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SubjectRe: [RFC][PATCH v2 09/11] context_tracking,livepatch: Dont disturb NOHZ_FULL
On Wed 2021-10-06 11:04:26, Peter Zijlstra wrote:
> On Wed, Oct 06, 2021 at 10:12:17AM +0200, Petr Mladek wrote:
> > IMHO, the original solution from v1 was better. We only needed to
>
> It was also terribly broken in other 'fun' ways. See below.
>
> > be careful when updating task->patch_state and clearing
> > TIF_PATCH_PENDING to avoid the race.
> >
> > The following might work:
> >
> > static int klp_check_and_switch_task(struct task_struct *task, void *arg)
> > {
> > int ret;
> >
> > /*
> > * Stack is reliable only when the task is not running on any CPU,
> > * except for the task running this code.
> > */
> > if (task_curr(task) && task != current) {
> > /*
> > * This only succeeds when the task is in NOHZ_FULL user
> > * mode. Such a task might be migrated immediately. We
> > * only need to be careful to set task->patch_state before
> > * clearing TIF_PATCH_PENDING so that the task migrates
> > * itself when entring kernel in the meatime.
> > */
> > if (is_ct_user(task)) {
> > klp_update_patch_state(task);
> > return 0;
> > }
> >
> > return -EBUSY;
> > }
> >
> > ret = klp_check_stack(task, arg);
> > if (ret)
> > return ret;
> >
> > /*
> > * The task neither is running on any CPU and nor it can get
> > * running. As a result, the ordering is not important and
> > * barrier is not needed.
> > */
> > task->patch_state = klp_target_state;
> > clear_tsk_thread_flag(task, TIF_PATCH_PENDING);
> >
> > return 0;
> > }
> >
> > , where is_ct_user(task) would return true when task is running in
> > CONTEXT_USER. If I get the context_tracking API correctly then
> > it might be implemeted the following way:
>
> That's not sufficient, you need to tag the remote task with a ct_work
> item to also runs klp_update_patch_state(), otherwise the remote CPU can
> enter kernel space between checking is_ct_user() and doing
> klp_update_patch_state():
>
> CPU0 CPU1
>
> <user>
>
> if (is_ct_user()) // true
> <kernel-entry>
> // run some kernel code
> klp_update_patch_state()
> *WHOOPSIE*
>
>
> So it needs to be something like:
>
>
> CPU0 CPU1
>
> <user>
>
> if (context_tracking_set_cpu_work(task_cpu(), CT_WORK_KLP))
>
> <kernel-entry>
> klp_update_patch_state klp_update_patch_state()
>
>
> So that CPU0 and CPU1 race to complete klp_update_patch_state() *before*
> any regular (!noinstr) code gets run.

Grr, you are right. I thought that we migrated the task when entering
kernel even before. But it seems that we do it only when leaving
the kernel in exit_to_user_mode_loop().


> Which then means it needs to look something like:
>
> noinstr void klp_update_patch_state(struct task_struct *task)
> {
> struct thread_info *ti = task_thread_info(task);
>
> preempt_disable_notrace();
> if (arch_test_bit(TIF_PATCH_PENDING, (unsigned long *)&ti->flags)) {
> /*
> * Order loads of TIF_PATCH_PENDING vs klp_target_state.
> * See klp_init_transition().
> */
> smp_rmb();
> task->patch_state = __READ_ONCE(klp_target_state);
> /*
> * Concurrent against self; must observe updated
> * task->patch_state if !TIF_PATCH_PENDING.
> */
> smp_mb__before_atomic();

IMHO, smp_wmb() should be enough. We are here only when this
CPU set task->patch_state right above. So that CPU running
this code should see the correct task->patch_state.

The read barrier is needed only when @task is entering kernel and
does not see TIF_PATCH_PENDING. It is handled by smp_rmb() in
the "else" branch below.

It is possible that both CPUs see TIF_PATCH_PENDING and both
set task->patch_state. But it should not cause any harm
because they set the same value. Unless something really
crazy happens with the internal CPU busses and caches.


> arch_clear_bit(TIF_PATCH_PENDING, (unsigned long *)&ti->flags);
> } else {
> /*
> * Concurrent against self, see smp_mb__before_atomic()
> * above.
> */
> smp_rmb();

Yeah, this is the counter part against the above smp_wmb().

> }
> preempt_enable_notrace();
> }

Now, I am scared to increase my paranoia level and search for even more
possible races. I feel overwhelmed at the moment ;-)

Best Regards,
Petr

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