Re: [PATCH v9 06/19] x86: Add early SHA-1 support for Secure Launch early measurements

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On Thu, Dec 12, 2024 at 11:56 AM Daniel P. Smith
<dpsmith@xxxxxxxxxxxxxxxxxxxx> wrote:
>
> Hey Luto!
>
> Let me try to address your concerns below.
>
> On 11/18/24 15:02, Andy Lutomirski wrote:
> > On Mon, Nov 18, 2024 at 11:12 AM James Bottomley
> > <James.Bottomley@xxxxxxxxxxxxxxxxxxxxx> wrote:
> >>
> >> On Mon, 2024-11-18 at 10:43 -0800, Andy Lutomirski wrote:
> >>> Linux should not use TPM2_PCR_Extend *at all*.  Instead, Linux should
> >>> exclusively use TPM2_PCR_Event.  I would expect that passing, say,
> >>> the entire kernel image to TPM2_PCR_Event would be a big mistake, so
> >>> instead Linux should hash the relevant data with a reasonable
> >>> suggestion of hashes (which includes, mandatorily, SHA-384 and *does
> >>> not* include SHA-1, and may or may not be configurable at build time
> >>> to include things like SM3), concatenate them, and pass that to
> >>> TPM2_PCR_Event.  And Linux should make the value that it passed to
> >>> TPM2_PCR_Event readily accessible to software using it, and should
> >>> also include some straightforward tooling to calculate it from a
> >>> given input so that software that wants to figure out what value to
> >>> expect in a PCR can easily do so.
> >>
> >> Just for clarity, this is about how the agile log format works.  Each
> >> event entry in the log contains a list of bank hashes and the extends
> >> occur in log event order, so replaying a log should get you to exactly
> >> the head PCR value of each bank.  If a log doesn't understand a format,
> >> like SM3, then an entry for it doesn't appear in the log and a replay
> >> says nothing about the PCR value.
> >
> > I have no idea what the "agile log format" is or what all the formats
> > in existence are.  I found section 4.2.4 here:
> >
> > https://trustedcomputinggroup.org/wp-content/uploads/TCG_IWG_CEL_v1_r0p41_pub.pdf
> >
> > It says:
> >
> > This field contains the list of the digest values Extended. The Extend
> > method varies with TPM command, so there is
> > no uniform meaning of TPM Extend in this instance, and separate
> > descriptions are unavoidable. If using the
> > TPM2_PCR_Extend command, this field is the data sent to the TPM (i.e.,
> > not the resulting value of the PCR after the
> > TPM2_PCR_Extend command completes). If using the TPM2_PCR_Event
> > command, this field contains the digest
> > structure returned by the TPM2_PCR_Event command (that contains the
> > digest(s) submitted to each PCR bank as
> > the internal Extend operation). This field SHALL contain the
> > information from the TPML_DIGEST_VALUES used in
> > the Extend operation.
>
>
> Let me start with providing background on the two measurement policies
> that is implemented by Intel TXT (from Intel TXT Developers Guide):
>
>   - Maximum Agility PCR Extend Policy: ACM can support algorithm agile
> commands TPM2_PCR_Event; TPM2_HashSequenceStart; TPM2_HashUpdate;
> TPM2_EventSequenceComplete. When this policy is selected, ACM will use
> the commands above if not all PCR algorithms are covered by embedded set
> of algorithms and will extend all existing PCR banks. Side effect of
> this policy is possible performance loss.
>
> ‒ Maximum Performance PCR Extend Policy: ACM can support several hash
> algorithms via embedded SW. When this policy is selected, ACM will use
> embedded SW to compute hashes and then will use TPM2_PCR_Extend commands
> to extend them into PCRs. If PCRs utilizing hash algorithms not
> supported by SW are discovered, they will be capped with “1” value. This
> policy, when selected, will ensure maximum possible performance but has
> side effect of possible capping of some of the PCRs.
>

What is responsible for choosing which of these policies to use?

> Allow me to clarify/expand on the last statement in Maximum Agility.
> There is almost certainly a performance loss as anything larger than
> 1024 bytes, for example the Linux kernel, the ACM will bit-banging the
> bytes to the TPM using the TPM2_Hash* functions.

Surely, if Linux's stub started using TPM2_PCR_Event, it would first
hash any large inputs and then send the _hash_ to TPM2_PCR_Event
instead of, say, bit-banging the entire initramfs to the TPM.  But
you're talking about the ACM and I'm talking about the Linux stub code
in this patchset.

But the capping-with-"1" does suggest that maybe one can actually cap
with "1" without preventing downstream software from consuming the
event log.

