[0], topName + sName + "_");
// }
// else if(regeltSub[0].type==2)
// {
// File.WriteAllBytes(@"c:\temp\" + topName + sName + ".bin", GetOleStream(ds, regeltSub[0]));
// }
// }
//}
/// <summary>
/// Decrypt a document
/// </summary>
/// <param name="data">The Encrypted data</param>
/// <param name="encryptionInfo">Encryption Info object</param>
/// <param name="password">The password</param>
/// <returns></returns>
private MemoryStream DecryptDocument(byte[] data, EncryptionInfo encryptionInfo, string password)
{
if (encryptionInfo == null)
{
throw(new InvalidDataException("Invalid document. EncryptionInfo is missing"));
}
long size = BitConverter.ToInt64(data,0);
var encryptedData = new byte[data.Length - 8];
Array.Copy(data, 8, encryptedData, 0, encryptedData.Length);
MemoryStream doc = new MemoryStream();
if (encryptionInfo.Header.AlgID == AlgorithmID.AES128 || (encryptionInfo.Header.AlgID == AlgorithmID.Flags && ((encryptionInfo.Flags & (Flags.fAES | Flags.fExternal | Flags.fCryptoAPI)) == (Flags.fAES | Flags.fCryptoAPI)))
||
encryptionInfo.Header.AlgID == AlgorithmID.AES192
||
encryptionInfo.Header.AlgID == AlgorithmID.AES256
)
{
RijndaelManaged decryptKey = new RijndaelManaged();
decryptKey.KeySize = encryptionInfo.Header.KeySize;
decryptKey.Mode = CipherMode.ECB;
decryptKey.Padding = PaddingMode.None;
var key=GetPasswordHash(password, encryptionInfo);
if (IsPasswordValid(key, encryptionInfo))
{
ICryptoTransform decryptor = decryptKey.CreateDecryptor(
key,
null);
MemoryStream dataStream = new MemoryStream(encryptedData);
CryptoStream cryptoStream = new CryptoStream(dataStream,
decryptor,
CryptoStreamMode.Read);
var decryptedData = new byte[size];
cryptoStream.Read(decryptedData, 0, (int)size);
doc.Write(decryptedData, 0, (int)size);
}
else
{
throw(new UnauthorizedAccessException("Invalid password"));
}
}
return doc;
}
private MemoryStream GetStreamFromPackage(IStorage storage, ExcelEncryption encryption)
{
MemoryStream ret=null;
comTypes.STATSTG statstg;
storage.Stat(out statstg, (uint)STATFLAG.STATFLAG_DEFAULT);
IEnumSTATSTG pIEnumStatStg = null;
storage.EnumElements(0, IntPtr.Zero, 0, out pIEnumStatStg);
comTypes.STATSTG[] regelt = { statstg };
uint fetched = 0;
uint res = pIEnumStatStg.Next(1, regelt, out fetched);
//if (regelt[0].pwcsName == "DataSpaces")
//{
// PrintStorage(storage, regelt[0],"");
//}
if (res == 0)
{
byte[] data;
EncryptionInfo encryptionInfo = null;
while (res != 1)
{
switch (statstg.pwcsName)
{
case "EncryptionInfo":
data = GetOleStream(storage, statstg);
//File.WriteAllBytes(@"c:\temp\EncInfo1.bin", data);
encryptionInfo = new EncryptionInfo();
encryptionInfo.ReadBinary(data);
encryption.Algorithm = encryptionInfo.Header.AlgID == AlgorithmID.AES128 ?
EncryptionAlgorithm.AES128 :
encryptionInfo.Header.AlgID == AlgorithmID.AES192 ?
