Am Freitag, dem 09.04.2021 um 10:11 +0800 schrieb Hangbin Liu: > On Thu, Apr 08, 2021 at 08:11:34AM -0700, Eric Biggers wrote: > > On Thu, Apr 08, 2021 at 07:58:08PM +0800, Hangbin Liu wrote: > > > On Thu, Apr 08, 2021 at 09:06:52AM +0800, Hangbin Liu wrote: > > > > > Also, couldn't you just consider WireGuard to be outside your FIPS > > > > > module > > > > > boundary, which would remove it from the scope of the certification? > > > > > > > > > > And how do you handle all the other places in the kernel that use > > > > > ChaCha20 and > > > > > SipHash? For example, drivers/char/random.c? > > > > > > > > Good question, I will check it and reply to you later. > > > > > > I just read the code. The drivers/char/random.c do has some fips > > > specific > > > parts(seems not related to crypto). After commit e192be9d9a30 ("random: > > > replace > > > non-blocking pool with a Chacha20-based CRNG") we moved part of chacha > > > code to > > > lib/chacha20.c and make that code out of control. > > > > > So you are saying that you removed drivers/char/random.c and > > lib/chacha20.c from > > your FIPS module boundary? Why not do the same for WireGuard? > > No, I mean this looks like a bug (using not allowed crypto in FIPS mode) and > we should fix it. The entirety of random.c is not compliant to FIPS rules. ChaCha20 is the least of the problems. SP800-90B is the challenge. This is one of the motivation of the design and architecture of the LRNG allowing different types of crypto and have a different approach to post-process the data. https://github.com/smuellerDD/lrng Ciao Stephan > > Thanks > Hangbin