On Fri, Jul 17, 2020 at 12:06:10PM +0200, Peter Zijlstra wrote:
On Fri, Jul 17, 2020 at 12:20:56AM -0700, ira.weiny@intel.com wrote:
First I'm not sure if adding this state to idtentry_state and having that state copied is the right way to go. It seems like we should start passing this by reference instead of value. But for now this works as an RFC. Comments?
As long as you keep sizeof(struct idtentry_state_t) <= sizeof(u64) or possibly 2*sizeof(unsigned long), code gen shouldn't be too horrid IIRC. You'll have to look at what the compiler makes of it.
Second, I'm not 100% happy with having to save the reference count in the exception handler. It seems like a very ugly layering violation but I don't see a way around it at the moment.
So I've been struggling with that API, all the way from pks_update_protection() to that dev_access_{en,dis}able(). I _really_ hate it, but I see how you ended up with it.
I wanted to propose something like:
u32 current_pkey_save(int pkey, unsigned flags) { u32 *lpkr = get_cpu_ptr(&local_pkr); u32 pkr, saved = *lpkr;
pkr = update_pkey_reg(saved, pkey, flags); if (pkr != saved) wrpkr(pkr);
put_cpu_ptr(&local_pkr); return saved; }
void current_pkey_restore(u32 pkr) { u32 *lpkr = get_cpu_ptr(&local_pkr); if (*lpkr != pkr) wrpkr(pkr); put_cpu_ptr(&local_pkr); }
Together with:
void pkey_switch(struct task_struct *prev, struct task_struct *next) { prev->pkr = this_cpu_read(local_pkr); if (prev->pkr != next->pkr) wrpkr(next->pkr); }
But that's actually hard to frob into the kmap() model :-( The upside is that you only have 1 word of state, instead of the 2 you have now.
I'm still mulling over if what you have really helps us. It seems like we may be able to remove the percpu pkrs_cache variable... But I'm hesitant to do so.
Regardless that is not the big issue right now...
Third, this patch has gone through a couple of revisions as I've had crashes which just don't make sense to me. One particular issue I've had is taking a MCE during memcpy_mcsafe causing my WARN_ON() to fire. The code path was a pmem copy and the ref count should have been elevated due to dev_access_enable() but why was idtentry_enter()->idt_save_pkrs() not called I don't know.
Because MCEs are NMI-like and don't go through the normal interrupt path. MCEs are an abomination, please wear all the protective devices you can lay hands on when delving into that.
I've been really digging into this today and I'm very concerned that I'm completely missing something WRT idtentry_enter() and idtentry_exit().
I've instrumented idt_{save,restore}_pkrs(), and __dev_access_{en,dis}able() with trace_printk()'s.
With this debug code, I have found an instance where it seems like idtentry_enter() is called without a corresponding idtentry_exit(). This has left the thread ref counter at 0 which results in very bad things happening when __dev_access_disable() is called and the ref count goes negative.
Effectively this seems to be happening:
... // ref == 0 dev_access_enable() // ref += 1 ==> disable protection // exception (which one I don't know) idtentry_enter() // ref = 0 _handler() // or whatever code... // *_exit() not called [at least there is no trace_printk() output]... // Regardless of trace output, the ref is left at 0 dev_access_disable() // ref -= 1 ==> -1 ==> does not enable protection (Bad stuff is bound to happen now...) ...
The ref count ends up completely messed up after this sequence... and the PKRS register gets out of sync as well. This is starting to make some sense of how I was getting what seemed like random crashes before.
Unfortunately I don't understand the idt entry/exit code well enough to see clearly what is going on. Is there any reason idtentry_exit() is not called after idtentry_enter()? Perhaps some NMI/MCE or 'not normal' exception code path I'm not seeing? In my searches I see a corresponding exit for every enter. But MCE is pretty hard to follow.
Also is there any chance that the process could be getting scheduled and that is causing an issue?
Thanks, Ira