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I am writing a .Net Class that reads a cookie from our central authentication server. It contains the UserId, some timestamps and a signature created by openssl_sign() using a 2048 Bit RSA key and a SHA1 Hash.

The current public key is provided in openssl PEM format on the server and changes on occasion. I cannot read the Key using .Net managed code alone (yet) and worked out the following procedure to get it working:

  • Extract Exponent and Modulus from the public key
  • Check key is still 2048 Bit
  • Store key length, exponent an modulus in Source, compile and deploy (Drop leading zeroes from the Modulus to make it work)

The Class then creates a new RSACryptoServiceProvider(2048) and feeds the public components using the RSAParameters structure into the CSP. Verification of the signature then succeeds.

I would like to get this working without me creating, compiling and deploying a new Assembly each time the key changes. To make things interesting I would like to stick to managed code only (rules out most examples I found). Something that sounds perfect is the internal ASN.1 Reader when creating an instance of AsnEncodedData(oid, data) but the only oid I found that could match, RSA aka 1.2.840.113549.1.1.1, did not work and produced raw bytes only.

Added: former public key

-----BEGIN PUBLIC KEY-----
MFwwDQYJKoZIhvcNAQEBBQADSwAwSAJBAMW90O6C17fapbS35auKolsy7kI0FOE1
C08y5HqgZ0rMXoocV4nHSHYBm2HVx2QSR5OLQtERgWDmxOu+vwU1GXUCAwEAAQ==
-----END PUBLIC KEY-----

I found pempublic.cs wich seems to solve this using (as it seems) sourcecode from openSSL. I will leave the question open to see if there are any other solutions.

share|improve this question
    
Any luck with this? have seen like 5 questions identical, the closest answer is the pempublic.cs file. Still this files looks kinda messy. – Devela Jan 27 '14 at 6:40

To load private key let's use this code:

private RSACryptoServiceProvider GetPrivateKey(string privateKey)
    {
        byte[] privkey = Convert.FromBase64String(privateKey);
        byte[] MODULUS, E, D, P, Q, DP, DQ, IQ;

        // --------- Set up stream to decode the asn.1 encoded RSA private key ------
        MemoryStream mem = new MemoryStream(privkey);
        BinaryReader binr = new BinaryReader(mem);  //wrap Memory Stream with BinaryReader for easy reading
        byte bt = 0;
        ushort twobytes = 0;
        int elems = 0;
        try
        {
            twobytes = binr.ReadUInt16();
            if (twobytes == 0x8130) //data read as little endian order (actual data order for Sequence is 30 81)
                binr.ReadByte();    //advance 1 byte
            else if (twobytes == 0x8230)
                binr.ReadInt16();    //advance 2 bytes
            else
                return null;

            twobytes = binr.ReadUInt16();
            if (twobytes != 0x0102) //version number
                return null;
            bt = binr.ReadByte();
            if (bt != 0x00)
                return null;


            //------ all private key components are Integer sequences ----
            elems = GetIntegerSize(binr);
            MODULUS = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            E = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            D = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            P = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            Q = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            DP = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            DQ = binr.ReadBytes(elems);

            elems = GetIntegerSize(binr);
            IQ = binr.ReadBytes(elems);

            // ------- create RSACryptoServiceProvider instance and initialize with public key -----
            CspParameters CspParameters = new CspParameters();
            CspParameters.Flags = CspProviderFlags.UseMachineKeyStore;
            RSACryptoServiceProvider RSA = new RSACryptoServiceProvider(1024, CspParameters);
            RSAParameters RSAparams = new RSAParameters();
            RSAparams.Modulus = MODULUS;
            RSAparams.Exponent = E;
            RSAparams.D = D;
            RSAparams.P = P;
            RSAparams.Q = Q;
            RSAparams.DP = DP;
            RSAparams.DQ = DQ;
            RSAparams.InverseQ = IQ;
            RSA.ImportParameters(RSAparams);
            return RSA;
        }
        catch (Exception ex)
        {
            return null;
        }
        finally
        {
            binr.Close();
        }
    }

