Ok, you?re talking about OpenSSL command line tool only, I missed that part. The solution should then be to modify apps/ca.c:certify() function to add an arg, and avoid the call to X509_REQ_verify when desired. Cordialement, Erwann Abalea Le 29 juin 2016 ? 19:17, Michael Scott <mike.scott at miracl.com<mailto:mike.scott at miracl.com>> a ?crit : Thanks Erwann, but that's not an answer to my question. To get the CA to sign (using RSA or anything) a certificate that contains an X25519 public key, that certificate must first submit to the CA something called a "Certificate request". This takes the form of the supplicant certificate, which is self-signed. However you cannot self-sign with an X25519 key (using the openssl command line tool), as it objects that X25519 does not support signature. So the issue arises around the "certificate request" process. There is I agree no problem in creating the certificate itself. Mike On Wed, Jun 29, 2016 at 4:27 PM, Erwann Abalea <Erwann.Abalea at docusign.com<mailto:Erwann.Abalea at docusign.com>> wrote: Bonjour, You may have a classic certificate containing your {X,Ed}{25519,448,whatever} public key once: * an OID is allocated to identify this type of public key (it will go into tbs.subjectPublicKeyInfo.algorithm.algorithm) * a set of associated optional parameters are defined for this OID (to go into tbs.subjectPublicKeyInfo.algorithm.parameters) * a canonical encoding for this type of public key is defined, so the key material can be enclosed into tbs.subjectPublicKeyInfo.subjectPublicKey This certificate may be RSA-signed or ECDSA-signed (or whatever-signed, in fact). For a CA to be able to Ed{25519,448,whatever}-sign something, the previous steps must have been done, plus: * an OID is allocated to identify the signature algorithm to apply (it will not be ECDSA) -> cert.signatureAlgorithm.algorithm * a set of associated optional parameters are defined for this OID -> cert.signatureAlgorithm.parameters * a canonical encoding for the signature value is defined, so it can be enclosed into cert.signatureValue All this is being discussed at CFRG. Cordialement, Erwann Abalea Le 29 juin 2016 ? 16:46, Michael Scott <mike.scott at miracl.com<mailto:mike.scott at miracl.com>> a ?crit : Hello, How do I do this? Using the OpenSSL command line tool, a certificate request must be self-signed, but the X25519 elliptic curve (newly supported in version 1.1.0), doesn't do signature, it can only be used for key exchange. (Of course the X25519 Montgomery curve is birationally equivalent to an Edwards curve which can do signature. And indeed it is our intention to use the Edwards curve. But first I need a CA-signed X25519 cert. But because of the above catch-22 problem, I cannot create one.) Mike -- openssl-users mailing list To unsubscribe: https://mta.openssl.org/mailman/listinfo/openssl-users -- openssl-users mailing list To unsubscribe: https://mta.openssl.org/mailman/listinfo/openssl-users -- openssl-users mailing list To unsubscribe: https://mta.openssl.org/mailman/listinfo/openssl-users -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://mta.openssl.org/pipermail/openssl-users/attachments/20160630/3f55399e/attachment.html>