On Fri, Dec 11, 2020 at 02:14:28PM -0800, Andy Lutomirski wrote: > On Mon, Nov 23, 2020 at 10:10 PM <ira.weiny@xxxxxxxxx> wrote: > > > > From: Ira Weiny <ira.weiny@xxxxxxxxx> > > > > Currently struct irqentry_state_t only contains a single bool value > > which makes passing it by value is reasonable. However, future patches > > add information to this struct. This includes the PKRS thread state, > > included in this series, as well as information to store kmap reference > > tracking and PKS global state outside this series. In total, we > > anticipate 2 new 32 bit fields and an integer field to be added to the > > struct beyond the existing bool value. > > > > Adding information to irqentry_state_t makes passing by value less > > efficient. Therefore, change the entry/exit calls to pass irq_state by > > reference in preparation for the changes which follow. > > > > While at it, make the code easier to follow by changing all the usage > > sites to consistently use the variable name 'irq_state'. > > After contemplating this for a bit, I think this isn't really the > right approach. It *works*, but we've mostly just created a bit of an > unfortunate situation. First off please forgive my ignorance on how this code works. > Our stack, on a (possibly nested) entry looks > like: > > previous frame (or empty if we came from usermode) > --- > SS > RSP > FLAGS > CS > RIP > rest of pt_regs > > C frame > > irqentry_state_t (maybe -- the compiler is within its rights to play > almost arbitrary games here) > > more C stuff > > > So what we've accomplished is having two distinct arch register > regions, one called pt_regs and the other stuck in irqentry_state_t. > This is annoying because it means that, if we want to access this > thing without passing a pointer around or access it at all from outer > frames, we need to do something terrible with the unwinder, and we > don't want to go there. > > So I propose a somewhat different solution: lay out the stack like this. > > SS > RSP > FLAGS > CS > RIP > rest of pt_regs > PKS > ^^^^^^^^ extended_pt_regs points here > > C frame > more C stuff > ... > > IOW we have: > > struct extended_pt_regs { > bool rcu_whatever; > other generic fields here; > struct arch_extended_pt_regs arch_regs; > struct pt_regs regs; > }; > > and arch_extended_pt_regs has unsigned long pks; > > and instead of passing a pointer to irqentry_state_t to the generic > entry/exit code, we just pass a pt_regs pointer. And we have a little > accessor like: > > struct extended_pt_regs *extended_regs(struct pt_regs *) { return > container_of(...); } > > And we tell eBPF that extended_pt_regs is NOT ABI, and we will change > it whenever we feel like just to keep you on your toes, thank you very > much. > > Does this seem reasonable? Conceptually yes. But I'm failing to see how this implementation can be made generic for the generic fields. The pks fields, assuming they stay x86 specific, would be reasonable to add in PUSH_AND_CLEAR_REGS. But the rcu/lockdep field is generic. Wouldn't we have to modify every architecture to add space for the rcu/lockdep bool? If not, where is a generic place that could be done? Basically I'm missing how the effective stack structure can look like this: > struct extended_pt_regs { > bool rcu_whatever; > other generic fields here; > struct arch_extended_pt_regs arch_regs; > struct pt_regs regs; > }; It seems more reasonable to make it look like: #ifdef CONFIG_ARCH_HAS_SUPERVISOR_PKEYS struct extended_pt_regs { unsigned long pkrs; struct pt_regs regs; }; #endif And leave the rcu/lockdep bool passed by value as before (still in C). Is that what you mean? Or am I missing something with the way pt_regs is set up? Which is entirely possible because I'm pretty ignorant about how this code works... :-/ Ira