On Sun, Oct 08, 2017 at 04:08:03PM -0700, Frank Rowand wrote: > On 10/07/17 03:23, Pantelis Antoniou wrote: > > Hi Rob, > > > >> On Oct 6, 2017, at 16:55 , Rob Herring wrote: > >> > >> On Tue, Oct 3, 2017 at 12:39 PM, Pantelis Antoniou > >> wrote: > >>> Hi Rob, > > < snip > > > >>> eBPF is portable, can be serialized after compiling in the schema file > >>> and can be executed in the kernel. > >> > >> Executing in the kernel is a non-goal for me. > > Executing in the kernel is an anti-goal for me. > > We are trying to reduce the device tree footprint inside the kernel, > not increase it. > > 99.99% of the validation should be possible statically, in the compile > phase. > > > >>> By stripping out all documentation related properties and nodes keeping > >>> only the compiled filters you can generate a dtb blob that passed to > >>> kernel can be used for verification of all runtime changes in the > >>> kernel's live tree. eBPF is enforcing an execution model that is 'safe' > >>> so we can be sure that no foul play is possible. > > Run time changes can be assumed correct (short of bugs in the overlay > application code), if the base tree is validated, the overlay is validated, > and the interface between the live tree and the overlay is a > connector. In addition, no amount of schema validation can really protect the kernel from a bad DT. Even if the schemas can 100% verify that the DT is "syntactically" correct, which is ambitious, it can't protect against a DT which is in the right form, but contains information that is simply wrong for the hardware in question. That can stuff the kernel at least as easily as an incorrectly formatted DT. -- David Gibson | I'll have my music baroque, and my code david AT gibson.dropbear.id.au | minimalist, thank you. NOT _the_ _other_ | _way_ _around_! http://www.ozlabs.org/~dgibson