On Wed, May 16, 2018 at 1:52 PM Ram Pai <linuxram@xxxxxxxxxx> wrote: > On Mon, May 14, 2018 at 02:01:23PM +0200, Florian Weimer wrote: > > On 05/09/2018 04:41 PM, Andy Lutomirski wrote: > > >Hmm. I can get on board with the idea that fork() / clone() / > > >pthread_create() are all just special cases of the idea that the thread > > >that*calls* them should have the right pkey values, and the latter is > > >already busted given our inability to asynchronously propagate the new mode > > >in pkey_alloc(). So let's so PKEY_ALLOC_SETSIGNAL as a starting point. > > > > Ram, any suggestions for implementing this on POWER? > I suspect the changes will go in > restore_user_regs() and save_user_regs(). These are the functions > that save and restore register state before entry and exit into/from > a signal handler. > > > > >One thing we could do, though: the current initual state on process > > >creation is all access blocked on all keys. We could change it so that > > >half the keys are fully blocked and half are read-only. Then we could add > > >a PKEY_ALLOC_STRICT or similar that allocates a key with the correct > > >initial state*and* does the setsignal thing. If there are no keys left > > >with the correct initial state, then it fails. > > > > The initial PKRU value can currently be configured by the system > > administrator. I fear this approach has too many moving parts to be > > viable. > Sounds like on x86 keys can go active in signal-handler > without any explicit allocation request by the application. This is not > the case on power. Is that API requirement? Hope not. On x86, signals are currently delivered with all keys locked all the way down (except for the magic one we use to emulate no-read access). I would hesitate to change this for existing applications.