>
> Before addressing the next point, I would also clarify how the D-CRTM
> measurement taken by the CPU is done. It uses the _TPM_HASH_* functions,
> Section 22.9 of TPM2 Commands specification, to store SHA256(SINIT ACM)
> | EDX into all active PCR banks. For clarity, when this done, EDX holds
> the 4-byte value of the SENTER parameters for which 0 is the only valid
> value currently.
>
>
> > So we're logging the values with which we extend the PCRs.  Once upon
> > a time, someone decided it was okay to skip extending a PCR bank:
> >
> > https://google.github.io/security-research/pocs/bios/tpm-carte-blanche/writeup.html
> >
> > and it was not a great idea.
>
>
> Let's begin by why/how that attack occurs. The TPM Carte Blanche attack
> took advantage of the fact that without BootGuard in place, the SRTM
> measurements are done by the software/firmware, to include the
> self-referential S-CRTM measurement. In particular, for the target
> platform, it just so happens that it was possible to construct a
> configuration where not a single hash would be sent to the SHA256 bank.
> This allowed the attacker the ability to replay any set of measurements,
> i.e. carte blanche control, into a completely empty PCR bank for which
> the attestation service would accept quotes. The key to this attack
> requires both, access to an empty PCR bank, and an attestation service
> that will accept a quote with only the exploited bank present.
>
> Let us return to my statements above, which will demonstrate why
> TXT/DRTM completely invalidates the attack. First, as noted above, when
> the CPU is processing the GETSEC[SENTER] instruction, it (the CPU) will
> compute the D-CRTM as SHA256(SINIT ACM) | EDX, sending it to the TPM
> using _TPM_HASH_* functions. The _TPM_HASH_* functions result in all PCR
> banks to be extended with the D-CRTM value. If Maximum Performance PCR
> Extend policy is in use, which is the default policy used by TrenchBoot,
> any algorithm not supported by the ACM is capped by sending the value
> "1" as the digest value for the extend. Therefore, after the TXT
> sequence has completed and before control is given to the Linux kernel
> by the ACM, all PCR banks will consist of either, the D-CRTM + all ACM
> measurements, or the D-CRTM + TPM2_PCR_Extend(0x1). There will be no PCR
> banks with empty DRTM PCRs, thus none of the banks would be usable for a
> TPM Carte Blanche-style attack.

Sure, a "carte blanche" attack in the sense that the PCRs are entirely
blank won't happen, but if any component in the chain does not extend
a bank, then an attacker can replace the code _after_ that component
without being noticed.

> (c) Upon initialization, cap the PCR banks with unsupported algorithms
> using a well-known value.
>
> A problem with (a) is that the result will be an unorthodox event,
> PCR_EXTEND(H(H'(data))). An attestation verifier will have to be aware
> of that this is being done, and have a way to determine which method was
> used for each event. This creates a potentially expensive cost for any
> existing attestation solutions to incorporate support for the unorthodox
> event. At least for DRTM solutions, it seeks to solve a problem that TXT
> does not experience.
>
> For Linux Secure Launch, I would like to propose an alternative to what
> the current logic does in the setup kernel. Specifically, Secure Launch
> will trigger a TXT reset when an unsupported algorithm is encountered.
> Instead, I would like to propose the adoption of (c), and have it
> extends a well-known, fixed value for unsupported algorithms. Secure
> Launch can leverage the fact that the TPM driver's extend function
> already expects to be given digests for all active algorithms.
> Therefore, it will record the well-known value, 0x01 to follow the ACM,
> into the digest buffers of any algorithms that Secure Launch does not
> support. This will result in the well-known value being extended each
> time a measurement is recorded. This will not be a problem as no one
> should be using those banks for attestation and can ignore those digests
> in the event log.

This seems to be at least not terrible.

Or I suppose one could use TPM_HASH_ functions? The spec for them is
somewhat impenetrable to me.

>
> I would like to note that we made a conscious design decision early on
> to use the PCR performance policy approach. We weighed a variety of
> security concerns, hardware availability, and the practicality of
> integrating the capability into our respective efforts. I do not want
> you to feel as though we are not taking your comments seriously. Ross
> reached out to some their contacts, and I reached out to a colleague
> with domain experience as well. From a cursory review, no one saw an
> issue from a crypto standpoint, beyond some algorithm recommendations.
> As we highlighted, they did caution about the resulting unorthodox
> measurement that would impose a burden on attestation solutions.
>
> Hopefully With the background and context presented, you would agree the
> above is a reasonable approach. If you do have concerns, please let us know.
>
> V/r,
> Daniel P. Smith



-- 
Andy Lutomirski
AMA Capital Management, LLC





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