Hi Mikko,
On Wed, May 29, 2024 at 05:26:15PM +0300, Mikko Rapeli wrote:
Hi,
On Wed, May 29, 2024 at 11:38:06AM +0200, Manuel Traut wrote:
Hi Mikko,
On 10:09 Wed 29 May , Mikko Rapeli wrote:
On Wed, May 29, 2024 at 10:56:04AM +0530, Sumit Garg wrote:
On Tue, 28 May 2024 at 15:00, Mikko Rapeli mikko.rapeli@linaro.org wrote:
On Mon, May 27, 2024 at 03:24:01PM +0200, Jens Wiklander wrote:
On Mon, May 27, 2024 at 3:00 PM Jerome Forissier jerome.forissier@linaro.org wrote: > On 5/27/24 14:13, Jens Wiklander wrote:
Outside of these patches, I think the optee RPC setup with fTPM TA is one area which currently requires tee-supplicant to be started. Detecting the existence of TPM before kernel drivers are loaded is possible via the exported EFI logs from firmware to kernel or ACPI TPM2 table entry, and detecting optee and thus starting tee-supplicant in userspace too.
One thing I am trying to find an answer about is why do we need to defer tee-supplicant launch if it's bundled into initrd? Once you detect OP-TEE then tee-supplicant should be launched unconditionally. As per your example below, the motivation here seems to be the TPM2 device dependent on RPMB backend but what if other future systemd services come up and depend on other services offered by tee-supplicant?
There is an annoying depedency between firmware side optee and TAs, and kernel optee driver, tee-supplicant in userspace and kernel TA drivers like fTPM.
Kernel fTPM driver and fTPM TA require tee-supplicant in userspace for RPMB, RPC etc.
This patch series is adding kernel side support for RPMB handling so that the dependency to tee-supplicant in userspace can be removed. For fTPM use case, there is still the optee RPC buffer setup which currently requires tee-supplicant in userspace or fTPM TA will panic.
So yes, currently, tee-supplicant must be started. But it would be great if kernel drivers and firmware optee trusted applications would not depend on tee-supplicant running in userspace. The startup sequence is really tricky to get right. My fTPM use case is using the TPM device to encrypt rootfs and thus all SW components including tee-supplicant need to run early in initramfs. Currently also switch from initramfs to main rootfs requires unloading fTPM kernel driver and stopping tee-supplicant in initrd, and then starting tee-supplicant and loading fTPM kernel driver from main rootfs. udev and automatic module loading for fTPM can not be used due to the tee-supplicant userspace dependency.
I decided to build fTPM as buildin-TA into OP-TEE. RPMB routing is already implemented in u-boot so it can already write PCR registers.
Is build in TA same as early TA? I presume so.
Indeed.. sorry for using the wrong term.
With this series and the required changes in OP-TEE and a compiled in fTPM kernel driver and systemd v256 it is possible to use the fTPM in the initrd without tee-supplicant.
Maybe this information is helpful to you, regards
This is very interesting and I'm trying to get to the same state, though with fTPM kernel driver as module. With v6 of this patch set and matching optee changes I was not able to make this work as fTPM TA was crashing when loading ftpm kernel driver due to failing RPC allocation, which tee-supplicant was setting up in the whole chain. I'll try to get v7 patches working and test this again on my yocto based setup and kernel 6.6.y.
I'll try today also with v7 and 6.10-rc1 on an i.MX8MM. It should also work with fTPM as kernel module if you use systemd in the initrd with the new tpm.target in systemd v256.
Regards Manuel