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Currently I'm writing it in clear text oops!, it's an in house program so it's not that bad but I'd like to do it right. How should I go about encrypting this when writing to the registry and how do I decrypt it?

OurKey.SetValue("Password", textBoxPassword.Text);
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1  
There's an answer in a related question - Simple 2 way encryption for C# –  Richard Dorman Oct 17 '08 at 15:00
    
You could ask the user a password to encrypt the data. Split the string into char array and cast the characters into integer and sum all the integers. Shift each byte in the string by the sum and it'll be secured. –  Sri Harsha Chilakapati Jul 2 '12 at 1:47

11 Answers 11

You don't decrypt authentication passwords!

Hash them using something like the SHA256 provider and when you have to challenge, hash the input from the user and see if the two hashes match.

byte[] data = System.Text.Encoding.ASCII.GetBytes(inputString);
data = new System.Security.Cryptography.SHA256Managed().ComputeHash(data);
String hash = System.Text.Encoding.ASCII.GetString(data);

Regarding the down-votes: justify your decision, please... Leaving passwords reversible is a really horrible model.

Edit2: I thought we were just talking about front-line authentication. Sure there are cases where you want to encrypt passwords for other things that need to be reversible but there should be a 1-way lock on top of it all (with a very few exceptions).

I've upgraded the hashing algorithm but for the best possible strength you want to keep a private salt and add that to your input before hashing it. You would do this again when you compare. This adds another layer making it even harder for somebody to reverse.

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Generally, it is a bad idea to store passwords, but there are legitimate reasons to do so. Maybe not in the registry, but... For example, I have a web application that needs to access a web service using a service id/password. I store that encrypted in the web config. –  tvanfosson Oct 17 '08 at 15:03
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"Leaving passwords reversible is a really horrible model." - if you want to save passwords needed to authenticate to an external service, there's no alternative. CredUI is provided for secure storage of encrypted passwords. –  Joe Jan 16 '10 at 16:16
2  
@Mark: so he can address the reasons for the down-votes by improving his answer. –  outis May 27 '11 at 21:32
31  
Please don't recommend MD5. MD5 is not safe for securing passwords. MD5 will get you and your company in the news for the wrong reasons. MD5 is easy to break. I repeat: MD5 is easy to break. Don't recommend SHA-1 either for the same reasons. Do recommend PBKDF2, bcrypt, or even scrypt. –  Nick Chammas Jun 12 '12 at 18:12
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I'm not comfortable enough with C# to edit in an alternative in code, but obviously I encourage you to least add a note to your answer calling out the known dangers of using MD5 to hash passwords. –  Nick Chammas Jun 13 '12 at 11:24

Please also consider "salting" your hash (not a culinary concept!). Basically, that means appending some random text to the password before you hash it.

"The salt value helps to slow an attacker perform a dictionary attack should your credential store be compromised, giving you additional time to detect and react to the compromise."

To store password hashes:

a) Generate a random salt value:

byte[] salt = new byte[32];
System.Security.Cryptography.RNGCryptoServiceProvider.Create().GetBytes(salt);

b) Append the salt to the password.

// Convert the plain string pwd into bytes
byte[] plainTextBytes = System.Text UnicodeEncoding.Unicode.GetBytes(plainText);
// Append salt to pwd before hashing
byte[] combinedBytes = new byte[plainTextBytes.Length + salt.Length];
System.Buffer.BlockCopy(plainTextBytes, 0, combinedBytes, 0, plainTextBytes.Length);
System.Buffer.BlockCopy(salt, 0, combinedBytes, plainTextBytes.Length, salt.Length);

c) Hash the combined password & salt:

// Create hash for the pwd+salt
System.Security.Cryptography.HashAlgorithm hashAlgo = new System.Security.Cryptography.SHA256Managed();
byte[] hash = hashAlgo.ComputeHash(combinedBytes);

d) Append the salt to the resultant hash.

// Append the salt to the hash
byte[] hashPlusSalt = new byte[hash.Length + salt.Length];
System.Buffer.BlockCopy(hash, 0, hashPlusSalt, 0, hash.Length);
System.Buffer.BlockCopy(salt, 0, hashPlusSalt, hash.Length, salt.Length);

e) Store the result in your user store database.

This approach means you don't need to store the salt separately and then recompute the hash using the salt value and the plaintext password value obtained from the user.

Edit: As raw computing power becomes cheaper and faster, the value of hashing -- or salting hashes -- has declined. Jeff Atwood has an excellent 2012 update too lengthy to repeat in its entirety here which states:

This (using salted hashes) will provide the illusion of security more than any actual security. Since you need both the salt and the choice of hash algorithm to generate the hash, and to check the hash, it's unlikely an attacker would have one but not the other. If you've been compromised to the point that an attacker has your password database, it's reasonable to assume they either have or can get your secret, hidden salt.