EncryptionAlgorithm.AES192 :
EncryptionAlgorithm.AES256;
break;
case "EncryptedPackage":
data = GetOleStream(storage, statstg);
ret = DecryptDocument(data, encryptionInfo, encryption.Password);
break;
}
if ((res = pIEnumStatStg.Next(1, regelt, out fetched)) != 1)
{
statstg = regelt[0];
}
}
}
Marshal.ReleaseComObject(pIEnumStatStg);
return ret;
}
/// <summary>
/// Create an EncryptionInfo object to encrypt a workbook
/// </summary>
/// <param name="password">The password</param>
/// <param name="algID"></param>
/// <param name="key">The Encryption key</param>
/// <returns></returns>
private EncryptionInfo CreateEncryptionInfo(string password, AlgorithmID algID, out byte[] key)
{
if (algID == AlgorithmID.Flags || algID == AlgorithmID.RC4)
{
throw(new ArgumentException("algID must be AES128, AES192 or AES256"));
}
var encryptionInfo = new EncryptionInfo();
encryptionInfo.MajorVersion = 4;
encryptionInfo.MinorVersion = 2;
encryptionInfo.Flags = Flags.fAES | Flags.fCryptoAPI;
//Header
encryptionInfo.Header = new EncryptionHeader();
encryptionInfo.Header.AlgID = algID;
encryptionInfo.Header.AlgIDHash = AlgorithmHashID.SHA1;
encryptionInfo.Header.Flags = encryptionInfo.Flags;
encryptionInfo.Header.KeySize =
(algID == AlgorithmID.AES128 ? 0x80 : algID == AlgorithmID.AES192 ? 0xC0 : 0x100);
encryptionInfo.Header.ProviderType = ProviderType.AES;
encryptionInfo.Header.CSPName = "Microsoft Enhanced RSA and AES Cryptographic Provider\0";
encryptionInfo.Header.Reserved1 = 0;
encryptionInfo.Header.Reserved2 = 0;
encryptionInfo.Header.SizeExtra = 0;
//Verifier
encryptionInfo.Verifier = new EncryptionVerifier();
encryptionInfo.Verifier.Salt = new byte[16];
var rnd = RandomNumberGenerator.Create();
rnd.GetBytes(encryptionInfo.Verifier.Salt);
encryptionInfo.Verifier.SaltSize = 0x10;
key = GetPasswordHash(password, encryptionInfo);
var verifier = new byte[16];
rnd.GetBytes(verifier);
encryptionInfo.Verifier.EncryptedVerifier = EncryptData(key, verifier,true);
//AES = 32 Bits
encryptionInfo.Verifier.VerifierHashSize = 0x20;
SHA1 sha= new SHA1Managed();
var verifierHash = sha.ComputeHash(verifier);
encryptionInfo.Verifier.EncryptedVerifierHash = EncryptData(key, verifierHash, false);
return encryptionInfo;
}
/// <summary>
/// Create the hash.
/// This method is written with the help of Lyquidity library, many thanks for this nice sample
/// </summary>
/// <param name="password">The password</param>
/// <param name="encryptionInfo">The encryption info extracted from the ENCRYPTIOINFO stream inside the OLE document</param>
/// <returns>The hash to encrypt the document</returns>
private byte[] GetPasswordHash(string password, EncryptionInfo encryptionInfo)
{
byte[] hash = null;
byte[] tempHash = new byte[4 + 20]; //Iterator + prev. hash
try
{
HashAlgorithm hashProvider;
if (encryptionInfo.Header.AlgIDHash == AlgorithmHashID.SHA1 || encryptionInfo.Header.AlgIDHash == AlgorithmHashID.App && (encryptionInfo.Flags & Flags.fExternal) == 0)
{
hashProvider = new SHA1CryptoServiceProvider();
}
else if (encryptionInfo.Header.KeySize > 0 && encryptionInfo.Header.KeySize < 80)
{
throw new NotSupportedException("RC4 Hash provider is not supported. Must be SHA1(AlgIDHash == 0x8004)");
}
else
{
throw new NotSupportedException("Hash provider is invalid. Must be SHA1(AlgIDHash == 0x8004)");
}
hash = hashProvider.ComputeHash(CombinePassword(encryptionInfo.Verifier.Salt, password));
//Iterate 50 000 times, inserting i in first 4 bytes and then the prev. hash in byte 5-24
for (int i = 0; i < 50000; i++)
{
Array.Copy(BitConverter.GetBytes(i), tempHash, 4);
Array.Copy(hash, 0, tempHash, 4, hash.Length);
hash = hashProvider.ComputeHash(tempHash);
}
// Append "block" (0)
Array.Copy(hash, tempHash, hash.Length);
Array.Copy(System.BitConverter.GetBytes(0), 0, tempHash, hash.Length, 4);
hash = hashProvider.ComputeHash(tempHash);
/***** Now use the derived key algorithm *****/
byte[] derivedKey = new byte[64];
int keySizeBytes = encryptionInfo.Header.KeySize / 8;
//First XOR hash bytes with 0x36 and fill the rest with 0x36
for (int i = 0; i < derivedKey.Length; i++)
{
derivedKey[i] = (byte)(i < hash.Length ? 0x36 ^ hash[i] : 0x36);
}
byte[] X1 = hashProvider.ComputeHash(derivedKey);
//if verifier size is bigger than the key size we can return X1
if (encryptionInfo.Verifier.VerifierHashSize > keySizeBytes)
{
return(FixHashSize(X1, keySizeBytes));
}
//Else XOR hash bytes with 0x5C and fill the rest with 0x5C
for (int i = 0; i < derivedKey.Length; i++)
{
derivedKey[i] = (byte)(i < hash.Length ? 0x5C ^ hash[i] : 0x5C);
}
byte[] X2 = hashProvider.ComputeHash(derivedKey);
//Join the two and return
byte[] join = new byte[X1.Length + X2.Length];
Array.Copy(X1, 0, join, 0, X1.Length);
Array.Copy(X2, 0, join, X1.Length, X2.Length);
return(FixHashSize(join, keySizeBytes));
}
catch (Exception ex)
{
throw (new Exception("An error occured when the encryptionkey was created", ex));
}
}