Date: Tue, 14 May 2024 08:11:06 -0600
From: James Bottomley <James.Bottomley@...senPartnership.com>
To: Ignat Korchagin <ignat@...udflare.com>
Cc: Jarkko Sakkinen <jarkko@...nel.org>, Ben Boeckel <me@...boeckel.net>, 
 Mimi Zohar <zohar@...ux.ibm.com>, David Howells <dhowells@...hat.com>, Paul
 Moore <paul@...l-moore.com>,  James Morris <jmorris@...ei.org>,
 serge@...lyn.com, linux-integrity@...r.kernel.org,
 keyrings@...r.kernel.org,  linux-kernel@...r.kernel.org,
 kernel-team@...udflare.com
Subject: Re: [RFC PATCH 0/2] TPM derived keys

On Tue, 2024-05-14 at 10:50 +0100, Ignat Korchagin wrote:
> On Mon, May 13, 2024 at 11:33 PM James Bottomley
> <James.Bottomley@...senpartnership.com> wrote:
> > 
> > On Mon, 2024-05-13 at 18:09 +0100, Ignat Korchagin wrote:
> > [...]
> > > TPM derived keys attempt to address the above use cases by
> > > allowing applications to deterministically derive unique
> > > cryptographic keys for their own purposes directly from the TPM
> > > seed in the owner hierarchy. The idea is that when an application
> > > requests a new key, instead of generating a random key and
> > > wrapping it with the TPM, the implementation generates a key via
> > > KDF(hierarchy seed, application specific info). Therefore, the
> > > resulting keys will always be cryptographically bound to the
> > > application itself and the device they were generated on.
> > 
> > So I think what confuses me is what the expected cryptographic
> > secrecy properties of the derived keys are.  I get they're a KDF of
> > seed and deterministic properties, but if those mixing values are
> > well known (as the path or binary checksum cases) then anyone with
> > access to the TPM can derive the key from user space because they
> > can easily obtain the mixing parameters and there's no protection
> > to the TPM keyed hash operation.
> > 
> > Consider the use case where two users are using derived keys on the
> > same system (so same TPM).  Assuming they use them to protect
> > sensitive information, what prevents user1 from simply deriving
> > user2's key and getting the information, or am I missing the point
> > of this?
> 
> You are correct: it is possible, but in practice it would be limited
> only to privileged users/applications. I remember there was a push to
> set a 666 mask for the TPM device file, but it is not how it is done
> today by default.

No, it's 660, but in consequence of that every user of the TPM is a
member of the tpm group which, since TPM use from userspace is growing,
is everyone, so it might as well have been 666.  In other words relying
on access restrictions to the TPM itself is largely useless.

>  Also I think the same applies to trusted keys as well, at least
> without any additional authorizations or PCR restrictions on the blob
> (I remember I could manually unwrap a trusted key blob in userspace
> as root).

Well, that's correct, but a TPM key file without policy still has two
protections: the file itself (so the key owner can choose what
permissions and where it is) and the key authority (or password)
although for the mechanical (unsupervised insertion) use case keys tend
not to have an authority.

> It would be fixed if we could limit access to some TPM ops only from
> the kernel, but I remember from one of your presentations that it is
> generally a hard problem and that some solution was in the works (was
> it based on limiting access to a resettable PCR?). I'm happy to
> consider adopting it here as well somehow.

Well, that was based on constructing a policy that meant only the
kernel could access the data (so it requires PCR policy).

In addition to the expected secrecy property question which I don't
think is fully answered I did think of another issue: what if the
application needs to rotate keys because of a suspected compromise? 
For sealed keys, we just generate a new one an use that in place of the
old, but for your derived keys we'd have to change one of the mixing
values, which all look to be based on fairly permanent properties of
the system.

James

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