Ard, On Mon, Feb 08, 2021 at 07:47:44AM +0100, Ard Biesheuvel wrote: > On Mon, 8 Feb 2021 at 07:37, Vitaly Chikunov <v...@altlinux.org> wrote: > > > > Herbert, > > > > On Fri, Jan 29, 2021 at 02:00:04PM +1100, Herbert Xu wrote: > > > On Thu, Jan 28, 2021 at 09:49:41PM -0500, Stefan Berger wrote: > > > > > > > > In my patch series I initially had registered the akciphers under the > > > > names > > > > ecc-nist-p192 and ecc-nist-p256 but now, in V4, joined them together as > > > > 'ecdsa'. This may be too generic for a name. Maybe it should be called > > > > ecsda-nist for the NIST family. > > > > > > What I'm proposing is specifying the curve in the name as well, i.e., > > > ecdsa-nist-p192 instead of just ecdsa or ecdsa-nist. > > > > > > This simplifies the task of handling hardware that only supports a > > > subset of curves. > > > > So, if some implementation supports multiple curves (like EC-RDSA > > currently supports 5 curves), it should add 5 ecrdsa-{a,b,c,..} > > algorithms with actually the same top level implementation? > > Right? > > > > Yes. The only difference will be the init() function, which can be > used to set the TFM properties that define which curve is being used. > The other routines can be generic, and refer to those properties if > the behavior is curve-specific.
Thanks. This may be good! JFYI. There is possible non-hardware accelerated implementations for ECC algorithms which (perhaps) may never go to the kernel source, because they are generated code. For example https://gitlab.com/nisec/ecckiila