On Sat, May 30, 2020 at 9:20 AM Paolo Bonzini <pbonzini@xxxxxxxxxx> wrote: > > Yes, the access_ok is done in __kvm_set_memory_region and gfn_to_hva() > returns a page-aligned address so it's obviously ok for a u32. It's not that it's "obviously ok for an u32". It is _not_ obviously ok for a user address. There's actually no access_ok() done in the lookup path at all, and what gfn_to_hva() actually ends up doing in the end is __gfn_to_hva_memslot(), which has zero overflow protection at all, and just does slot->userspace_addr + (gfn - slot->base_gfn) * PAGE_SIZE; without us having _ever_ checked that 'gfn' parameter. Yes, at some point in the very very distant past, __kvm_set_memory_region() has validated mem->{userspace_addr,memory_size}. But even that validation is actually very questionable, since it's not even done for all of the memory slots, only the "user" ones. So if at any point we have a non-user slot, of it at any point the gfn thing was mis-calculated and {over,under}flows, there are no protections what-so-ever. In other words, it really looks like kvm is entirely dependent on magic and luck and a desperate hope that there are no other bugs to keep the end result as a user address. Because if _any_ bug or oversight in that kvm_memory_slot handling ever happens, you end up with random crap. So no. I disagree. There is absolutely nothing "obviously ok" about any of that kvm code. Quite the reverse. I'd argue that it's very much obviously *NOT* ok, even while it might just happen to work. That double underscore needs to go away. It's either actively buggy right now and I see no proof it isn't, or it's a bug just waiting to happen in the future. Linus