On Thu, Feb 8, 2018 at 5:30 PM, Josh Poimboeuf <jpoim...@redhat.com> wrote:
> On Thu, Feb 08, 2018 at 01:03:49PM +0300, Kirill Tkhai wrote:
>> On 07.02.2018 21:38, Dave Hansen wrote:
>> > On 02/07/2018 08:14 AM, Kirill Tkhai wrote:
>> >> Sometimes it is possible to meet a situation,
>> >> when irq stack is corrupted, while innocent
>> >> callback function is being executed. This may
>> >> happen because of crappy drivers irq handlers,
>> >> when they access wrong memory on the irq stack.
>> > Can you be more clear about the actual issue? Which drivers do this?
>> > How do they even find an IRQ stack pointer?
>> I can't say actual driver making this, because I'm still investigating the
>> guilty one.
>> But I have couple of crash dumps with the crash inside update_sd_lb_stats()
>> where stack variable sg becomes corrupted. This time all scheduler-related
>> variables are in ideal state. And update_sd_lb_stats() is the function,
>> which can't
>> corrupt its own stack. So, I thought this functionality may be useful for
>> something else,
>> especially because of irq stack is one of the last stacks, which are not
>> Task's stacks are already covered, as I know
>> [1595450.678971] Call Trace:
>> [1595450.683991] <IRQ>
>> [1595450.688926] [<ffffffff81320005>] cpumask_next_and+0x35/0x50
>> [1595450.693984] [<ffffffff810d91d3>] find_busiest_group+0x143/0x950
>> [1595450.699088] [<ffffffff810d9b7a>] load_balance+0x19a/0xc20
>> [1595450.704289] [<ffffffff810cde55>] ? sched_clock_cpu+0x85/0xc0
>> [1595450.709457] [<ffffffff810c29aa>] ? update_rq_clock.part.88+0x1a/0x150
>> [1595450.714711] [<ffffffff810da770>] rebalance_domains+0x170/0x2b0
>> [1595450.719997] [<ffffffff810da9d2>] run_rebalance_domains+0x122/0x1e0
>> [1595450.725321] [<ffffffff816bb10f>] __do_softirq+0x10f/0x2aa
>> [1595450.730746] [<ffffffff816b62ac>] call_softirq+0x1c/0x30
>> [1595450.736169] [<ffffffff8102d325>] do_softirq+0x65/0xa0
>> [1595450.741754] [<ffffffff81093ec5>] irq_exit+0x105/0x110
>> [1595450.747279] [<ffffffff816baad2>] smp_apic_timer_interrupt+0x42/0x50
>> [1595450.752905] [<ffffffff816b7a62>] apic_timer_interrupt+0x232/0x240
>> [1595450.758519] <EOI>
>> [1595450.764100] [<ffffffff8152f282>] ? cpuidle_enter_state+0x52/0xc0
>> [1595450.769652] [<ffffffff8152f3c8>] cpuidle_idle_call+0xd8/0x210
>> [1595450.775198] [<ffffffff8103540e>] arch_cpu_idle+0xe/0x30
>> [1595450.780813] [<ffffffff810effba>] cpu_startup_entry+0x14a/0x1c0
>> [1595450.786286] [<ffffffff810523e6>] start_secondary+0x1d6/0x250
> I'm not seeing how this patch would help. If you're running on the irq
> stack, the *entire* irq stack would be unpoisoned. So there's still no
> KASAN protection. Or am I missing something?
> Seems like it would be more useful for KASAN to detect redzone accesses
> on the irq stack (if it's not doing that already).
KASAN should do this already (unless there is something terribly
broken). Compiler instrumentation adds redzones around all stack
variables and injects code to poision/unpoison these redzones on
KASAN can also detect use-after-scope bugs for stack variables, but
this requires a more recent gcc (6 or 7, don't remember exactly now)
and CONFIG_KASAN_EXTRA since recently.
User-space ASAN can also detect so called use-after-return bugs
(dangling references to stack variables), but this requires manual
management of stack frames and quarantine for stack frames. This is
more tricky to do inside of kernel, so this was never implemented in
KASAN. KASAN still can detect some of these, if it will happen so that
the dangling reference happen to point to a redzone in a new frame.