The first rule of security is to always assume and plan for the worst. Should you use a salt, ideally a random salt for each user? Sure, it's definitely a good practice, and at the very least it lets you disambiguate two users who have the same password. But these days, salts alone can no longer save you from a person willing to spend a few thousand dollars on video card hardware, and if you think they can, you're in trouble.

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"appending some random text" makes it sound a little dodgy. The text is static for the database, no? The challenge has to go through the same process so.. yeah.. Store the salt or use a salt based on static data (username, user ID, etc). –  Oli Oct 17 '08 at 15:16
    
I've done both static and random text. I believe the argument for random is that if a really determined hacker manages to figure out the static salt text, then they know the salt for all passwords. OTOH, there is a performance hit involved in generating the random salt text. –  DOK Oct 17 '08 at 15:30
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He's been storing this in plaintext and you're worried about salt? Seriously? –  Mark Brady Mar 23 '09 at 17:18
    
Generating a random salt is overkill. UserID will make it unique per user. If you want to change it periodically the last login timestamp will provide a series of continually changing values. –  Dan Neely Sep 13 '10 at 18:53
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@Dan Neely: You're going to use UserID for salt? In the big companies I work for, UserID is public information. We're trying to salt with something not easily guessed by a hacker. If salt is a predictable pattern, that just makes it easier to hack. I'm sticking with Microsoft Patterns & Practices Security Practices (the linked article, which, yes, is "retired"). –  DOK Sep 14 '10 at 12:41

One option would be to store the hash (SHA1, MD5) of the password instead of the clear-text password, and whenever you want to see if the password is good, just compare it to that hash.

If you need secure storage (for example for a password that you will use to connect to a service), then the problem is more complicated.

If it is just for authentication, then it would be enough to use the hash.

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This is what you would like to do:

OurKey.SetValue("Password", StringEncryptor.EncryptString(textBoxPassword.Text));
OurKey.GetValue("Password", StringEncryptor.DecryptString(textBoxPassword.Text));

You can do that with this the following classes. This class is a generic class is the client endpoint. It enables IOC of various encryption algorithms using Ninject.

public class StringEncryptor
{
    private static IKernel _kernel;

    static StringEncryptor()
    {
        _kernel = new StandardKernel(new EncryptionModule());
    }

    public static string EncryptString(string plainText)
    {
        return _kernel.Get<IStringEncryptor>().EncryptString(plainText);
    }

    public static string DecryptString(string encryptedText)
    {
        return _kernel.Get<IStringEncryptor>().DecryptString(encryptedText);
    }
}

This next class is the ninject class that allows you to inject the various algorithms:

public class EncryptionModule : StandardModule
{
    public override void Load()
    {
        Bind<IStringEncryptor>().To<TripleDESStringEncryptor>();
    }
}

This is the interface that any algorithm needs to implement to encrypt/decrypt strings:

public interface IStringEncryptor
{
    string EncryptString(string plainText);
    string DecryptString(string encryptedText);
}

This is a implementation using the TripleDES algorithm:

public class TripleDESStringEncryptor : IStringEncryptor
{
    private byte[] _key;
    private byte[] _iv;
    private TripleDESCryptoServiceProvider _provider;

    public TripleDESStringEncryptor()
    {
        _key = System.Text.ASCIIEncoding.ASCII.GetBytes("GSYAHAGCBDUUADIADKOPAAAW");
        _iv = System.Text.ASCIIEncoding.ASCII.GetBytes("USAZBGAW");
        _provider = new TripleDESCryptoServiceProvider();
    }

    #region IStringEncryptor Members

    public string EncryptString(string plainText)
    {
        return Transform(plainText, _provider.CreateEncryptor(_key, _iv));
    }

    public string DecryptString(string encryptedText)
    {
        return Transform(encryptedText, _provider.CreateDecryptor(_key, _iv));
    }

    #endregion

    private string Transform(string text, ICryptoTransform transform)
    {
        if (text == null)
        {
            return null;
        }
        using (MemoryStream stream = new MemoryStream())
        {
            using (CryptoStream cryptoStream = new CryptoStream(stream, transform, CryptoStreamMode.Write))
            {
                byte[] input = Encoding.Default.GetBytes(text);
                cryptoStream.Write(input, 0, input.Length);
                cryptoStream.FlushFinalBlock();

                return Encoding.Default.GetString(stream.ToArray());
            }
        }
    }
}

You can watch my video and download the code for this at : http://www.wrightin.gs/2008/11/how-to-encryptdecrypt-sensitive-column-contents-in-nhibernateactive-record-video.html

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So, scraping away all the cruft, this response suggests using TripleDESCryptoServiceProvider (I generally wouldn't use 3DES when AES and other "modern" encryption services are available.) –  user166390 Mar 2 '11 at 20:01
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@pst He's demonstrating how to make your implementation pluggable with any encryption method, rather than recommending any particular method. It's good to be able to swap it out as encryption cracking techniques advance over time. –  Chris Moschini Mar 28 '11 at 22:13

If you want to be able to decrypt the password, I think the easiest way would be to use DPAPI (user store mode) to encrypt/decrypt. This way you don't have to fiddle with encryption keys, store them somewhere or hard-code them in your code - in both cases somebody can discover them by looking into registry, user settings or using Reflector.

