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I currently have a pair of OWIN-based services that each use OAuth authentication against the same set of users. I intend to isolate the authorisation server (i.e. The token endpoint) and somehow configure both of my services to accept this token. I assume this would involve some configuration of all my services to allow this token to be decrypted across all relevant services. Is this possible?

4 Answers 4

20

After talking with Brock Allen in the comments to the original post, I can't really guarantee this is a good/safe solution, but this is the code I ended up using. (Note: a version of this code is available as a nuget package.)

I created a IDataProtector implementation that uses AES:

internal class AesDataProtectorProvider : IDataProtector
{
    // Fields
    private byte[] key;

    // Constructors
    public AesDataProtectorProvider(string key)
    {
        using (var sha1 = new SHA256Managed())
        {
            this.key = sha1.ComputeHash(Encoding.UTF8.GetBytes(key));
        }
    }

    // IDataProtector Methods
    public byte[] Protect(byte[] data)
    {
        byte[] dataHash;
        using (var sha = new SHA256Managed())
        {
            dataHash = sha.ComputeHash(data);
        }

        using (AesManaged aesAlg = new AesManaged())
        {
            aesAlg.Key = this.key;
            aesAlg.GenerateIV();

            using (var encryptor = aesAlg.CreateEncryptor(aesAlg.Key, aesAlg.IV))
            using (var msEncrypt = new MemoryStream())
            {
                msEncrypt.Write(aesAlg.IV, 0, 16);

                using (var csEncrypt = new CryptoStream(msEncrypt, encryptor, CryptoStreamMode.Write))
                using (var bwEncrypt = new BinaryWriter(csEncrypt))
                {
                    bwEncrypt.Write(dataHash);
                    bwEncrypt.Write(data.Length);
                    bwEncrypt.Write(data);
                }
                var protectedData = msEncrypt.ToArray();
                return protectedData;
            }
        }
    }

    public byte[] Unprotect(byte[] protectedData)
    {
        using (AesManaged aesAlg = new AesManaged())
        {
            aesAlg.Key = this.key;

            using (var msDecrypt = new MemoryStream(protectedData))
            {
                byte[] iv = new byte[16];
                msDecrypt.Read(iv, 0, 16);

                aesAlg.IV = iv;

                using (var decryptor = aesAlg.CreateDecryptor(aesAlg.Key, aesAlg.IV))
                using (var csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
                using (var brDecrypt = new BinaryReader(csDecrypt))
                {
                    var signature = brDecrypt.ReadBytes(32);
                    var len = brDecrypt.ReadInt32();
                    var data = brDecrypt.ReadBytes(len);

                    byte[] dataHash;
                    using (var sha = new SHA256Managed())
                    {
                        dataHash = sha.ComputeHash(data);
                    }

                    if (!dataHash.SequenceEqual(signature))
                        throw new SecurityException("Signature does not match the computed hash");

                    return data;
                }
            }
        }
    }
}

And then used this in an ISecureDataFormat implementation like so:

public class SecureTokenFormatter : ISecureDataFormat<AuthenticationTicket>
{
    // Fields
    private TicketSerializer serializer;
    private IDataProtector protector;
    private ITextEncoder encoder;

    // Constructors
    public SecureTokenFormatter(string key)
    {
        this.serializer = new TicketSerializer();
        this.protector = new AesDataProtectorProvider(key);
        this.encoder = TextEncodings.Base64Url;
    }

    // ISecureDataFormat<AuthenticationTicket> Members
    public string Protect(AuthenticationTicket ticket)
    {
        var ticketData = this.serializer.Serialize(ticket);
        var protectedData = this.protector.Protect(ticketData);
        var protectedString = this.encoder.Encode(protectedData);
        return protectedString;
    }

    public AuthenticationTicket Unprotect(string text)
    {
        var protectedData = this.encoder.Decode(text);
        var ticketData = this.protector.Unprotect(protectedData);
        var ticket = this.serializer.Deserialize(ticketData);
        return ticket;
    }
}

The 'key' parameter on the constructor can then set to the same value on a number of services and they will all be able to decrypt ('unprotect') and use the ticket.

