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I have a very limited channel within which to send messages and signatures, and have been indicated (over at that ECDSA offers the most compact asymmetrical algorithm going.

I've got this going fairly easily as:

void Main()
    byte[] publickey;
    byte[] data;
    byte[] signature;

    using (var dsa = new ECDsaCng(256))
        dsa.HashAlgorithm = CngAlgorithm.Sha256;
        publickey = dsa.Key.Export(CngKeyBlobFormat.EccPublicBlob);

        data = new byte[] { 21, 5, 8, 12, 207 };

        signature = dsa.SignData(data);


    using (var dsa = new ECDsaCng(CngKey.Import(publickey, CngKeyBlobFormat.EccPublicBlob)))
        dsa.HashAlgorithm = CngAlgorithm.Sha256;

        if (dsa.VerifyData(data, signature))
            Console.WriteLine("Data is good");
            Console.WriteLine("Data is bad");

But I'd like to be able to sacrifice some strength and use less than the minimum 256-bit key size that the BCL offers, and I haven't found an implementation that will do what I need.

I've tried BouncyCastle and that seems to out of the box have the same limitation.

What are my options? Is there another implementation out there that lifts the implementation limitation?

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I removed my answer; as you rightly point out, too much of the implementation is internal to System.Security. – dash Jun 28 '12 at 12:52
Yeah afraid so - I've tried setting the internal field values for the KeySizeValue and that just causes further problems. Internally it tries to select a key generation algorithm that just doesnt exist. – Kieran Benton Jun 28 '12 at 12:56
Did you try the lightweight API of Bouncy Castle? I don't know the C# variant (as I am a Java programmer) but I know for certain that the lightweight API in Java has no restrictions regarding key size (it even has plenty "named curves" stored with key sizes < 256). – Maarten Bodewes Jun 28 '12 at 15:24
@owlstead yes I gave it a go (in the C# port) but couldn't find an obvious way to do it as its a bit opaque and the documentation was down. Have you got a link to the appropriate place? – Kieran Benton Jun 28 '12 at 16:43
1 includes tests (can be used as samples) and documentation. I'll inform the BC maintainers about the wiki. – Maarten Bodewes Jun 28 '12 at 19:15
up vote 3 down vote accepted

You can use the lightweight Bouncy Castle library to perform EC cryptography with almost any curve over F(2m) or F(P), including those with smaller bitsizes. I would recommend you to use standard curves such as the ones defined in the Org.BouncyCastle.Asn1.Nist.NistNamedCurves class.

The smallest NIST curve is 163 bit although I would recommend going for 192 bit minimum for non-real time communications. Note that that would only save you about 16 bytes in total compared to a 256 bit named curve (256 - 192 = 64 bits, 64 * 2 / 8 = 16 bytes).

Brainpool curves are also well rather safely generated and well defined. You can find them in the Org.BouncyCastle.Asn1.TeleTrusT namespace.

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