Re: [PATCH v5 1/4] printk/nmi: generic solution for safe printk in NMI
From: Petr Mladek
Date: Thu Apr 20 2017 - 09:12:05 EST
On Thu 2017-04-20 12:31:12, Sergey Senozhatsky wrote:
> Hello Steven,
>
> On (04/19/17 13:13), Steven Rostedt wrote:
> > > printk() takes some locks and could not be used a safe way in NMI context.
> >
> > I just found a problem with this solution. It kills ftrace dumps from
> > NMI context :-(
> >
> > [ 1295.168495] <...>-67423 10dNh1 382171111us : do_raw_spin_lock <-_raw_spin_lock
> > [ 1295.168495] <...>-67423 10dNh1 382171111us : sched_stat_runtime: comm=cc1 pid=67423 runtime=96858 [ns] vruntime=11924198270 [ns]
> > [ 1295.168496] <...>-67423 10dNh1 382171111us : lock_acquire: ffffffff81c5c940 read rcu_read_lock
> > [ 1295.168497]
> > [ 1295.168498] Lost 4890096 message(s)!
> > [ 1296.805063] ---[ end Kernel panic - not syncing: Hard LOCKUP
> > [ 1296.811553] unchecked MSR access error: WRMSR to 0x83f (tried to write 0x00000000000000f6) at rIP: 0xffffffff81046fc7 (native_apic_msr_write+0x27/0x40)
> > [ 1296.811553] Call Trace:
> > [ 1296.811553] <NMI>
> >
> > I was hoping to see a cause of a hard lockup by enabling
> > ftrace_dump_on_oops. But as NMIs now have a very small buffer that
> > gets flushed, we need to find a new way to print out the full ftrace
> > buffer over serial.
> >
> > Thoughts?
>
> hmmm... a really tough one.
>
> well, someone has to say this:
> the simplest thing is to have a bigger PRINTK_SAFE_LOG_BUF_SHIFT value :)
>
>
> just thinking (well, sort of) out loud. the problem is that we can't tell if
> we already hold any printk related locks ("printk related locks" is not even
> well defined term). so printk from NMI can deadlock or it can be OK, we
> never know. but looking and vprintk_emit() and console_unlock() it seems that
> we have some sort of a hint now, which is this_cpu_read(printk_context) - if
> we are not in printk_safe context then we can say that _probably_ (and that's
> a Russian roulette) doing "normal" printk() will work. that is a *very-very*
> risky (and admittedly dumb) thing to assume, so we will move in a slightly
> different direction. checking this_cpu_read(printk_context) only assures us
> that we don't hold `logbuf_lock' on this CPU. and that is sort of something,
> at least we can be sure that doing printk_deferred() from this CPU is safe.
> printk_deferred() means that your NMI messages will end up in the logbuf,
> which is a) bigger in size than per-CPU buffer and b) some other CPU can
> immediately print those messages (hopefully).
>
> we also switch to printk_safe mode for call_console_drivers() in
> console_unlock(). but we can't make any solid assumptions there - serial
> console lock can already be acquired, we don't have any markers for that.
> it may be reasonable to assume that if we are not in printk_safe mode on
> this CPU then serial console is not locked from this CPU, but there is
> nothing that can assure us.
Good analyze. I would summarize it that we need to be careful of:
+ logbug_lock
+ PRINTK_SAFE_CONTEXT
+ locks used by console drivers
The first two things are easy to check. Except that a check for logbuf_lock
might produce false negatives. The last check is very hard.
> so at the moment what I can think of is something like
>
> -- check this_cpu_read(printk_context) in NMI prink
>
> -- if we are NOT in printk_safe on this CPU, then do printk_deferred()
> and bypass `nmi_print_seq' buffer
I would add also a check for logbuf_lock.
> -- if we are in printk_safe
> -- well... bad luck... have a bigger buffer.
Yup, we do the best effort while still trying to stay on the safe
side.
I have cooked up a patch based on this. It uses printk_deferred()
in NMI when it is safe. Note that console_flush_on_panic() will
try to get them on the console when a kdump is not generated.
I believe that it will help Steven.