7
  • 1
    Here you can find more 'ready' implementation of AesDataProtector: github.com/i4004/Owin.Security.AesDataProtectorProvider/blob/…
    – piotrwest
    Sep 14, 2015 at 17:00
  • @piotrwest Could you help me understand what makes the linked-to implementation more 'ready'? I did a quick overview and the only difference I see is the ability to inject crypto factories. Is there anything else? In what cases would one want to inject those factories rather than just use the concrete classes coded in this answer?
    – pettys
    Mar 17, 2016 at 19:28
  • 1
    @pettys, I should've linked to github.com/i4004/Owin.Security.AesDataProtectorProvider which clearly shows my intent, instead of the class. By ready I didn't meant better implemented/modeled/designed but put as a NuGet package. I guess I was just too lazy to copy and paste your code...
    – piotrwest
    Mar 17, 2016 at 23:15
  • @piotrwest Ah, that is better! :) Thanks for the explanation - upvoting your comment.
    – pettys
    Mar 18, 2016 at 19:54
  • 1
    @vikram - It just needs to be any secret value. It's a string here for convenience, but you can see in the constructor that I just convert it to bytes to feed into the algorithm as the key.
    – Barguast
    Apr 19, 2016 at 8:25
9

The Katana OAuth2 Authorization Server middleware wasn't really designed for this scenario (mainly because its reliance upon the machinekey for token verification).

If you're looking to centralize the token generation then you should look into an OAuth2 authorization server that's designed for this. Thinktecture AuthorizationServer is an open source server that does this: http://thinktecture.github.io/Thinktecture.AuthorizationServer/

5
  • I actually had some luck with this after posting. There is an AccessTokenFormat property on both the server configuration and bearer token configuration. I implemented ISecureDataFormat<AuthenticationTicket> to serialize the ticket and encrypt with AES. Provided I use the same cipher key for all of my services, the token appears to work on each of them. Do you see any issues with this approach? If not, I'll write this up a proper answer. Thanks for your reply.
    – Barguast
    Feb 16, 2014 at 23:25
  • The extensibility points are certainly there, so it's possible. It's just unfortunate that they leave this up to the general developer to fill these in. And this is why it's unfortunate -- you don't want encryption (per-se), but you want a signature to verify that it was issued from your server. Successful decryption doesn't provide trust. Feb 18, 2014 at 19:58
  • Thanks, though I'm struggling to see why my method could be harmful. It's just using AES over DPAPI, and there is an element of signature checking in there to ensure an invalid but decryptable token is still rejected.
    – Barguast
    Feb 18, 2014 at 21:54
  • All I'm saying is that if your app trusts this token, then you need for it to be signed. Encryption doesn't protect you against someone changing the token and then resubmitting it to you. You need a way to ensure it's not been modified and that it originated from your issuer. I didn't really know what your code is doing, so I wasn't sure if was being properly validated. Feb 19, 2014 at 16:32
  • I see. Thanks for clarifying. I'll post the code I ended up using.
    – Barguast
    Feb 19, 2014 at 18:09
0

I know this is an old question, but I had a similar use case. According to the docs, OWIN OAuth uses the machine key to protect the data. Since you control all instances, I presume that simply setting the machinekey in the web config would work.

Ref: http://msdn.microsoft.com/en-us/library/microsoft.owin.security.oauth.oauthauthorizationserveroptions(v=vs.113).aspx

3
  • In this case I am self hosting in a Windows Service, and unless I'm mistaken you aren't able to set the machineKey in the app.config?
    – Barguast
    May 22, 2014 at 7:17
  • Sorry I assumed you were using IIS. According to the link I posted, it's using DPAPI by default in that case, which is linked with the user account (and password). In that case I'd say implementing your own data protector might be your best bet, but make sure you use a well known algorithm. I don't know where you found yours, so I won't vouch for it's relative safety, but it appears to be a good start.
    – jbblanchet
    May 22, 2014 at 11:38
  • Thanks, it's been in use for the past few months and it works wonderfully.
    – Barguast
    May 22, 2014 at 11:40
0

You can use this nuget package https://www.nuget.org/packages/Owin.Security.AesDataProtectorProvider/

It contains extension method for IAppBuilder that allows you setup own key

appBuilder.UseAesDataProtectorProvider(key);

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