On Wed, Feb 10, 2021 at 01:38:10PM -0800, Yu, Yu-cheng wrote:
On 2/10/2021 11:58 AM, Kees Cook wrote:
quoted
On Wed, Feb 10, 2021 at 09:56:59AM -0800, Yu-cheng Yu wrote:
quoted
To deliver a signal, create a shadow stack restore token and put the token
and the signal restorer address on the shadow stack. For sigreturn, verify
the token and restore from it the shadow stack pointer.
A shadow stack restore token marks a restore point of the shadow stack.
The token is distinctively different from any shadow stack address.
How is it different? It seems like it just has the last 2 bits
masked/set?
For example, for 64-bit apps,
A shadow stack pointer value (*ssp) has to be in some code area, but for a
token, (*ptr_of_token) = (ptr_of_token + 8), which has to be within the same
shadow stack area. In cet_verify_rstor_token(), this is checked.
quoted
quoted
In sigreturn, restoring from a token ensures the target address is the
location pointed by the token.
As in, a token (real stack address with 2-bit mask) is checked against
the real stack address? I don't see a comparison -- it only checks that
it is < TASK_SIZE.
How does cet_restore_signal() figure into this? (As in, the MSR writes?)
The kernel takes the restore address from the token. It will not mistakenly
take a wrong address from the shadow stack. I will put this in my commit
logs.
Ah-ha, okay, got it now. Thank you!
Reviewed-by: Kees Cook <redacted>
--
Kees Cook