Re: [PATCH v2 1/2] security/keys/secure_key: Adds the secure key support based on CAAM.

From: James Bottomley
Date: Fri Aug 03 2018 - 11:49:02 EST


On Fri, 2018-08-03 at 10:45 -0400, Mimi Zohar wrote:
> On Fri, 2018-08-03 at 07:23 -0700, James Bottomley wrote:
> > On Fri, 2018-08-03 at 07:58 -0400, Mimi Zohar wrote:
> > > On Thu, 2018-08-02 at 17:14 +0100, David Howells wrote:
> > > > Udit Agarwal <udit.agarwal@xxxxxxx> wrote:
> > > >
> > > > > +==========
> > > > > +Secure Key
> > > > > +==========
> > > > > +
> > > > > +Secure key is the new type added to kernel key ring service.
> > > > > +Secure key is a symmetric type key of minimum length 32
> > > > > bytes
> > > > > +and with maximum possible length to be 128 bytes. It is
> > > > > produced
> > > > > +in kernel using the CAAM crypto engine. Userspace can only
> > > > > see
> > > > > +the blob for the corresponding key. All the blobs are
> > > > > displayed
> > > > > +or loaded in hex ascii.
> > > >
> > > > To echo Mimi, this sounds suspiciously like it should have a
> > > > generic interface, not one that's specifically tied to one
> > > > piece of
> > > > hardware - particularly if it's named with generic "secure".
> > > >
> > > > Can you convert this into a "symmetric" type and make the
> > > > backend
> > > > pluggable?
> > >
> > > TPM 1.2 didn't support symmetric keys. ÂFor this reason, the TPM
> > > "unseals" the random number, used as a symmetric key, and returns
> > > the
> > > "unsealed" data to the kernel.
> > >
> > > Does anyone know if CAAM or TPM 2.0 have support for symmetric
> > > keys?
> >
> > It depends what you mean by "support".ÂÂThe answer is technically
> > yes,
> > it's the TPM2_EncryptDecrypt primitive.ÂÂHowever, the practical
> > answer
> > is that symmetric keys are mostly used for bulk operations and the
> > TPM
> > and its bus are way too slow to support that, so the only real,
> > practical use case is to have the TPM govern the release conditions
> > for
> > symmetric keys which are later used by a fast bulk
> > encryptor/decryptor
> > based in software.
> >
> > > ÂIf they have symmetric key support, there would be no need for
> > > the
> > > symmetric key ever to leave the device in the clear. ÂThe device
> > > would unseal/decrypt data, such as an encrypted key.
> > >
> > > The "symmetric" key type would be a generic interface for
> > > different
> > > devices.
> >
> > It's possible, but it would only work for a non-bulk use case; do
> > we
> > have one of those?
>
> "trusted" keys are currently being used to decrypt other keys (eg.
> encrypted, ecryptfs, ...).

Yes, but that's just double encryption: it serves no real security
purpose because at the end of the chain, the symmetric key is released
into kernel memory to use in software crypto. Unless you're using a
high speed (and high cost) crypto accelerator with HSA, this will
always be the case for bulk crypto.

The other slight problem with this chain of crypto is that I can impose
conditions on the key release from the TPM (well TPM2, since TPM1.2 has
a very weak policy engine) but if we use intermediate steps, those
conditions might not be preserved, so I think the ideal would be a
trusted key being released directly to LUKS or ecryptfs because the TPM
can then verify the policy at actual unseal time. I get that for the
ecryptfs case you might want one key per file for sharding and sharing,
and that's more like a bulk case because the TPM isn't going to keep up
with the number of unseal operations required.

James