To load public key let's use this code:

private RSACryptoServiceProvider GetPublicKey(string publicKeyString)
    {
        // encoded OID sequence for  PKCS #1 rsaEncryption szOID_RSA_RSA = "1.2.840.113549.1.1.1"
        byte[] SeqOID = {0x30, 0x0D, 0x06, 0x09, 0x2A, 0x86, 0x48, 0x86, 0xF7, 0x0D, 0x01, 0x01, 0x01, 0x05, 0x00} ;
        byte[] x509key;
        byte[] seq = new byte[15];
        int x509size;

        x509key = Convert.FromBase64String(publicKeyString);
        x509size = x509key.Length;

        // ---------  Set up stream to read the asn.1 encoded SubjectPublicKeyInfo blob  ------
        MemoryStream mem = new MemoryStream(x509key);
        BinaryReader binr = new BinaryReader(mem);    //wrap Memory Stream with BinaryReader for easy reading
        byte bt = 0;
        ushort twobytes = 0;

        try
        {

            twobytes = binr.ReadUInt16();
            if (twobytes == 0x8130) //data read as little endian order (actual data order for Sequence is 30 81)
                binr.ReadByte();    //advance 1 byte
            else if (twobytes == 0x8230)
                binr.ReadInt16();   //advance 2 bytes
            else
                return null;

            seq = binr.ReadBytes(15);       //read the Sequence OID
            if (!CompareBytearrays(seq, SeqOID))    //make sure Sequence for OID is correct
                return null;

            twobytes = binr.ReadUInt16();
            if (twobytes == 0x8103) //data read as little endian order (actual data order for Bit String is 03 81)
                binr.ReadByte();    //advance 1 byte
            else if (twobytes == 0x8203)
                binr.ReadInt16();   //advance 2 bytes
            else
                return null;

            bt = binr.ReadByte();
            if (bt != 0x00)     //expect null byte next
                return null;

            twobytes = binr.ReadUInt16();
            if (twobytes == 0x8130) //data read as little endian order (actual data order for Sequence is 30 81)
                binr.ReadByte();    //advance 1 byte
            else if (twobytes == 0x8230)
                binr.ReadInt16();   //advance 2 bytes
            else
                return null;

            twobytes = binr.ReadUInt16();
            byte lowbyte = 0x00;
            byte highbyte = 0x00;

            if (twobytes == 0x8102) //data read as little endian order (actual data order for Integer is 02 81)
                lowbyte = binr.ReadByte();  // read next bytes which is bytes in modulus
            else if (twobytes == 0x8202)
            {
                highbyte = binr.ReadByte(); //advance 2 bytes
                lowbyte = binr.ReadByte();
            }
            else
                return null;
            byte[] modint = { lowbyte, highbyte, 0x00, 0x00 };   //reverse byte order since asn.1 key uses big endian order
            int modsize = BitConverter.ToInt32(modint, 0);

            int firstbyte = binr.PeekChar();
            if (firstbyte == 0x00)
            {   //if first byte (highest order) of modulus is zero, don't include it
                binr.ReadByte();    //skip this null byte
                modsize -= 1;   //reduce modulus buffer size by 1
            }

            byte[] modulus = binr.ReadBytes(modsize);   //read the modulus bytes

            if (binr.ReadByte() != 0x02)            //expect an Integer for the exponent data
                return null;
            int expbytes = (int)binr.ReadByte();        // should only need one byte for actual exponent data (for all useful values)
            byte[] exponent = binr.ReadBytes(expbytes);

            // ------- create RSACryptoServiceProvider instance and initialize with public key -----
            RSACryptoServiceProvider RSA = new RSACryptoServiceProvider();
            RSAParameters RSAKeyInfo = new RSAParameters();
            RSAKeyInfo.Modulus = modulus;
            RSAKeyInfo.Exponent = exponent;
            RSA.ImportParameters(RSAKeyInfo);

            return RSA;
        }

        finally
        {
            binr.Close();
        }
    }

You can read the original post here to get more detail

share|improve this answer
    
how do i get integersize? – th1rdey3 Feb 10 at 13:48
    
read the original post at link – Pham Hong Phong Apr 17 at 15:52

You have the private key, so it's probably easier to generate a self-signed certificate from the key. You can use System.Security.Cryptography.X509Certificates.X509Certificate (I think you should have the certificate in DER / ASN.1 format rather thant PEM) to load the certificate and X509Certificate.GetPublicKey() to get the public key.

share|improve this answer
    
Sorry for the late feedback but your answer was not helpful. I do not have access to the private key from this application and the core of my question is how to get DER or ASN.1 from PEM. – Stephan B Jul 14 '11 at 23:06

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