Otherwise use hashes SHA1 or MD5 like others have said here.

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Like ligget78 said, DPAPI would be a good way to go for storing passwords. Check out the ProtectedData class on MSDN for example usage.

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If it's a password used for authentication by your application, then hash the password as others suggest.

If you're storing passwords for an external resource, you'll often want to be able to prompt the user for these credentials and give him the opportunity to save them securely. Windows provides the Credentials UI (CredUI) for this purpose - there are a number of samples showing how to use this in .NET, including this one on MSDN.

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I have looked all over for a good example of encryption and decryption process but most were overly complex.

Anyhow there are many reasons someone may want to decrypt some text values including passwords. The reason I need to decrypt the password on the site I am working on currently is because they want to make sure when someone is forced to change their password when it expires that we do not let them change it with a close variant of the same password they used in the last x months.

So I wrote up a process that will do this in a simplified manner. I hope this code is beneficial to someone. For all I know I may end up using this at another time for a different company/site.

public string GenerateAPassKey(string passphrase)
    {
        // Pass Phrase can be any string
        string passPhrase = passphrase;
        // Salt Value can be any string(for simplicity use the same value as used for the pass phrase)
        string saltValue = passphrase;
        // Hash Algorithm can be "SHA1 or MD5"
        string hashAlgorithm = "SHA1";
        // Password Iterations can be any number
        int passwordIterations = 2;
        // Key Size can be 128,192 or 256
        int keySize = 256;
        // Convert Salt passphrase string to a Byte Array
        byte[] saltValueBytes = Encoding.ASCII.GetBytes(saltValue);
        // Using System.Security.Cryptography.PasswordDeriveBytes to create the Key
        PasswordDeriveBytes pdb = new PasswordDeriveBytes(passPhrase, saltValueBytes, hashAlgorithm, passwordIterations);
        //When creating a Key Byte array from the base64 string the Key must have 32 dimensions.
        byte[] Key = pdb.GetBytes(keySize / 11);
        String KeyString = Convert.ToBase64String(Key);

        return KeyString;
    }

 //Save the keystring some place like your database and use it to decrypt and encrypt
//any text string or text file etc. Make sure you dont lose it though.

 private static string Encrypt(string plainStr, string KeyString)        
    {            
        RijndaelManaged aesEncryption = new RijndaelManaged();
        aesEncryption.KeySize = 256;
        aesEncryption.BlockSize = 128;
        aesEncryption.Mode = CipherMode.ECB;
        aesEncryption.Padding = PaddingMode.ISO10126;
        byte[] KeyInBytes = Encoding.UTF8.GetBytes(KeyString);
        aesEncryption.Key = KeyInBytes;
        byte[] plainText = ASCIIEncoding.UTF8.GetBytes(plainStr);
        ICryptoTransform crypto = aesEncryption.CreateEncryptor();
        byte[] cipherText = crypto.TransformFinalBlock(plainText, 0, plainText.Length);
        return Convert.ToBase64String(cipherText);
    }

 private static string Decrypt(string encryptedText, string KeyString) 
    {
        RijndaelManaged aesEncryption = new RijndaelManaged(); 
        aesEncryption.KeySize = 256;
        aesEncryption.BlockSize = 128; 
        aesEncryption.Mode = CipherMode.ECB;
        aesEncryption.Padding = PaddingMode.ISO10126;
        byte[] KeyInBytes = Encoding.UTF8.GetBytes(KeyString);
        aesEncryption.Key = KeyInBytes;
        ICryptoTransform decrypto = aesEncryption.CreateDecryptor(); 
        byte[] encryptedBytes = Convert.FromBase64CharArray(encryptedText.ToCharArray(), 0, encryptedText.Length); 
        return ASCIIEncoding.UTF8.GetString(decrypto.TransformFinalBlock(encryptedBytes, 0, encryptedBytes.Length)); 
    }

 String KeyString = GenerateAPassKey("PassKey");
 String EncryptedPassword = Encrypt("25Characterlengthpassword!", KeyString);
 String DecryptedPassword = Decrypt(EncryptedPassword, KeyString);
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..NET provides cryptographics services in class contained in the System.Security.Cryptography namespace.

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Rather than encrypt/decrypt, you should be passing the password through a hashing algorithm, md5/sha512, or similar. What you would ideally do is hash the password and store the hash, then when the password is needed, you hash the entry and compare the entries. A password will then never be "decrypted", simply hashed and then compared.

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If you need more than this, for example securing a connection string (for connection to a database), check this article, as it provides the best "option" for this.

Oli's answer is also good, as it shows how you can create a hash for a string.

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